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{
"context": "ck)\n\n -- GStreamer\n -- * Copyright (C) 1999,2000 Erik Walthinsen <omega@cse.ogi.edu>\n -- * 200",
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"value": "omega@cse.ogi.edu"
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"context": "<omega@cse.ogi.edu>\n -- * 2005 Wim Taymans <wim@fluendo.com>\n -- *\n -- * This library is f",
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"context": ".edu>\n -- * 2005 Wim Taymans <wim@fluendo.com>\n -- *\n -- * This library is free software; you",
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}
] | src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_base_gstbasetransform_h.ads | persan/A-gst | 1 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h is
-- unsupported macro: GST_TYPE_BASE_TRANSFORM (gst_base_transform_get_type())
-- arg-macro: function GST_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransform);
-- arg-macro: function GST_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_BASE_TRANSFORM_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_IS_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_IS_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_BASE_TRANSFORM_CAST (obj)
-- return (GstBaseTransform *)(obj);
GST_BASE_TRANSFORM_SINK_NAME : aliased constant String := "sink" & ASCII.NUL; -- gst/base/gstbasetransform.h:42
GST_BASE_TRANSFORM_SRC_NAME : aliased constant String := "src" & ASCII.NUL; -- gst/base/gstbasetransform.h:48
-- arg-macro: function GST_BASE_TRANSFORM_SRC_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).srcpad;
-- arg-macro: function GST_BASE_TRANSFORM_SINK_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).sinkpad;
-- unsupported macro: GST_BASE_TRANSFORM_FLOW_DROPPED GST_FLOW_CUSTOM_SUCCESS
-- arg-macro: procedure GST_BASE_TRANSFORM_LOCK (obj)
-- g_mutex_lock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- arg-macro: procedure GST_BASE_TRANSFORM_UNLOCK (obj)
-- g_mutex_unlock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- GStreamer
-- * Copyright (C) 1999,2000 Erik Walthinsen <omega@cse.ogi.edu>
-- * 2005 Wim Taymans <wim@fluendo.com>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- since 0.10.4
--*
-- * GST_BASE_TRANSFORM_SINK_NAME:
-- *
-- * The name of the templates for the sink pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_NAME:
-- *
-- * The name of the templates for the source pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the source #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_SINK_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the sink #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_FLOW_DROPPED:
-- *
-- * A #GstFlowReturn that can be returned from transform and transform_ip to
-- * indicate that no output buffer was generated.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_LOCK:
-- * @obj: base transform instance
-- *
-- * Obtain a lock to protect the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_UNLOCK:
-- * @obj: base transform instance
-- *
-- * Release the lock that protects the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
type GstBaseTransform;
type u_GstBaseTransform_u_gst_reserved_array is array (0 .. 18) of System.Address;
--subtype GstBaseTransform is u_GstBaseTransform; -- gst/base/gstbasetransform.h:100
type GstBaseTransformClass;
type u_GstBaseTransformClass_u_gst_reserved_array is array (0 .. 15) of System.Address;
--subtype GstBaseTransformClass is u_GstBaseTransformClass; -- gst/base/gstbasetransform.h:101
-- skipped empty struct u_GstBaseTransformPrivate
-- skipped empty struct GstBaseTransformPrivate
--*
-- * GstBaseTransform:
-- *
-- * The opaque #GstBaseTransform data structure.
--
type GstBaseTransform is record
element : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/base/gstbasetransform.h:110
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:114
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:115
passthrough : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:118
always_in_place : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:119
cache_caps1 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:121
cache_caps1_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:122
cache_caps2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:123
cache_caps2_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:124
have_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:125
delay_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:127
pending_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:128
negotiated : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:129
have_newsegment : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:131
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/base/gstbasetransform.h:134
transform_lock : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GMutex; -- gst/base/gstbasetransform.h:136
priv : System.Address; -- gst/base/gstbasetransform.h:139
u_gst_reserved : u_GstBaseTransform_u_gst_reserved_array; -- gst/base/gstbasetransform.h:141
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransform); -- gst/base/gstbasetransform.h:109
--< protected >
-- source and sink pads
-- Set by sub-class
-- MT-protected (with STREAM_LOCK)
--< private >
--*
-- * GstBaseTransformClass:
-- * @parent_class: Element parent class
-- * @transform_caps: Optional. Given the pad in this direction and the given
-- * caps, what caps are allowed on the other pad in this
-- * element ?
-- * @fixate_caps: Optional. Given the pad in this direction and the given
-- * caps, fixate the caps on the other pad.
-- * @transform_size: Optional. Given the size of a buffer in the given direction
-- * with the given caps, calculate the size in bytes of a buffer
-- * on the other pad with the given other caps.
-- * The default implementation uses get_unit_size and keeps
-- * the number of units the same.
-- * @get_unit_size: Required if the transform is not in-place.
-- * get the size in bytes of one unit for the given caps.
-- * @set_caps: allows the subclass to be notified of the actual caps set.
-- * @start: Optional.
-- * Called when the element starts processing.
-- * Allows opening external resources.
-- * @stop: Optional.
-- * Called when the element stops processing.
-- * Allows closing external resources.
-- * @transform: Required if the element does not operate in-place.
-- * Transforms one incoming buffer to one outgoing buffer.
-- * The function is allowed to change size/timestamp/duration
-- * of the outgoing buffer.
-- * @transform_ip: Required if the element operates in-place.
-- * Transform the incoming buffer in-place.
-- * @event: Optional.
-- * Event handler on the sink pad. This function should return
-- * TRUE if the base class should forward the event.
-- * @src_event: Optional.
-- * Event handler on the source pad.
-- * @passthrough_on_same_caps: If set to TRUE, passthrough mode will be
-- * automatically enabled if the caps are the same.
-- * @prepare_output_buffer: Optional.
-- * Subclasses can override this to do their own
-- * allocation of output buffers. Elements that only do
-- * analysis can return a subbuffer or even just
-- * increment the reference to the input buffer (if in
-- * passthrough mode)
-- * @before_transform: Optional. Since 0.10.22
-- * This method is called right before the base class will
-- * start processing. Dynamic properties or other delayed
-- * configuration could be performed in this method.
-- * @accept_caps: Optional. Since 0.10.30
-- * Subclasses can override this method to check if @caps can be
-- * handled by the element. The default implementation might not be
-- * the most optimal way to check this in all cases.
-- * @query: Optional Since 0.10.36
-- * Handle a requested query. Subclasses that implement this
-- * should must chain up to the parent if they didn't handle the
-- * query
-- *
-- * Subclasses can override any of the available virtual methods or not, as
-- * needed. At minimum either @transform or @transform_ip need to be overridden.
-- * If the element can overwrite the input data with the results (data is of the
-- * same type and quantity) it should provide @transform_ip.
--
type GstBaseTransformClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/base/gstbasetransform.h:204
transform_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:211
fixate_caps : access procedure
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/base/gstbasetransform.h:215
transform_size : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : GLIB.guint;
arg5 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg6 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:220
get_unit_size : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:223
set_caps : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:226
start : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:228
stop : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:229
event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:231
transform : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:234
transform_ip : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:235
passthrough_on_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:238
prepare_output_buffer : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : GLIB.gint;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg5 : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:241
src_event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:244
before_transform : access procedure (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/base/gstbasetransform.h:246
accept_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:249
query : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/base/gstbasetransform.h:251
u_gst_reserved : u_GstBaseTransformClass_u_gst_reserved_array; -- gst/base/gstbasetransform.h:254
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransformClass); -- gst/base/gstbasetransform.h:203
--< public >
-- virtual methods for subclasses
-- FIXME: When adjusting the padding, move these to nicer places in the class
-- src event
--< private >
function gst_base_transform_get_type return GLIB.GType; -- gst/base/gstbasetransform.h:257
pragma Import (C, gst_base_transform_get_type, "gst_base_transform_get_type");
procedure gst_base_transform_set_passthrough (trans : access GstBaseTransform; passthrough : GLIB.gboolean); -- gst/base/gstbasetransform.h:259
pragma Import (C, gst_base_transform_set_passthrough, "gst_base_transform_set_passthrough");
function gst_base_transform_is_passthrough (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:261
pragma Import (C, gst_base_transform_is_passthrough, "gst_base_transform_is_passthrough");
procedure gst_base_transform_set_in_place (trans : access GstBaseTransform; in_place : GLIB.gboolean); -- gst/base/gstbasetransform.h:263
pragma Import (C, gst_base_transform_set_in_place, "gst_base_transform_set_in_place");
function gst_base_transform_is_in_place (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:265
pragma Import (C, gst_base_transform_is_in_place, "gst_base_transform_is_in_place");
procedure gst_base_transform_update_qos
(trans : access GstBaseTransform;
proportion : GLIB.gdouble;
diff : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTimeDiff;
timestamp : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTime); -- gst/base/gstbasetransform.h:267
pragma Import (C, gst_base_transform_update_qos, "gst_base_transform_update_qos");
procedure gst_base_transform_set_qos_enabled (trans : access GstBaseTransform; enabled : GLIB.gboolean); -- gst/base/gstbasetransform.h:271
pragma Import (C, gst_base_transform_set_qos_enabled, "gst_base_transform_set_qos_enabled");
function gst_base_transform_is_qos_enabled (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:273
pragma Import (C, gst_base_transform_is_qos_enabled, "gst_base_transform_is_qos_enabled");
procedure gst_base_transform_set_gap_aware (trans : access GstBaseTransform; gap_aware : GLIB.gboolean); -- gst/base/gstbasetransform.h:275
pragma Import (C, gst_base_transform_set_gap_aware, "gst_base_transform_set_gap_aware");
procedure gst_base_transform_suggest
(trans : access GstBaseTransform;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
size : GLIB.guint); -- gst/base/gstbasetransform.h:278
pragma Import (C, gst_base_transform_suggest, "gst_base_transform_suggest");
procedure gst_base_transform_reconfigure (trans : access GstBaseTransform); -- gst/base/gstbasetransform.h:280
pragma Import (C, gst_base_transform_reconfigure, "gst_base_transform_reconfigure");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h;
| 17847 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h is
-- unsupported macro: GST_TYPE_BASE_TRANSFORM (gst_base_transform_get_type())
-- arg-macro: function GST_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransform);
-- arg-macro: function GST_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_BASE_TRANSFORM_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_IS_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_IS_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_BASE_TRANSFORM_CAST (obj)
-- return (GstBaseTransform *)(obj);
GST_BASE_TRANSFORM_SINK_NAME : aliased constant String := "sink" & ASCII.NUL; -- gst/base/gstbasetransform.h:42
GST_BASE_TRANSFORM_SRC_NAME : aliased constant String := "src" & ASCII.NUL; -- gst/base/gstbasetransform.h:48
-- arg-macro: function GST_BASE_TRANSFORM_SRC_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).srcpad;
-- arg-macro: function GST_BASE_TRANSFORM_SINK_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).sinkpad;
-- unsupported macro: GST_BASE_TRANSFORM_FLOW_DROPPED GST_FLOW_CUSTOM_SUCCESS
-- arg-macro: procedure GST_BASE_TRANSFORM_LOCK (obj)
-- g_mutex_lock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- arg-macro: procedure GST_BASE_TRANSFORM_UNLOCK (obj)
-- g_mutex_unlock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- GStreamer
-- * Copyright (C) 1999,2000 <NAME> <<EMAIL>>
-- * 2005 <NAME> <<EMAIL>>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- since 0.10.4
--*
-- * GST_BASE_TRANSFORM_SINK_NAME:
-- *
-- * The name of the templates for the sink pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_NAME:
-- *
-- * The name of the templates for the source pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the source #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_SINK_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the sink #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_FLOW_DROPPED:
-- *
-- * A #GstFlowReturn that can be returned from transform and transform_ip to
-- * indicate that no output buffer was generated.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_LOCK:
-- * @obj: base transform instance
-- *
-- * Obtain a lock to protect the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_UNLOCK:
-- * @obj: base transform instance
-- *
-- * Release the lock that protects the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
type GstBaseTransform;
type u_GstBaseTransform_u_gst_reserved_array is array (0 .. 18) of System.Address;
--subtype GstBaseTransform is u_GstBaseTransform; -- gst/base/gstbasetransform.h:100
type GstBaseTransformClass;
type u_GstBaseTransformClass_u_gst_reserved_array is array (0 .. 15) of System.Address;
--subtype GstBaseTransformClass is u_GstBaseTransformClass; -- gst/base/gstbasetransform.h:101
-- skipped empty struct u_GstBaseTransformPrivate
-- skipped empty struct GstBaseTransformPrivate
--*
-- * GstBaseTransform:
-- *
-- * The opaque #GstBaseTransform data structure.
--
type GstBaseTransform is record
element : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/base/gstbasetransform.h:110
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:114
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:115
passthrough : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:118
always_in_place : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:119
cache_caps1 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:121
cache_caps1_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:122
cache_caps2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:123
cache_caps2_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:124
have_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:125
delay_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:127
pending_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:128
negotiated : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:129
have_newsegment : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:131
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/base/gstbasetransform.h:134
transform_lock : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GMutex; -- gst/base/gstbasetransform.h:136
priv : System.Address; -- gst/base/gstbasetransform.h:139
u_gst_reserved : u_GstBaseTransform_u_gst_reserved_array; -- gst/base/gstbasetransform.h:141
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransform); -- gst/base/gstbasetransform.h:109
--< protected >
-- source and sink pads
-- Set by sub-class
-- MT-protected (with STREAM_LOCK)
--< private >
--*
-- * GstBaseTransformClass:
-- * @parent_class: Element parent class
-- * @transform_caps: Optional. Given the pad in this direction and the given
-- * caps, what caps are allowed on the other pad in this
-- * element ?
-- * @fixate_caps: Optional. Given the pad in this direction and the given
-- * caps, fixate the caps on the other pad.
-- * @transform_size: Optional. Given the size of a buffer in the given direction
-- * with the given caps, calculate the size in bytes of a buffer
-- * on the other pad with the given other caps.
-- * The default implementation uses get_unit_size and keeps
-- * the number of units the same.
-- * @get_unit_size: Required if the transform is not in-place.
-- * get the size in bytes of one unit for the given caps.
-- * @set_caps: allows the subclass to be notified of the actual caps set.
-- * @start: Optional.
-- * Called when the element starts processing.
-- * Allows opening external resources.
-- * @stop: Optional.
-- * Called when the element stops processing.
-- * Allows closing external resources.
-- * @transform: Required if the element does not operate in-place.
-- * Transforms one incoming buffer to one outgoing buffer.
-- * The function is allowed to change size/timestamp/duration
-- * of the outgoing buffer.
-- * @transform_ip: Required if the element operates in-place.
-- * Transform the incoming buffer in-place.
-- * @event: Optional.
-- * Event handler on the sink pad. This function should return
-- * TRUE if the base class should forward the event.
-- * @src_event: Optional.
-- * Event handler on the source pad.
-- * @passthrough_on_same_caps: If set to TRUE, passthrough mode will be
-- * automatically enabled if the caps are the same.
-- * @prepare_output_buffer: Optional.
-- * Subclasses can override this to do their own
-- * allocation of output buffers. Elements that only do
-- * analysis can return a subbuffer or even just
-- * increment the reference to the input buffer (if in
-- * passthrough mode)
-- * @before_transform: Optional. Since 0.10.22
-- * This method is called right before the base class will
-- * start processing. Dynamic properties or other delayed
-- * configuration could be performed in this method.
-- * @accept_caps: Optional. Since 0.10.30
-- * Subclasses can override this method to check if @caps can be
-- * handled by the element. The default implementation might not be
-- * the most optimal way to check this in all cases.
-- * @query: Optional Since 0.10.36
-- * Handle a requested query. Subclasses that implement this
-- * should must chain up to the parent if they didn't handle the
-- * query
-- *
-- * Subclasses can override any of the available virtual methods or not, as
-- * needed. At minimum either @transform or @transform_ip need to be overridden.
-- * If the element can overwrite the input data with the results (data is of the
-- * same type and quantity) it should provide @transform_ip.
--
type GstBaseTransformClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/base/gstbasetransform.h:204
transform_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:211
fixate_caps : access procedure
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/base/gstbasetransform.h:215
transform_size : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : GLIB.guint;
arg5 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg6 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:220
get_unit_size : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:223
set_caps : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:226
start : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:228
stop : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:229
event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:231
transform : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:234
transform_ip : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:235
passthrough_on_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:238
prepare_output_buffer : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : GLIB.gint;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg5 : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:241
src_event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:244
before_transform : access procedure (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/base/gstbasetransform.h:246
accept_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:249
query : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/base/gstbasetransform.h:251
u_gst_reserved : u_GstBaseTransformClass_u_gst_reserved_array; -- gst/base/gstbasetransform.h:254
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransformClass); -- gst/base/gstbasetransform.h:203
--< public >
-- virtual methods for subclasses
-- FIXME: When adjusting the padding, move these to nicer places in the class
-- src event
--< private >
function gst_base_transform_get_type return GLIB.GType; -- gst/base/gstbasetransform.h:257
pragma Import (C, gst_base_transform_get_type, "gst_base_transform_get_type");
procedure gst_base_transform_set_passthrough (trans : access GstBaseTransform; passthrough : GLIB.gboolean); -- gst/base/gstbasetransform.h:259
pragma Import (C, gst_base_transform_set_passthrough, "gst_base_transform_set_passthrough");
function gst_base_transform_is_passthrough (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:261
pragma Import (C, gst_base_transform_is_passthrough, "gst_base_transform_is_passthrough");
procedure gst_base_transform_set_in_place (trans : access GstBaseTransform; in_place : GLIB.gboolean); -- gst/base/gstbasetransform.h:263
pragma Import (C, gst_base_transform_set_in_place, "gst_base_transform_set_in_place");
function gst_base_transform_is_in_place (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:265
pragma Import (C, gst_base_transform_is_in_place, "gst_base_transform_is_in_place");
procedure gst_base_transform_update_qos
(trans : access GstBaseTransform;
proportion : GLIB.gdouble;
diff : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTimeDiff;
timestamp : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTime); -- gst/base/gstbasetransform.h:267
pragma Import (C, gst_base_transform_update_qos, "gst_base_transform_update_qos");
procedure gst_base_transform_set_qos_enabled (trans : access GstBaseTransform; enabled : GLIB.gboolean); -- gst/base/gstbasetransform.h:271
pragma Import (C, gst_base_transform_set_qos_enabled, "gst_base_transform_set_qos_enabled");
function gst_base_transform_is_qos_enabled (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:273
pragma Import (C, gst_base_transform_is_qos_enabled, "gst_base_transform_is_qos_enabled");
procedure gst_base_transform_set_gap_aware (trans : access GstBaseTransform; gap_aware : GLIB.gboolean); -- gst/base/gstbasetransform.h:275
pragma Import (C, gst_base_transform_set_gap_aware, "gst_base_transform_set_gap_aware");
procedure gst_base_transform_suggest
(trans : access GstBaseTransform;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
size : GLIB.guint); -- gst/base/gstbasetransform.h:278
pragma Import (C, gst_base_transform_suggest, "gst_base_transform_suggest");
procedure gst_base_transform_reconfigure (trans : access GstBaseTransform); -- gst/base/gstbasetransform.h:280
pragma Import (C, gst_base_transform_reconfigure, "gst_base_transform_reconfigure");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h;
| true | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h is
-- unsupported macro: GST_TYPE_BASE_TRANSFORM (gst_base_transform_get_type())
-- arg-macro: function GST_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransform);
-- arg-macro: function GST_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_BASE_TRANSFORM_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS((obj),GST_TYPE_BASE_TRANSFORM,GstBaseTransformClass);
-- arg-macro: function GST_IS_BASE_TRANSFORM (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_IS_BASE_TRANSFORM_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_TRANSFORM);
-- arg-macro: function GST_BASE_TRANSFORM_CAST (obj)
-- return (GstBaseTransform *)(obj);
GST_BASE_TRANSFORM_SINK_NAME : aliased constant String := "sink" & ASCII.NUL; -- gst/base/gstbasetransform.h:42
GST_BASE_TRANSFORM_SRC_NAME : aliased constant String := "src" & ASCII.NUL; -- gst/base/gstbasetransform.h:48
-- arg-macro: function GST_BASE_TRANSFORM_SRC_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).srcpad;
-- arg-macro: function GST_BASE_TRANSFORM_SINK_PAD (obj)
-- return GST_BASE_TRANSFORM_CAST (obj).sinkpad;
-- unsupported macro: GST_BASE_TRANSFORM_FLOW_DROPPED GST_FLOW_CUSTOM_SUCCESS
-- arg-macro: procedure GST_BASE_TRANSFORM_LOCK (obj)
-- g_mutex_lock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- arg-macro: procedure GST_BASE_TRANSFORM_UNLOCK (obj)
-- g_mutex_unlock (GST_BASE_TRANSFORM_CAST (obj).transform_lock)
-- GStreamer
-- * Copyright (C) 1999,2000 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- * 2005 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- since 0.10.4
--*
-- * GST_BASE_TRANSFORM_SINK_NAME:
-- *
-- * The name of the templates for the sink pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_NAME:
-- *
-- * The name of the templates for the source pad.
--
--*
-- * GST_BASE_TRANSFORM_SRC_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the source #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_SINK_PAD:
-- * @obj: base transform instance
-- *
-- * Gives the pointer to the sink #GstPad object of the element.
-- *
-- * Since: 0.10.4
--
--*
-- * GST_BASE_TRANSFORM_FLOW_DROPPED:
-- *
-- * A #GstFlowReturn that can be returned from transform and transform_ip to
-- * indicate that no output buffer was generated.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_LOCK:
-- * @obj: base transform instance
-- *
-- * Obtain a lock to protect the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
--*
-- * GST_BASE_TRANSFORM_UNLOCK:
-- * @obj: base transform instance
-- *
-- * Release the lock that protects the transform function from concurrent access.
-- *
-- * Since: 0.10.13
--
type GstBaseTransform;
type u_GstBaseTransform_u_gst_reserved_array is array (0 .. 18) of System.Address;
--subtype GstBaseTransform is u_GstBaseTransform; -- gst/base/gstbasetransform.h:100
type GstBaseTransformClass;
type u_GstBaseTransformClass_u_gst_reserved_array is array (0 .. 15) of System.Address;
--subtype GstBaseTransformClass is u_GstBaseTransformClass; -- gst/base/gstbasetransform.h:101
-- skipped empty struct u_GstBaseTransformPrivate
-- skipped empty struct GstBaseTransformPrivate
--*
-- * GstBaseTransform:
-- *
-- * The opaque #GstBaseTransform data structure.
--
type GstBaseTransform is record
element : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/base/gstbasetransform.h:110
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:114
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/base/gstbasetransform.h:115
passthrough : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:118
always_in_place : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:119
cache_caps1 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:121
cache_caps1_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:122
cache_caps2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:123
cache_caps2_size : aliased GLIB.guint; -- gst/base/gstbasetransform.h:124
have_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:125
delay_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:127
pending_configure : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:128
negotiated : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:129
have_newsegment : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:131
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/base/gstbasetransform.h:134
transform_lock : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GMutex; -- gst/base/gstbasetransform.h:136
priv : System.Address; -- gst/base/gstbasetransform.h:139
u_gst_reserved : u_GstBaseTransform_u_gst_reserved_array; -- gst/base/gstbasetransform.h:141
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransform); -- gst/base/gstbasetransform.h:109
--< protected >
-- source and sink pads
-- Set by sub-class
-- MT-protected (with STREAM_LOCK)
--< private >
--*
-- * GstBaseTransformClass:
-- * @parent_class: Element parent class
-- * @transform_caps: Optional. Given the pad in this direction and the given
-- * caps, what caps are allowed on the other pad in this
-- * element ?
-- * @fixate_caps: Optional. Given the pad in this direction and the given
-- * caps, fixate the caps on the other pad.
-- * @transform_size: Optional. Given the size of a buffer in the given direction
-- * with the given caps, calculate the size in bytes of a buffer
-- * on the other pad with the given other caps.
-- * The default implementation uses get_unit_size and keeps
-- * the number of units the same.
-- * @get_unit_size: Required if the transform is not in-place.
-- * get the size in bytes of one unit for the given caps.
-- * @set_caps: allows the subclass to be notified of the actual caps set.
-- * @start: Optional.
-- * Called when the element starts processing.
-- * Allows opening external resources.
-- * @stop: Optional.
-- * Called when the element stops processing.
-- * Allows closing external resources.
-- * @transform: Required if the element does not operate in-place.
-- * Transforms one incoming buffer to one outgoing buffer.
-- * The function is allowed to change size/timestamp/duration
-- * of the outgoing buffer.
-- * @transform_ip: Required if the element operates in-place.
-- * Transform the incoming buffer in-place.
-- * @event: Optional.
-- * Event handler on the sink pad. This function should return
-- * TRUE if the base class should forward the event.
-- * @src_event: Optional.
-- * Event handler on the source pad.
-- * @passthrough_on_same_caps: If set to TRUE, passthrough mode will be
-- * automatically enabled if the caps are the same.
-- * @prepare_output_buffer: Optional.
-- * Subclasses can override this to do their own
-- * allocation of output buffers. Elements that only do
-- * analysis can return a subbuffer or even just
-- * increment the reference to the input buffer (if in
-- * passthrough mode)
-- * @before_transform: Optional. Since 0.10.22
-- * This method is called right before the base class will
-- * start processing. Dynamic properties or other delayed
-- * configuration could be performed in this method.
-- * @accept_caps: Optional. Since 0.10.30
-- * Subclasses can override this method to check if @caps can be
-- * handled by the element. The default implementation might not be
-- * the most optimal way to check this in all cases.
-- * @query: Optional Since 0.10.36
-- * Handle a requested query. Subclasses that implement this
-- * should must chain up to the parent if they didn't handle the
-- * query
-- *
-- * Subclasses can override any of the available virtual methods or not, as
-- * needed. At minimum either @transform or @transform_ip need to be overridden.
-- * If the element can overwrite the input data with the results (data is of the
-- * same type and quantity) it should provide @transform_ip.
--
type GstBaseTransformClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/base/gstbasetransform.h:204
transform_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/base/gstbasetransform.h:211
fixate_caps : access procedure
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/base/gstbasetransform.h:215
transform_size : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg4 : GLIB.guint;
arg5 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg6 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:220
get_unit_size : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GLIB.guint) return GLIB.gboolean; -- gst/base/gstbasetransform.h:223
set_caps : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:226
start : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:228
stop : access function (arg1 : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:229
event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:231
transform : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:234
transform_ip : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:235
passthrough_on_same_caps : aliased GLIB.gboolean; -- gst/base/gstbasetransform.h:238
prepare_output_buffer : access function
(arg1 : access GstBaseTransform;
arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer;
arg3 : GLIB.gint;
arg4 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
arg5 : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/base/gstbasetransform.h:241
src_event : access function (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/base/gstbasetransform.h:244
before_transform : access procedure (arg1 : access GstBaseTransform; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/base/gstbasetransform.h:246
accept_caps : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/base/gstbasetransform.h:249
query : access function
(arg1 : access GstBaseTransform;
arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/base/gstbasetransform.h:251
u_gst_reserved : u_GstBaseTransformClass_u_gst_reserved_array; -- gst/base/gstbasetransform.h:254
end record;
pragma Convention (C_Pass_By_Copy, GstBaseTransformClass); -- gst/base/gstbasetransform.h:203
--< public >
-- virtual methods for subclasses
-- FIXME: When adjusting the padding, move these to nicer places in the class
-- src event
--< private >
function gst_base_transform_get_type return GLIB.GType; -- gst/base/gstbasetransform.h:257
pragma Import (C, gst_base_transform_get_type, "gst_base_transform_get_type");
procedure gst_base_transform_set_passthrough (trans : access GstBaseTransform; passthrough : GLIB.gboolean); -- gst/base/gstbasetransform.h:259
pragma Import (C, gst_base_transform_set_passthrough, "gst_base_transform_set_passthrough");
function gst_base_transform_is_passthrough (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:261
pragma Import (C, gst_base_transform_is_passthrough, "gst_base_transform_is_passthrough");
procedure gst_base_transform_set_in_place (trans : access GstBaseTransform; in_place : GLIB.gboolean); -- gst/base/gstbasetransform.h:263
pragma Import (C, gst_base_transform_set_in_place, "gst_base_transform_set_in_place");
function gst_base_transform_is_in_place (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:265
pragma Import (C, gst_base_transform_is_in_place, "gst_base_transform_is_in_place");
procedure gst_base_transform_update_qos
(trans : access GstBaseTransform;
proportion : GLIB.gdouble;
diff : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTimeDiff;
timestamp : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstclock_h.GstClockTime); -- gst/base/gstbasetransform.h:267
pragma Import (C, gst_base_transform_update_qos, "gst_base_transform_update_qos");
procedure gst_base_transform_set_qos_enabled (trans : access GstBaseTransform; enabled : GLIB.gboolean); -- gst/base/gstbasetransform.h:271
pragma Import (C, gst_base_transform_set_qos_enabled, "gst_base_transform_set_qos_enabled");
function gst_base_transform_is_qos_enabled (trans : access GstBaseTransform) return GLIB.gboolean; -- gst/base/gstbasetransform.h:273
pragma Import (C, gst_base_transform_is_qos_enabled, "gst_base_transform_is_qos_enabled");
procedure gst_base_transform_set_gap_aware (trans : access GstBaseTransform; gap_aware : GLIB.gboolean); -- gst/base/gstbasetransform.h:275
pragma Import (C, gst_base_transform_set_gap_aware, "gst_base_transform_set_gap_aware");
procedure gst_base_transform_suggest
(trans : access GstBaseTransform;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
size : GLIB.guint); -- gst/base/gstbasetransform.h:278
pragma Import (C, gst_base_transform_suggest, "gst_base_transform_suggest");
procedure gst_base_transform_reconfigure (trans : access GstBaseTransform); -- gst/base/gstbasetransform.h:280
pragma Import (C, gst_base_transform_reconfigure, "gst_base_transform_reconfigure");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_base_gstbasetransform_h;
|
[
{
"context": " --\n-- * Richard Wai (ANNEXI-STRAYLINE) ",
"end": 1044,
"score": 0.9997005462646484,
"start": 1033,
"tag": "NAME",
"value": "Richard Wai"
}
] | workers-reporting.adb | annexi-strayline/AURA | 13 | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Core --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2019, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * Richard Wai (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Containers.Synchronized_Queue_Interfaces;
with Ada.Containers.Unbounded_Synchronized_Queues;
package body Workers.Reporting is
------------------
-- Report_Queue --
------------------
package SQI is new Ada.Containers.Synchronized_Queue_Interfaces
(Element_Type => Work_Report);
package USQ is new Ada.Containers.Unbounded_Synchronized_Queues
(Queue_Interfaces => SQI);
Report_Queue: USQ.Queue;
-------------------
-- Submit_Report --
-------------------
procedure Submit_Report (Report: Work_Report) is
begin
Report_Queue.Enqueue (Report);
end Submit_Report;
-----------------------
-- Available_Reports --
-----------------------
function Available_Reports return Count_Type is
(Report_Queue.Current_Use);
---------------------
-- Retrieve_Report --
---------------------
function Retrieve_Report return Work_Report is
begin
return Report: Work_Report do
Report_Queue.Dequeue (Report);
end return;
end Retrieve_Report;
end Workers.Reporting;
| 19459 | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Core --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2019, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * <NAME> (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Containers.Synchronized_Queue_Interfaces;
with Ada.Containers.Unbounded_Synchronized_Queues;
package body Workers.Reporting is
------------------
-- Report_Queue --
------------------
package SQI is new Ada.Containers.Synchronized_Queue_Interfaces
(Element_Type => Work_Report);
package USQ is new Ada.Containers.Unbounded_Synchronized_Queues
(Queue_Interfaces => SQI);
Report_Queue: USQ.Queue;
-------------------
-- Submit_Report --
-------------------
procedure Submit_Report (Report: Work_Report) is
begin
Report_Queue.Enqueue (Report);
end Submit_Report;
-----------------------
-- Available_Reports --
-----------------------
function Available_Reports return Count_Type is
(Report_Queue.Current_Use);
---------------------
-- Retrieve_Report --
---------------------
function Retrieve_Report return Work_Report is
begin
return Report: Work_Report do
Report_Queue.Dequeue (Report);
end return;
end Retrieve_Report;
end Workers.Reporting;
| true | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Core --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2019, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * PI:NAME:<NAME>END_PI (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Containers.Synchronized_Queue_Interfaces;
with Ada.Containers.Unbounded_Synchronized_Queues;
package body Workers.Reporting is
------------------
-- Report_Queue --
------------------
package SQI is new Ada.Containers.Synchronized_Queue_Interfaces
(Element_Type => Work_Report);
package USQ is new Ada.Containers.Unbounded_Synchronized_Queues
(Queue_Interfaces => SQI);
Report_Queue: USQ.Queue;
-------------------
-- Submit_Report --
-------------------
procedure Submit_Report (Report: Work_Report) is
begin
Report_Queue.Enqueue (Report);
end Submit_Report;
-----------------------
-- Available_Reports --
-----------------------
function Available_Reports return Count_Type is
(Report_Queue.Current_Use);
---------------------
-- Retrieve_Report --
---------------------
function Retrieve_Report return Work_Report is
begin
return Report: Work_Report do
Report_Queue.Dequeue (Report);
end return;
end Retrieve_Report;
end Workers.Reporting;
|
[
{
"context": "rs for use with smart_ptrs\n\n-- Copyright (c) 2016, James Humphry\n--\n-- Permission to use, copy, modify, and/or dis",
"end": 115,
"score": 0.999860942363739,
"start": 102,
"tag": "NAME",
"value": "James Humphry"
}
] | src/counters/basic_counters.adb | jhumphry/auto_counters | 5 | -- basic_counters.adb
-- Basic non-task safe counters for use with smart_ptrs
-- Copyright (c) 2016, James Humphry
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
-- REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
-- AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
-- INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-- LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
-- OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
-- PERFORMANCE OF THIS SOFTWARE.
pragma Profile (No_Implementation_Extensions);
with Ada.Unchecked_Deallocation;
package body Basic_Counters is
function Make_New_Counter return Counter_Ptr is
(new Counter'(SP_Count => 1,
WP_Count => 0
)
);
procedure Deallocate_Counter is new Ada.Unchecked_Deallocation
(Object => Counter,
Name => Counter_Ptr);
procedure Deallocate_If_Unused (C : in out Counter_Ptr) is
begin
if C.SP_Count = 0 and C.WP_Count = 0 then
Deallocate_Counter(C);
end if;
end Deallocate_If_Unused;
procedure Check_Increment_Use_Count (C : in out Counter) is
begin
if C.SP_Count > 0 then
C.SP_Count := C.SP_Count + 1;
end if;
end Check_Increment_Use_Count;
procedure Decrement_Use_Count (C : in out Counter) is
begin
C.SP_Count := C.SP_Count - 1;
end Decrement_Use_Count;
procedure Increment_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count + 1;
end Increment_Weak_Ptr_Count;
procedure Decrement_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count - 1;
end Decrement_Weak_Ptr_Count;
end Basic_Counters;
| 1896 | -- basic_counters.adb
-- Basic non-task safe counters for use with smart_ptrs
-- Copyright (c) 2016, <NAME>
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
-- REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
-- AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
-- INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-- LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
-- OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
-- PERFORMANCE OF THIS SOFTWARE.
pragma Profile (No_Implementation_Extensions);
with Ada.Unchecked_Deallocation;
package body Basic_Counters is
function Make_New_Counter return Counter_Ptr is
(new Counter'(SP_Count => 1,
WP_Count => 0
)
);
procedure Deallocate_Counter is new Ada.Unchecked_Deallocation
(Object => Counter,
Name => Counter_Ptr);
procedure Deallocate_If_Unused (C : in out Counter_Ptr) is
begin
if C.SP_Count = 0 and C.WP_Count = 0 then
Deallocate_Counter(C);
end if;
end Deallocate_If_Unused;
procedure Check_Increment_Use_Count (C : in out Counter) is
begin
if C.SP_Count > 0 then
C.SP_Count := C.SP_Count + 1;
end if;
end Check_Increment_Use_Count;
procedure Decrement_Use_Count (C : in out Counter) is
begin
C.SP_Count := C.SP_Count - 1;
end Decrement_Use_Count;
procedure Increment_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count + 1;
end Increment_Weak_Ptr_Count;
procedure Decrement_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count - 1;
end Decrement_Weak_Ptr_Count;
end Basic_Counters;
| true | -- basic_counters.adb
-- Basic non-task safe counters for use with smart_ptrs
-- Copyright (c) 2016, PI:NAME:<NAME>END_PI
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
-- REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
-- AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
-- INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-- LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
-- OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
-- PERFORMANCE OF THIS SOFTWARE.
pragma Profile (No_Implementation_Extensions);
with Ada.Unchecked_Deallocation;
package body Basic_Counters is
function Make_New_Counter return Counter_Ptr is
(new Counter'(SP_Count => 1,
WP_Count => 0
)
);
procedure Deallocate_Counter is new Ada.Unchecked_Deallocation
(Object => Counter,
Name => Counter_Ptr);
procedure Deallocate_If_Unused (C : in out Counter_Ptr) is
begin
if C.SP_Count = 0 and C.WP_Count = 0 then
Deallocate_Counter(C);
end if;
end Deallocate_If_Unused;
procedure Check_Increment_Use_Count (C : in out Counter) is
begin
if C.SP_Count > 0 then
C.SP_Count := C.SP_Count + 1;
end if;
end Check_Increment_Use_Count;
procedure Decrement_Use_Count (C : in out Counter) is
begin
C.SP_Count := C.SP_Count - 1;
end Decrement_Use_Count;
procedure Increment_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count + 1;
end Increment_Weak_Ptr_Count;
procedure Decrement_Weak_Ptr_Count (C : in out Counter) is
begin
C.WP_Count := C.WP_Count - 1;
end Decrement_Weak_Ptr_Count;
end Basic_Counters;
|
[
{
"context": "-- part of OpenGLAda, (c) 2017 Felix Krause\n-- released under the terms of the MIT license, ",
"end": 44,
"score": 0.9998464584350586,
"start": 32,
"tag": "NAME",
"value": "Felix Krause"
}
] | src/gl/generated/gl-api.ads | Roldak/OpenGLAda | 0 | -- part of OpenGLAda, (c) 2017 Felix Krause
-- released under the terms of the MIT license, see the file "COPYING"
-- Autogenerated by Generate, do not edit
with GL.Attributes;
with GL.Blending;
with GL.Buffers;
with GL.Culling;
with GL.Enums.Getter;
with GL.Enums.Textures;
with GL.Errors;
with GL.Fixed.Textures;
with GL.Fixed.Lighting;
with GL.Framebuffer;
with GL.Low_Level.Enums;
with GL.Objects.Textures;
with GL.Objects.Buffers;
with GL.Objects.Framebuffers;
with GL.Objects.Programs;
with GL.Objects.Shaders;
with GL.Pixels;
with GL.Rasterization;
with GL.Toggles;
with GL.Types.Colors;
with GL.Uniforms;
with Interfaces.C.Strings;
with System;
private package GL.API is
pragma Preelaborate;
use GL.Types;
type T1 is access procedure (P1 : Attributes.Attribute; P2 : Double);
pragma Convention (StdCall, T1);
type T2 is access procedure (P1 : Attributes.Attribute; P2, P3 : Double);
pragma Convention (StdCall, T2);
type T3 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector2);
pragma Convention (StdCall, T3);
type T4 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Double);
pragma Convention (StdCall, T4);
type T5 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector3);
pragma Convention (StdCall, T5);
type T6 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Double);
pragma Convention (StdCall, T6);
type T7 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector4);
pragma Convention (StdCall, T7);
type T8 is access procedure (P1 : Uniforms.Uniform; P2 : Int);
pragma Convention (StdCall, T8);
type T9 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Int_Array);
pragma Convention (StdCall, T9);
type T10 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Int);
pragma Convention (StdCall, T10);
type T11 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector2_Array);
pragma Convention (StdCall, T11);
type T12 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Int);
pragma Convention (StdCall, T12);
type T13 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector3_Array);
pragma Convention (StdCall, T13);
type T14 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T14);
type T15 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector4_Array);
pragma Convention (StdCall, T15);
type T16 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix2_Array);
pragma Convention (StdCall, T16);
type T17 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix3_Array);
pragma Convention (StdCall, T17);
type T18 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix4_Array);
pragma Convention (StdCall, T18);
type T19 is access procedure (P1 : Attributes.Attribute; P2 : Int);
pragma Convention (StdCall, T19);
type T20 is access procedure (P1 : Attributes.Attribute; P2, P3 : Int);
pragma Convention (StdCall, T20);
type T21 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector2);
pragma Convention (StdCall, T21);
type T22 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Int);
pragma Convention (StdCall, T22);
type T23 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector3);
pragma Convention (StdCall, T23);
type T24 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T24);
type T25 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector4);
pragma Convention (StdCall, T25);
type T26 is access procedure (P1 : Attributes.Attribute; P2 : Short);
pragma Convention (StdCall, T26);
type T27 is access procedure (P1 : Attributes.Attribute; P2, P3 : Short);
pragma Convention (StdCall, T27);
type T28 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector2);
pragma Convention (StdCall, T28);
type T29 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Short);
pragma Convention (StdCall, T29);
type T30 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector3);
pragma Convention (StdCall, T30);
type T31 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Short);
pragma Convention (StdCall, T31);
type T32 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector4);
pragma Convention (StdCall, T32);
type T33 is access procedure (P1 : Uniforms.Uniform; P2 : Single);
pragma Convention (StdCall, T33);
type T34 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Single_Array);
pragma Convention (StdCall, T34);
type T35 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Single);
pragma Convention (StdCall, T35);
type T36 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector2_Array);
pragma Convention (StdCall, T36);
type T37 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Single);
pragma Convention (StdCall, T37);
type T38 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector3_Array);
pragma Convention (StdCall, T38);
type T39 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T39);
type T40 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector4_Array);
pragma Convention (StdCall, T40);
type T41 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix2_Array);
pragma Convention (StdCall, T41);
type T42 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix3_Array);
pragma Convention (StdCall, T42);
type T43 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix4_Array);
pragma Convention (StdCall, T43);
type T44 is access procedure (P1 : Attributes.Attribute; P2 : Single);
pragma Convention (StdCall, T44);
type T45 is access procedure (P1 : Attributes.Attribute; P2, P3 : Single);
pragma Convention (StdCall, T45);
type T46 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector2);
pragma Convention (StdCall, T46);
type T47 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Single);
pragma Convention (StdCall, T47);
type T48 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector3);
pragma Convention (StdCall, T48);
type T49 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T49);
type T50 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector4);
pragma Convention (StdCall, T50);
type T51 is access procedure (P1 : Uniforms.Uniform; P2 : UInt);
pragma Convention (StdCall, T51);
type T52 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInt_Array);
pragma Convention (StdCall, T52);
type T53 is access procedure (P1 : Uniforms.Uniform; P2, P3 : UInt);
pragma Convention (StdCall, T53);
type T54 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector2_Array);
pragma Convention (StdCall, T54);
type T55 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : UInt);
pragma Convention (StdCall, T55);
type T56 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector3_Array);
pragma Convention (StdCall, T56);
type T57 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T57);
type T58 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector4_Array);
pragma Convention (StdCall, T58);
type T59 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix2_Array);
pragma Convention (StdCall, T59);
type T60 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix3_Array);
pragma Convention (StdCall, T60);
type T61 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix4_Array);
pragma Convention (StdCall, T61);
type T62 is access procedure (P1 : Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T62);
type T63 is access procedure (P1 : Attributes.Attribute; P2, P3 : UInt);
pragma Convention (StdCall, T63);
type T64 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector2);
pragma Convention (StdCall, T64);
type T65 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : UInt);
pragma Convention (StdCall, T65);
type T66 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector3);
pragma Convention (StdCall, T66);
type T67 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T67);
type T68 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector4);
pragma Convention (StdCall, T68);
type T69 is access function (P1 : Enums.Getter.String_Parameter; P2 : UInt) return C.Strings.chars_ptr;
pragma Convention (StdCall, T69);
type T70 is access procedure (P1 : Colors.Color);
pragma Convention (StdCall, T70);
type T71 is access procedure (P1 : Double);
pragma Convention (StdCall, T71);
type T72 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Size; P4 : Size);
pragma Convention (StdCall, T72);
type T73 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Unsigned_Numeric_Type; P4 : Low_Level.IntPtr; P5 : Size);
pragma Convention (StdCall, T73);
type T74 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : Unsigned_Numeric_Type; P4 : UInt; P5 : Int);
pragma Convention (StdCall, T74);
type T75 is access procedure (P1 : Connection_Mode; P2 : UInt);
pragma Convention (StdCall, T75);
type T76 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T76);
type T77 is access procedure (P1 : UInt);
pragma Convention (StdCall, T77);
type T78 is access procedure (P1 : GL.Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T78);
type T79 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Blend_Factor);
pragma Convention (StdCall, T79);
type T80 is access procedure (P1, P2, P3, P4 : Blending.Blend_Factor);
pragma Convention (StdCall, T80);
type T81 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3, P4, P5 : Blending.Blend_Factor);
pragma Convention (StdCall, T81);
type T82 is access procedure (P1, P2, P3, P4 : Colors.Component);
pragma Convention (StdCall, T82);
type T83 is access procedure (P1 : Blending.Equation);
pragma Convention (StdCall, T83);
type T84 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2 : Blending.Equation);
pragma Convention (StdCall, T84);
type T85 is access procedure (P1, P2 : Blending.Equation);
pragma Convention (StdCall, T85);
type T86 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Equation);
pragma Convention (StdCall, T86);
type T87 is access procedure (P1 : Enums.Point_Param; P2 : Single);
pragma Convention (StdCall, T87);
type T88 is access procedure (P1 : UInt; P2 : Buffers.Explicit_Color_Buffer_List);
pragma Convention (StdCall, T88);
type T89 is access procedure (P1 : Buffers.Color_Buffer_Selector; P2 : Low_Level.Zero; P3 : Colors.Color);
pragma Convention (StdCall, T89);
type T90 is access procedure (P1 : Low_Level.Enums.Only_Color_Buffer; P2 : Buffers.Draw_Buffer_Index; P3 : Colors.Color);
pragma Convention (StdCall, T90);
type T91 is access procedure (P1 : Low_Level.Enums.Only_Depth_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Depth);
pragma Convention (StdCall, T91);
type T92 is access procedure (P1 : Low_Level.Enums.Only_Stencil_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Stencil_Index);
pragma Convention (StdCall, T92);
type T93 is access procedure (P1 : Low_Level.Enums.Only_Depth_Stencil_Buffer; P2 : Low_Level.Zero; P3 : Buffers.Depth; P4 : Buffers.Stencil_Index);
pragma Convention (StdCall, T93);
type T94 is access procedure (P1 : Culling.Face_Selector; P2 : Compare_Function; P3 : Int; P4 : UInt);
pragma Convention (StdCall, T94);
type T95 is access procedure (P1 : Culling.Face_Selector; P2, P3, P4 : Buffers.Stencil_Action);
pragma Convention (StdCall, T95);
type T96 is access procedure (P1 : Culling.Face_Selector; P2 : UInt);
pragma Convention (StdCall, T96);
type T97 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size; P5 : Low_Level.Zero; P6 : Size; P7 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T97);
type T98 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3, P4 : Int; P5, P6 : Size; P7 : Pixels.Data_Format; P8 : Pixels.Data_Type; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T98);
type T99 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size);
pragma Convention (StdCall, T99);
type T100 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size; P6 : Low_Level.Zero; P7 : Size; P8 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T100);
type T101 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T101);
type T102 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Pixels.Data_Format; P9 : Pixels.Data_Type; P10 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T102);
type T103 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Size; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T103);
type T104 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size);
pragma Convention (StdCall, T104);
type T105 is access procedure (P1 : Int);
pragma Convention (StdCall, T105);
type T106 is access procedure (P1 : Low_Level.Enums.Texture_Kind);
pragma Convention (StdCall, T106);
type T107 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T107);
type T108 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level; P3, P4, P5 : Int; P6, P7, P8 : Size);
pragma Convention (StdCall, T108);
type T109 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T109);
type T110 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T110);
type T111 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt);
pragma Convention (StdCall, T111);
type T112 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T112);
type T113 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.SizeIPtr; P3 : System.Address; P4 : Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T113);
type T114 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Pixels.Internal_Format; P3 : UInt);
pragma Convention (StdCall, T114);
type T115 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Objects.Access_Kind) return System.Address;
pragma Convention (StdCall, T115);
type T116 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : Low_Level.Bitfield) return System.Address;
pragma Convention (StdCall, T116);
type T117 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Pointer_Param; P3 : out System.Address);
pragma Convention (StdCall, T117);
type T118 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : System.Address);
pragma Convention (StdCall, T118);
type T119 is access procedure (P1 : Low_Level.Enums.Buffer_Kind);
pragma Convention (StdCall, T119);
type T120 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Access_Kind);
pragma Convention (StdCall, T120);
type T121 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T121);
type T122 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Size);
pragma Convention (StdCall, T122);
type T123 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T123);
type T124 is access procedure (P1 : UInt);
pragma Convention (StdCall, T124);
type T125 is access procedure (P1 : UInt; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T125);
type T126 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T126);
type T127 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T127);
type T128 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T128);
type T129 is access procedure (P1 : UInt);
pragma Convention (StdCall, T129);
type T130 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T130);
type T131 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T131);
type T132 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Pixels.Internal_Format; P3, P4 : Size);
pragma Convention (StdCall, T132);
type T133 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Size; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T133);
type T134 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T134);
type T135 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Int);
pragma Convention (StdCall, T135);
type T136 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Pixels.Internal_Format);
pragma Convention (StdCall, T136);
type T137 is access procedure (P1 : Enums.Clamp_Color_Param; P2 : Low_Level.Bool);
pragma Convention (StdCall, T137);
type T138 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T138);
type T139 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T139);
type T140 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T140);
type T141 is access function (P1 : Low_Level.Enums.Framebuffer_Kind) return Objects.Framebuffers.Framebuffer_Status;
pragma Convention (StdCall, T141);
type T142 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : Low_Level.Enums.Renderbuffer_Kind; P4 : UInt);
pragma Convention (StdCall, T142);
type T143 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T143);
type T144 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level; P5 : Int);
pragma Convention (StdCall, T144);
type T145 is access procedure (P1, P2, P3, P4, P5, P6, P7, P8 : Int; P9 : Low_Level.Bitfield; P10 : Objects.Textures.Magnifying_Function);
pragma Convention (StdCall, T145);
type T146 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List);
pragma Convention (StdCall, T146);
type T147 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List; P4, P5 : Int; P6, P7 : Size);
pragma Convention (StdCall, T147);
type T148 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Size);
pragma Convention (StdCall, T148);
type T149 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Low_Level.Bool);
pragma Convention (StdCall, T149);
type T150 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Size);
pragma Convention (StdCall, T150);
type T151 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T151);
type T152 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T152);
type T153 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T153);
type T154 is access function (P1 : UInt) return Boolean;
pragma Convention (StdCall, T154);
type T155 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Results; P3 : out UInt);
pragma Convention (StdCall, T155);
type T156 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T156);
type T157 is access procedure (P1 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T157);
type T158 is access procedure (P1 : Low_Level.Enums.Query_Param; P2, P3 : UInt);
pragma Convention (StdCall, T158);
type T159 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T159);
type T160 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T160);
type T161 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Int);
pragma Convention (StdCall, T161);
type T162 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Objects.Shaders.Shader_Type);
pragma Convention (StdCall, T162);
type T163 is access function (P1 : Objects.Shaders.Shader_Type) return UInt;
pragma Convention (StdCall, T163);
type T164 is access procedure (P1 : UInt);
pragma Convention (StdCall, T164);
type T165 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : Low_Level.Int_Array);
pragma Convention (StdCall, T165);
type T166 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T166);
type T167 is access procedure;
pragma Convention (StdCall, T167);
type T168 is access function return UInt;
pragma Convention (StdCall, T168);
type T169 is access procedure (P1 : UInt);
pragma Convention (StdCall, T169);
type T170 is access procedure (P1 : UInt; P2 : Enums.Program_Param; P3 : out Int);
pragma Convention (StdCall, T170);
type T171 is access procedure (P1, P2 : UInt);
pragma Convention (StdCall, T171);
type T172 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T172);
type T173 is access procedure (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Enums.Program_Stage_Param; P4 : out Size);
pragma Convention (StdCall, T173);
type T174 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Subroutine_Index_Type;
pragma Convention (StdCall, T174);
type T175 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Uniform_Location_Type;
pragma Convention (StdCall, T175);
type T176 is access function (P1 : UInt; P2 : C.char_array) return Uniforms.Uniform;
pragma Convention (StdCall, T176);
type T177 is access procedure (P1 : UInt; P2 : Attributes.Attribute; P3 : C.char_array);
pragma Convention (StdCall, T177);
type T178 is access function (P1 : UInt; P2 : C.char_array) return Attributes.Attribute;
pragma Convention (StdCall, T178);
type T179 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Low_Level.Bool; P5 : Size; P6 : Int);
pragma Convention (StdCall, T179);
type T180 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Size; P5 : Int);
pragma Convention (StdCall, T180);
type T181 is access procedure (P1 : Attributes.Attribute);
pragma Convention (StdCall, T181);
type T182 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out UInt_Array);
pragma Convention (StdCall, T182);
type T183 is access procedure (P1 : UInt; P2 : Buffers.Draw_Buffer_Index; P3 : Interfaces.C.char_array);
pragma Convention (StdCall, T183);
type T184 is access function (P1 : UInt; P2 : Interfaces.C.char_array) return Int;
pragma Convention (StdCall, T184);
type T185 is access procedure (P1 : Connection_Mode);
pragma Convention (StdCall, T185);
type T186 is access procedure (P1 : UInt; P2 : Int; P3 : Size; P4 : out Size; P5 : out Size; P6 : out GL.Objects.Programs.Active_Attribute; P7 : in out Interfaces.C.char_array);
pragma Convention (StdCall, T186);
type T187 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : GL.Objects.Programs.Buffer_Mode);
pragma Convention (StdCall, T187);
type T188 is access procedure (P1 : Enums.Patch_Parameter_Int; P2 : Int);
pragma Convention (StdCall, T188);
type T189 is access procedure (P1 : Enums.Patch_Parameter_Float_Array; P2 : Types.Single_Array);
pragma Convention (StdCall, T189);
function Get_Error return Errors.Error_Code;
pragma Import (StdCall, Get_Error, "glGetError");
procedure Flush;
pragma Import (StdCall, Flush, "glFlush");
procedure Finish;
pragma Import (StdCall, Finish, "glFinish");
procedure Get_Boolean (Name : Enums.Getter.Parameter; Target : access Low_Level.Bool);
pragma Import (StdCall, Get_Boolean, "glGetBooleanv");
procedure Get_Double (Name : Enums.Getter.Parameter; Target : access Double);
pragma Import (StdCall, Get_Double, "glGetDoublev");
procedure Get_Double_Vec2 (Name : Enums.Getter.Parameter; Target : in out Doubles.Vector2);
pragma Import (StdCall, Get_Double_Vec2, "glGetDoublev");
procedure Get_Single (Name : Enums.Getter.Parameter; Target : access Single);
pragma Import (StdCall, Get_Single, "glGetFloatv");
procedure Get_Single_Vec2 (Name : Enums.Getter.Parameter; Target : in out Singles.Vector2);
pragma Import (StdCall, Get_Single_Vec2, "glGetFloatv");
procedure Get_Color (Name : Enums.Getter.Parameter; Target : in out Colors.Color);
pragma Import (StdCall, Get_Color, "glGetFloatv");
procedure Get_Integer (Name : Enums.Getter.Parameter; Target : access Int);
pragma Import (StdCall, Get_Integer, "glGetIntegerv");
procedure Get_Int_Vec4 (Name : Enums.Getter.Parameter; Target : in out Ints.Vector4);
pragma Import (StdCall, Get_Int_Vec4, "glGetIntegerv");
procedure Get_Unsigned_Integer (Name : Enums.Getter.Parameter; Target : access UInt);
pragma Import (StdCall, Get_Unsigned_Integer, "glGetIntegerv");
procedure Get_Size (Name : Enums.Getter.Parameter; Target : access Size);
pragma Import (StdCall, Get_Size, "glGetIntegerv");
procedure Get_Color_Control (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Color_Control);
pragma Import (StdCall, Get_Color_Control, "glGetIntegerv");
procedure Get_Shade_Model (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Get_Shade_Model, "glGetIntegerv");
procedure Get_Blend_Factor (Name : Enums.Getter.Parameter; Target : access Blending.Blend_Factor);
pragma Import (StdCall, Get_Blend_Factor, "glGetIntegerv");
procedure Get_Alignment (Name : Enums.Getter.Parameter; Target : access Pixels.Alignment);
pragma Import (StdCall, Get_Alignment, "glGetIntegerv");
procedure Get_Blend_Equation (Name : Enums.Getter.Parameter; Target : access Blending.Equation);
pragma Import (StdCall, Get_Blend_Equation, "glGetIntegerv");
procedure Get_Compare_Function (Name : Enums.Getter.Parameter; Target : access Compare_Function);
pragma Import (StdCall, Get_Compare_Function, "glGetIntegerv");
procedure Get_Orientation (Name : Enums.Getter.Parameter; Target : access Orientation);
pragma Import (StdCall, Get_Orientation, "glGetIntegerv");
procedure Get_Face_Selector (Name : Enums.Getter.Parameter; Target : access Culling.Face_Selector);
pragma Import (StdCall, Get_Face_Selector, "glGetIntegerv");
procedure Get_Polygon_Mode (Name : Enums.Getter.Parameter; Target : access Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Get_Polygon_Mode, "glGetIntegerv");
procedure Get_Logic_Op (Name : Enums.Getter.Parameter; Target : access Framebuffer.Logic_Op);
pragma Import (StdCall, Get_Logic_Op, "glGetIntegerv");
procedure Get_Stencil_Action (Name : Enums.Getter.Parameter; Target : access Buffers.Stencil_Action);
pragma Import (StdCall, Get_Stencil_Action, "glGetIntegerv");
procedure Get_Read_Buffer_Selector (Name : Enums.Getter.Parameter; Target : access Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Get_Read_Buffer_Selector, "glGetIntegerv");
procedure Get_Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Colors.Color);
pragma Import (StdCall, Get_Light_Color, "glGetLightfv");
function Get_String (Name : Enums.Getter.String_Parameter) return C.Strings.chars_ptr;
pragma Import (StdCall, Get_String, "glGetString");
Get_String_I : T69;
procedure Enable (Subject : Toggles.Toggle);
pragma Import (StdCall, Enable, "glEnable");
procedure Disable (Subject : Toggles.Toggle);
pragma Import (StdCall, Disable, "glDisable");
function Is_Enabled (Subject : Toggles.Toggle) return Low_Level.Bool;
pragma Import (StdCall, Is_Enabled, "glIsEnabled");
procedure Cull_Face (Selector : Culling.Face_Selector);
pragma Import (StdCall, Cull_Face, "glCullFace");
procedure Front_Face (Face : Orientation);
pragma Import (StdCall, Front_Face, "glFrontFace");
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Low_Level.Bool);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Size);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Pixels.Alignment);
pragma Import (StdCall, Pixel_Store, "glPixelStorei");
procedure Matrix_Mode (Mode : Enums.Matrix_Mode);
pragma Import (StdCall, Matrix_Mode, "glMatrixMode");
procedure Frustum (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Frustum, "glFrustum");
procedure Ortho (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Ortho, "glOrtho");
procedure Load_Identity;
pragma Import (StdCall, Load_Identity, "glLoadIdentity");
procedure Push_Matrix;
pragma Import (StdCall, Push_Matrix, "glPushMatrix");
procedure Pop_Matrix;
pragma Import (StdCall, Pop_Matrix, "glPopMatrix");
procedure Rotate (Angle, X, Y, Z : Double);
pragma Import (StdCall, Rotate, "glRotated");
procedure Scale (X, Y, Z : Double);
pragma Import (StdCall, Scale, "glScaled");
procedure Translate (X, Y, Z : Double);
pragma Import (StdCall, Translate, "glTranslated");
procedure GL_Begin (Mode : Connection_Mode);
pragma Import (StdCall, GL_Begin, "glBegin");
procedure GL_End;
pragma Import (StdCall, GL_End, "glEnd");
procedure Color (Value : Colors.Color);
pragma Import (StdCall, Color, "glColor4fv");
Secondary_Color : T70;
Fog_Coord : T71;
procedure Vertex_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Vertex_Pointer, "glVertexPointer");
procedure Index_Pointer (Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Index_Pointer, "glIndexPointer");
procedure Color_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Color_Pointer, "glColorPointer");
procedure Enable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Enable_Client_State, "glEnableClientState");
procedure Disable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Disable_Client_State, "glDisableClientState");
procedure Draw_Arrays (Mode : Connection_Mode; First : Int; Count : Size);
pragma Import (StdCall, Draw_Arrays, "glDrawArrays");
Draw_Arrays_Instanced : T72;
procedure Draw_Elements (Mode : Connection_Mode; Count : Size; Index_Type : Unsigned_Numeric_Type; Indices : Low_Level.IntPtr);
pragma Import (StdCall, Draw_Elements, "glDrawElements");
Draw_Elements_Instanced : T73;
Draw_Elements_Base_Vertex : T74;
Draw_Transform_Feedback : T75;
Draw_Transform_Feedback_Stream : T76;
Primitive_Restart_Index : T77;
Vertex_Attrib_Divisor : T78;
procedure Load_Matrix (Value : Types.Doubles.Matrix4);
pragma Import (StdCall, Load_Matrix, "glLoadMatrixd");
procedure Mult_Matrix (Factor : Types.Doubles.Matrix4);
pragma Import (StdCall, Mult_Matrix, "glMultMatrixd");
procedure Vertex4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Vertex4, "glVertex4dv");
procedure Vertex3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Vertex3, "glVertex3dv");
procedure Vertex2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Vertex2, "glVertex2dv");
procedure Normal (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Normal, "glNormal3dv");
procedure Tex_Coord4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Tex_Coord4, "glTexCoord4dv");
procedure Tex_Coord3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Tex_Coord3, "glTexCoord3dv");
procedure Tex_Coord2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Tex_Coord2, "glTexCoord2dv");
procedure Light_Model_Color (Param : Enums.Light_Model_Ambient_Parameter; Color : Colors.Color);
pragma Import (StdCall, Light_Model_Color, "glLightModelfv");
procedure Light_Model_Color_Control (Param : Enums.Light_Model_CC_Parameter; Value : access constant Fixed.Lighting.Color_Control);
pragma Import (StdCall, Light_Model_Color_Control, "glLightModeliv");
procedure Light_Model_Toggles (Param : Enums.Light_Model_Toggle_Parameter; Value : access constant Int);
pragma Import (StdCall, Light_Model_Toggles, "glLightModeliv");
procedure Shade_Model (Mode : Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Shade_Model, "glShadeModel");
procedure Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Colors.Color);
pragma Import (StdCall, Light_Color, "glLightfv");
procedure Get_Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector4);
pragma Import (StdCall, Get_Light_Position, "glGetLightfv");
procedure Get_Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector3);
pragma Import (StdCall, Get_Light_Direction, "glGetLightfv");
procedure Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector4);
pragma Import (StdCall, Light_Position, "glLightfv");
procedure Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector3);
pragma Import (StdCall, Light_Direction, "glLightfv");
procedure Blend_Func (Src_Factor, Dst_Factor : Blending.Blend_Factor);
pragma Import (StdCall, Blend_Func, "glBlendFunc");
Blend_Func_I : T79;
Blend_Func_Separate : T80;
Blend_Func_Separate_I : T81;
Blend_Color : T82;
Blend_Equation : T83;
Blend_Equation_I : T84;
Blend_Equation_Separate : T85;
Blend_Equation_Separate_I : T86;
procedure Line_Width (Value : Single);
pragma Import (StdCall, Line_Width, "glLineWidth");
procedure Polygon_Mode (Face : Culling.Face_Selector; Value : Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Polygon_Mode, "glPolygonMode");
procedure Set_Point_Size (Value : Single);
pragma Import (StdCall, Set_Point_Size, "glPointSize");
Set_Point_Parameter_Single : T87;
procedure Raster_Pos4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Raster_Pos4, "glRasterPos4dv");
procedure Raster_Pos3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Raster_Pos3, "glRasterPos3dv");
procedure Raster_Pos2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Raster_Pos2, "glRasterPos2dv");
procedure Set_Polygon_Offset (Factor, Units : Single);
pragma Import (StdCall, Set_Polygon_Offset, "glPolygonOffset");
procedure Clear (Bits : Low_Level.Bitfield);
pragma Import (StdCall, Clear, "glClear");
procedure Draw_Buffer (Mode : Buffers.Explicit_Color_Buffer_Selector);
pragma Import (StdCall, Draw_Buffer, "glDrawBuffer");
Draw_Buffers : T88;
procedure Clear_Color (Red, Green, Blue, Alpha : Colors.Component);
pragma Import (StdCall, Clear_Color, "glClearColor");
procedure Clear_Depth (Depth : Buffers.Depth);
pragma Import (StdCall, Clear_Depth, "glClearDepth");
procedure Clear_Stencil (Index : Buffers.Stencil_Index);
pragma Import (StdCall, Clear_Stencil, "glClearStencil");
Clear_Accum : T82;
Clear_Buffer : T89;
Clear_Draw_Buffer : T90;
Clear_Buffer_Depth : T91;
Clear_Buffer_Stencil : T92;
Clear_Buffer_Depth_Stencil : T93;
procedure Depth_Mask (Value : Low_Level.Bool);
pragma Import (StdCall, Depth_Mask, "glDepthMask");
procedure Depth_Func (Func : Compare_Function);
pragma Import (StdCall, Depth_Func, "glDepthFunc");
Stencil_Func_Separate : T94;
Stencil_Op_Separate : T95;
Stencil_Mask_Separate : T96;
procedure Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Single);
pragma Import (StdCall, Tex_Parameter_Float, "glTexParameterf");
procedure Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Int);
pragma Import (StdCall, Tex_Parameter_Int, "glTexParameteri");
procedure Tex_Parameter_Min_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Minifying_Function);
pragma Import (StdCall, Tex_Parameter_Min_Filter, "glTexParameteri");
procedure Tex_Parameter_Mag_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Magnifying_Function);
pragma Import (StdCall, Tex_Parameter_Mag_Filter, "glTexParameteri");
procedure Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Tex_Parameter_Wrap_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Enums.Textures.Compare_Kind);
pragma Import (StdCall, Tex_Parameter_Comp_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Compare_Function);
pragma Import (StdCall, Tex_Parameter_Comp_Func, "glTexParameteri");
procedure Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Depth_Mode);
pragma Import (StdCall, Tex_Parameter_Depth_Mode, "glTexParameteri");
procedure Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Parameter_Bool, "glTexParameteri");
procedure Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Parameter_Floats, "glTexParameterfv");
procedure Get_Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Parameter_Float, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Parameter_Floats, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Int);
pragma Import (StdCall, Get_Tex_Parameter_Int, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Ints (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Int_Array);
pragma Import (StdCall, Get_Tex_Parameter_Ints, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Wrap_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Enums.Textures.Compare_Kind);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Compare_Function);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Func, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Depth_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Depth_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Parameter_Bool, "glGetTexParameteriv");
procedure Get_Tex_Level_Parameter_Size (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Size);
pragma Import (StdCall, Get_Tex_Level_Parameter_Size, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Format (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Internal_Format);
pragma Import (StdCall, Get_Tex_Level_Parameter_Format, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Type (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Channel_Data_Type);
pragma Import (StdCall, Get_Tex_Level_Parameter_Type, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Level_Parameter_Bool, "glGetTexLevelParameteriv");
procedure Gen_Textures (N : Size; Textures : out UInt);
pragma Import (StdCall, Gen_Textures, "glGenTextures");
procedure Bind_Texture (Target : Low_Level.Enums.Texture_Kind; Texture : UInt);
pragma Import (StdCall, Bind_Texture, "glBindTexture");
procedure Delete_Textures (N : Size; Textures : Low_Level.UInt_Array);
pragma Import (StdCall, Delete_Textures, "glDeleteTextures");
function Is_Texture (Texture : UInt) return Boolean;
pragma Import (StdCall, Is_Texture, "glIsTexture");
procedure Tex_Image_1D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_1D, "glTexImage1D");
Compressed_Tex_Image_1D : T97;
Tex_Sub_Image_1D : T98;
Tex_Storage_1D : T99;
procedure Tex_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width, Height : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_2D, "glTexImage2D");
Compressed_Tex_Image_2D : T100;
procedure Tex_Sub_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; X_Offset, Y_Offset : Int; Width, Height : Size; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Sub_Image_2D, "glTexSubImage2D");
Tex_Storage_2D : T101;
Tex_Image_3D : T102;
Compressed_Tex_Image_3D : T103;
Tex_Sub_Image_3D : T98;
Tex_Storage_3D : T104;
procedure Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Single);
pragma Import (StdCall, Tex_Env_Float, "glTexEnvf");
procedure Tex_Env_Int (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Int);
pragma Import (StdCall, Tex_Env_Int, "glTexEnvi");
procedure Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Texture_Function);
pragma Import (StdCall, Tex_Env_Tex_Func, "glTexEnvi");
procedure Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Combine_Function);
pragma Import (StdCall, Tex_Env_Combine_Func, "glTexEnvi");
procedure Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Source_Kind);
pragma Import (StdCall, Tex_Env_Source, "glTexEnvi");
procedure Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Env_Arr, "glTexEnvfv");
procedure Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Env_Bool, "glTexEnvi");
procedure Get_Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Env_Float, "glGetTexEnvfv");
procedure Get_Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Texture_Function);
pragma Import (StdCall, Get_Tex_Env_Tex_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Combine_Function);
pragma Import (StdCall, Get_Tex_Env_Combine_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Source_Kind);
pragma Import (StdCall, Get_Tex_Env_Source, "glGetTexEnviv");
procedure Get_Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Env_Arr, "glGetTexEnvfv");
procedure Get_Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Env_Bool, "glGetTexEnviv");
Active_Texture : T105;
Generate_Mipmap : T106;
Invalidate_Tex_Image : T107;
Invalidate_Tex_Sub_Image : T108;
Gen_Buffers : T109;
Gen_Transform_Feedbacks : T109;
Delete_Buffers : T110;
Delete_Transform_Feedbacks : T110;
Bind_Buffer : T111;
Bind_Transform_Feedback : T111;
Bind_Buffer_Base : T112;
Buffer_Data : T113;
Texture_Buffer_Data : T114;
Map_Buffer : T115;
Map_Buffer_Range : T116;
Buffer_Pointer : T117;
Buffer_Sub_Data : T118;
Get_Buffer_Sub_Data : T118;
Unmap_Buffer : T119;
Get_Buffer_Parameter_Access_Kind : T120;
Get_Buffer_Parameter_Bool : T121;
Get_Buffer_Parameter_Size : T122;
Get_Buffer_Parameter_Usage : T123;
Invalidate_Buffer_Data : T124;
Invalidate_Buffer_Sub_Data : T125;
Flush_Mapped_Buffer_Range : T126;
Gen_Vertex_Arrays : T127;
Delete_Vertex_Arrays : T128;
Bind_Vertex_Array : T129;
Gen_Renderbuffers : T130;
Delete_Renderbuffers : T131;
Renderbuffer_Storage : T132;
Renderbuffer_Storage_Multisample : T133;
Bind_Renderbuffer : T134;
Get_Renderbuffer_Parameter_Int : T135;
Get_Renderbuffer_Parameter_Internal_Format : T136;
procedure Read_Pixels (X, Y : Int; Width, Height : Size; Format : Pixels.Framebuffer_Format; Data_Type : Pixels.Data_Type; Data : System.Address);
pragma Import (StdCall, Read_Pixels, "glReadPixels");
procedure Logic_Op (Value : Framebuffer.Logic_Op);
pragma Import (StdCall, Logic_Op, "glLogicOp");
Clamp_Color : T137;
procedure Read_Buffer (Value : Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Read_Buffer, "glReadBuffer");
Gen_Framebuffers : T138;
Delete_Framebuffers : T139;
Bind_Framebuffer : T140;
Check_Framebuffer_Status : T141;
Framebuffer_Renderbuffer : T142;
Framebuffer_Texture : T143;
Framebuffer_Texture_Layer : T144;
Blit_Framebuffer : T145;
Invalidate_Framebuffer : T146;
Invalidate_Sub_Framebuffer : T147;
Framebuffer_Parameter_Size : T148;
Framebuffer_Parameter_Bool : T149;
Get_Framebuffer_Parameter_Size : T150;
Get_Framebuffer_Parameter_Bool : T151;
Gen_Queries : T152;
Delete_Queries : T153;
Is_Query : T154;
Get_Query_Object : T155;
Begin_Query : T156;
End_Query : T157;
Begin_Query_Indexed : T158;
End_Query_Indexed : T159;
Query_Counter : T160;
Get_Shader_Param : T161;
Get_Shader_Type : T162;
Create_Shader : T163;
Delete_Shader : T164;
Shader_Source : T165;
Get_Shader_Source : T166;
Compile_Shader : T164;
Release_Shader_Compiler : T167;
Get_Shader_Info_Log : T166;
Create_Program : T168;
Delete_Program : T169;
Get_Program_Param : T170;
Attach_Shader : T171;
Link_Program : T169;
Get_Program_Info_Log : T172;
Get_Program_Stage : T173;
Get_Subroutine_Index : T174;
Get_Subroutine_Uniform_Location : T175;
Use_Program : T169;
Validate_Program : T169;
Get_Uniform_Location : T176;
Bind_Attrib_Location : T177;
Get_Attrib_Location : T178;
Vertex_Attrib_Pointer : T179;
Vertex_AttribI_Pointer : T180;
Vertex_AttribL_Pointer : T180;
Enable_Vertex_Attrib_Array : T181;
Disable_Vertex_Attrib_Array : T181;
Get_Attached_Shaders : T182;
Bind_Frag_Data_Location : T183;
Get_Frag_Data_Location : T184;
Begin_Transform_Feedback : T185;
End_Transform_Feedback : T167;
Get_Transform_Feedback_Varying : T186;
Transform_Feedback_Varyings : T187;
Set_Patch_Parameter_Int : T188;
Set_Patch_Parameter_Float_Array : T189;
procedure Depth_Range (Near, Far : Double);
pragma Import (StdCall, Depth_Range, "glDepthRange");
procedure Viewport (X, Y : Int; Width, Height : Size);
pragma Import (StdCall, Viewport, "glViewport");
end GL.API;
| 12053 | -- part of OpenGLAda, (c) 2017 <NAME>
-- released under the terms of the MIT license, see the file "COPYING"
-- Autogenerated by Generate, do not edit
with GL.Attributes;
with GL.Blending;
with GL.Buffers;
with GL.Culling;
with GL.Enums.Getter;
with GL.Enums.Textures;
with GL.Errors;
with GL.Fixed.Textures;
with GL.Fixed.Lighting;
with GL.Framebuffer;
with GL.Low_Level.Enums;
with GL.Objects.Textures;
with GL.Objects.Buffers;
with GL.Objects.Framebuffers;
with GL.Objects.Programs;
with GL.Objects.Shaders;
with GL.Pixels;
with GL.Rasterization;
with GL.Toggles;
with GL.Types.Colors;
with GL.Uniforms;
with Interfaces.C.Strings;
with System;
private package GL.API is
pragma Preelaborate;
use GL.Types;
type T1 is access procedure (P1 : Attributes.Attribute; P2 : Double);
pragma Convention (StdCall, T1);
type T2 is access procedure (P1 : Attributes.Attribute; P2, P3 : Double);
pragma Convention (StdCall, T2);
type T3 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector2);
pragma Convention (StdCall, T3);
type T4 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Double);
pragma Convention (StdCall, T4);
type T5 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector3);
pragma Convention (StdCall, T5);
type T6 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Double);
pragma Convention (StdCall, T6);
type T7 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector4);
pragma Convention (StdCall, T7);
type T8 is access procedure (P1 : Uniforms.Uniform; P2 : Int);
pragma Convention (StdCall, T8);
type T9 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Int_Array);
pragma Convention (StdCall, T9);
type T10 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Int);
pragma Convention (StdCall, T10);
type T11 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector2_Array);
pragma Convention (StdCall, T11);
type T12 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Int);
pragma Convention (StdCall, T12);
type T13 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector3_Array);
pragma Convention (StdCall, T13);
type T14 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T14);
type T15 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector4_Array);
pragma Convention (StdCall, T15);
type T16 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix2_Array);
pragma Convention (StdCall, T16);
type T17 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix3_Array);
pragma Convention (StdCall, T17);
type T18 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix4_Array);
pragma Convention (StdCall, T18);
type T19 is access procedure (P1 : Attributes.Attribute; P2 : Int);
pragma Convention (StdCall, T19);
type T20 is access procedure (P1 : Attributes.Attribute; P2, P3 : Int);
pragma Convention (StdCall, T20);
type T21 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector2);
pragma Convention (StdCall, T21);
type T22 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Int);
pragma Convention (StdCall, T22);
type T23 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector3);
pragma Convention (StdCall, T23);
type T24 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T24);
type T25 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector4);
pragma Convention (StdCall, T25);
type T26 is access procedure (P1 : Attributes.Attribute; P2 : Short);
pragma Convention (StdCall, T26);
type T27 is access procedure (P1 : Attributes.Attribute; P2, P3 : Short);
pragma Convention (StdCall, T27);
type T28 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector2);
pragma Convention (StdCall, T28);
type T29 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Short);
pragma Convention (StdCall, T29);
type T30 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector3);
pragma Convention (StdCall, T30);
type T31 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Short);
pragma Convention (StdCall, T31);
type T32 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector4);
pragma Convention (StdCall, T32);
type T33 is access procedure (P1 : Uniforms.Uniform; P2 : Single);
pragma Convention (StdCall, T33);
type T34 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Single_Array);
pragma Convention (StdCall, T34);
type T35 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Single);
pragma Convention (StdCall, T35);
type T36 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector2_Array);
pragma Convention (StdCall, T36);
type T37 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Single);
pragma Convention (StdCall, T37);
type T38 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector3_Array);
pragma Convention (StdCall, T38);
type T39 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T39);
type T40 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector4_Array);
pragma Convention (StdCall, T40);
type T41 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix2_Array);
pragma Convention (StdCall, T41);
type T42 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix3_Array);
pragma Convention (StdCall, T42);
type T43 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix4_Array);
pragma Convention (StdCall, T43);
type T44 is access procedure (P1 : Attributes.Attribute; P2 : Single);
pragma Convention (StdCall, T44);
type T45 is access procedure (P1 : Attributes.Attribute; P2, P3 : Single);
pragma Convention (StdCall, T45);
type T46 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector2);
pragma Convention (StdCall, T46);
type T47 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Single);
pragma Convention (StdCall, T47);
type T48 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector3);
pragma Convention (StdCall, T48);
type T49 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T49);
type T50 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector4);
pragma Convention (StdCall, T50);
type T51 is access procedure (P1 : Uniforms.Uniform; P2 : UInt);
pragma Convention (StdCall, T51);
type T52 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInt_Array);
pragma Convention (StdCall, T52);
type T53 is access procedure (P1 : Uniforms.Uniform; P2, P3 : UInt);
pragma Convention (StdCall, T53);
type T54 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector2_Array);
pragma Convention (StdCall, T54);
type T55 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : UInt);
pragma Convention (StdCall, T55);
type T56 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector3_Array);
pragma Convention (StdCall, T56);
type T57 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T57);
type T58 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector4_Array);
pragma Convention (StdCall, T58);
type T59 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix2_Array);
pragma Convention (StdCall, T59);
type T60 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix3_Array);
pragma Convention (StdCall, T60);
type T61 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix4_Array);
pragma Convention (StdCall, T61);
type T62 is access procedure (P1 : Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T62);
type T63 is access procedure (P1 : Attributes.Attribute; P2, P3 : UInt);
pragma Convention (StdCall, T63);
type T64 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector2);
pragma Convention (StdCall, T64);
type T65 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : UInt);
pragma Convention (StdCall, T65);
type T66 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector3);
pragma Convention (StdCall, T66);
type T67 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T67);
type T68 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector4);
pragma Convention (StdCall, T68);
type T69 is access function (P1 : Enums.Getter.String_Parameter; P2 : UInt) return C.Strings.chars_ptr;
pragma Convention (StdCall, T69);
type T70 is access procedure (P1 : Colors.Color);
pragma Convention (StdCall, T70);
type T71 is access procedure (P1 : Double);
pragma Convention (StdCall, T71);
type T72 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Size; P4 : Size);
pragma Convention (StdCall, T72);
type T73 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Unsigned_Numeric_Type; P4 : Low_Level.IntPtr; P5 : Size);
pragma Convention (StdCall, T73);
type T74 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : Unsigned_Numeric_Type; P4 : UInt; P5 : Int);
pragma Convention (StdCall, T74);
type T75 is access procedure (P1 : Connection_Mode; P2 : UInt);
pragma Convention (StdCall, T75);
type T76 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T76);
type T77 is access procedure (P1 : UInt);
pragma Convention (StdCall, T77);
type T78 is access procedure (P1 : GL.Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T78);
type T79 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Blend_Factor);
pragma Convention (StdCall, T79);
type T80 is access procedure (P1, P2, P3, P4 : Blending.Blend_Factor);
pragma Convention (StdCall, T80);
type T81 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3, P4, P5 : Blending.Blend_Factor);
pragma Convention (StdCall, T81);
type T82 is access procedure (P1, P2, P3, P4 : Colors.Component);
pragma Convention (StdCall, T82);
type T83 is access procedure (P1 : Blending.Equation);
pragma Convention (StdCall, T83);
type T84 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2 : Blending.Equation);
pragma Convention (StdCall, T84);
type T85 is access procedure (P1, P2 : Blending.Equation);
pragma Convention (StdCall, T85);
type T86 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Equation);
pragma Convention (StdCall, T86);
type T87 is access procedure (P1 : Enums.Point_Param; P2 : Single);
pragma Convention (StdCall, T87);
type T88 is access procedure (P1 : UInt; P2 : Buffers.Explicit_Color_Buffer_List);
pragma Convention (StdCall, T88);
type T89 is access procedure (P1 : Buffers.Color_Buffer_Selector; P2 : Low_Level.Zero; P3 : Colors.Color);
pragma Convention (StdCall, T89);
type T90 is access procedure (P1 : Low_Level.Enums.Only_Color_Buffer; P2 : Buffers.Draw_Buffer_Index; P3 : Colors.Color);
pragma Convention (StdCall, T90);
type T91 is access procedure (P1 : Low_Level.Enums.Only_Depth_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Depth);
pragma Convention (StdCall, T91);
type T92 is access procedure (P1 : Low_Level.Enums.Only_Stencil_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Stencil_Index);
pragma Convention (StdCall, T92);
type T93 is access procedure (P1 : Low_Level.Enums.Only_Depth_Stencil_Buffer; P2 : Low_Level.Zero; P3 : Buffers.Depth; P4 : Buffers.Stencil_Index);
pragma Convention (StdCall, T93);
type T94 is access procedure (P1 : Culling.Face_Selector; P2 : Compare_Function; P3 : Int; P4 : UInt);
pragma Convention (StdCall, T94);
type T95 is access procedure (P1 : Culling.Face_Selector; P2, P3, P4 : Buffers.Stencil_Action);
pragma Convention (StdCall, T95);
type T96 is access procedure (P1 : Culling.Face_Selector; P2 : UInt);
pragma Convention (StdCall, T96);
type T97 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size; P5 : Low_Level.Zero; P6 : Size; P7 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T97);
type T98 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3, P4 : Int; P5, P6 : Size; P7 : Pixels.Data_Format; P8 : Pixels.Data_Type; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T98);
type T99 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size);
pragma Convention (StdCall, T99);
type T100 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size; P6 : Low_Level.Zero; P7 : Size; P8 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T100);
type T101 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T101);
type T102 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Pixels.Data_Format; P9 : Pixels.Data_Type; P10 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T102);
type T103 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Size; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T103);
type T104 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size);
pragma Convention (StdCall, T104);
type T105 is access procedure (P1 : Int);
pragma Convention (StdCall, T105);
type T106 is access procedure (P1 : Low_Level.Enums.Texture_Kind);
pragma Convention (StdCall, T106);
type T107 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T107);
type T108 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level; P3, P4, P5 : Int; P6, P7, P8 : Size);
pragma Convention (StdCall, T108);
type T109 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T109);
type T110 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T110);
type T111 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt);
pragma Convention (StdCall, T111);
type T112 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T112);
type T113 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.SizeIPtr; P3 : System.Address; P4 : Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T113);
type T114 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Pixels.Internal_Format; P3 : UInt);
pragma Convention (StdCall, T114);
type T115 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Objects.Access_Kind) return System.Address;
pragma Convention (StdCall, T115);
type T116 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : Low_Level.Bitfield) return System.Address;
pragma Convention (StdCall, T116);
type T117 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Pointer_Param; P3 : out System.Address);
pragma Convention (StdCall, T117);
type T118 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : System.Address);
pragma Convention (StdCall, T118);
type T119 is access procedure (P1 : Low_Level.Enums.Buffer_Kind);
pragma Convention (StdCall, T119);
type T120 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Access_Kind);
pragma Convention (StdCall, T120);
type T121 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T121);
type T122 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Size);
pragma Convention (StdCall, T122);
type T123 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T123);
type T124 is access procedure (P1 : UInt);
pragma Convention (StdCall, T124);
type T125 is access procedure (P1 : UInt; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T125);
type T126 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T126);
type T127 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T127);
type T128 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T128);
type T129 is access procedure (P1 : UInt);
pragma Convention (StdCall, T129);
type T130 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T130);
type T131 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T131);
type T132 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Pixels.Internal_Format; P3, P4 : Size);
pragma Convention (StdCall, T132);
type T133 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Size; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T133);
type T134 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T134);
type T135 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Int);
pragma Convention (StdCall, T135);
type T136 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Pixels.Internal_Format);
pragma Convention (StdCall, T136);
type T137 is access procedure (P1 : Enums.Clamp_Color_Param; P2 : Low_Level.Bool);
pragma Convention (StdCall, T137);
type T138 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T138);
type T139 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T139);
type T140 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T140);
type T141 is access function (P1 : Low_Level.Enums.Framebuffer_Kind) return Objects.Framebuffers.Framebuffer_Status;
pragma Convention (StdCall, T141);
type T142 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : Low_Level.Enums.Renderbuffer_Kind; P4 : UInt);
pragma Convention (StdCall, T142);
type T143 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T143);
type T144 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level; P5 : Int);
pragma Convention (StdCall, T144);
type T145 is access procedure (P1, P2, P3, P4, P5, P6, P7, P8 : Int; P9 : Low_Level.Bitfield; P10 : Objects.Textures.Magnifying_Function);
pragma Convention (StdCall, T145);
type T146 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List);
pragma Convention (StdCall, T146);
type T147 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List; P4, P5 : Int; P6, P7 : Size);
pragma Convention (StdCall, T147);
type T148 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Size);
pragma Convention (StdCall, T148);
type T149 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Low_Level.Bool);
pragma Convention (StdCall, T149);
type T150 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Size);
pragma Convention (StdCall, T150);
type T151 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T151);
type T152 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T152);
type T153 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T153);
type T154 is access function (P1 : UInt) return Boolean;
pragma Convention (StdCall, T154);
type T155 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Results; P3 : out UInt);
pragma Convention (StdCall, T155);
type T156 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T156);
type T157 is access procedure (P1 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T157);
type T158 is access procedure (P1 : Low_Level.Enums.Query_Param; P2, P3 : UInt);
pragma Convention (StdCall, T158);
type T159 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T159);
type T160 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T160);
type T161 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Int);
pragma Convention (StdCall, T161);
type T162 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Objects.Shaders.Shader_Type);
pragma Convention (StdCall, T162);
type T163 is access function (P1 : Objects.Shaders.Shader_Type) return UInt;
pragma Convention (StdCall, T163);
type T164 is access procedure (P1 : UInt);
pragma Convention (StdCall, T164);
type T165 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : Low_Level.Int_Array);
pragma Convention (StdCall, T165);
type T166 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T166);
type T167 is access procedure;
pragma Convention (StdCall, T167);
type T168 is access function return UInt;
pragma Convention (StdCall, T168);
type T169 is access procedure (P1 : UInt);
pragma Convention (StdCall, T169);
type T170 is access procedure (P1 : UInt; P2 : Enums.Program_Param; P3 : out Int);
pragma Convention (StdCall, T170);
type T171 is access procedure (P1, P2 : UInt);
pragma Convention (StdCall, T171);
type T172 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T172);
type T173 is access procedure (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Enums.Program_Stage_Param; P4 : out Size);
pragma Convention (StdCall, T173);
type T174 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Subroutine_Index_Type;
pragma Convention (StdCall, T174);
type T175 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Uniform_Location_Type;
pragma Convention (StdCall, T175);
type T176 is access function (P1 : UInt; P2 : C.char_array) return Uniforms.Uniform;
pragma Convention (StdCall, T176);
type T177 is access procedure (P1 : UInt; P2 : Attributes.Attribute; P3 : C.char_array);
pragma Convention (StdCall, T177);
type T178 is access function (P1 : UInt; P2 : C.char_array) return Attributes.Attribute;
pragma Convention (StdCall, T178);
type T179 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Low_Level.Bool; P5 : Size; P6 : Int);
pragma Convention (StdCall, T179);
type T180 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Size; P5 : Int);
pragma Convention (StdCall, T180);
type T181 is access procedure (P1 : Attributes.Attribute);
pragma Convention (StdCall, T181);
type T182 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out UInt_Array);
pragma Convention (StdCall, T182);
type T183 is access procedure (P1 : UInt; P2 : Buffers.Draw_Buffer_Index; P3 : Interfaces.C.char_array);
pragma Convention (StdCall, T183);
type T184 is access function (P1 : UInt; P2 : Interfaces.C.char_array) return Int;
pragma Convention (StdCall, T184);
type T185 is access procedure (P1 : Connection_Mode);
pragma Convention (StdCall, T185);
type T186 is access procedure (P1 : UInt; P2 : Int; P3 : Size; P4 : out Size; P5 : out Size; P6 : out GL.Objects.Programs.Active_Attribute; P7 : in out Interfaces.C.char_array);
pragma Convention (StdCall, T186);
type T187 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : GL.Objects.Programs.Buffer_Mode);
pragma Convention (StdCall, T187);
type T188 is access procedure (P1 : Enums.Patch_Parameter_Int; P2 : Int);
pragma Convention (StdCall, T188);
type T189 is access procedure (P1 : Enums.Patch_Parameter_Float_Array; P2 : Types.Single_Array);
pragma Convention (StdCall, T189);
function Get_Error return Errors.Error_Code;
pragma Import (StdCall, Get_Error, "glGetError");
procedure Flush;
pragma Import (StdCall, Flush, "glFlush");
procedure Finish;
pragma Import (StdCall, Finish, "glFinish");
procedure Get_Boolean (Name : Enums.Getter.Parameter; Target : access Low_Level.Bool);
pragma Import (StdCall, Get_Boolean, "glGetBooleanv");
procedure Get_Double (Name : Enums.Getter.Parameter; Target : access Double);
pragma Import (StdCall, Get_Double, "glGetDoublev");
procedure Get_Double_Vec2 (Name : Enums.Getter.Parameter; Target : in out Doubles.Vector2);
pragma Import (StdCall, Get_Double_Vec2, "glGetDoublev");
procedure Get_Single (Name : Enums.Getter.Parameter; Target : access Single);
pragma Import (StdCall, Get_Single, "glGetFloatv");
procedure Get_Single_Vec2 (Name : Enums.Getter.Parameter; Target : in out Singles.Vector2);
pragma Import (StdCall, Get_Single_Vec2, "glGetFloatv");
procedure Get_Color (Name : Enums.Getter.Parameter; Target : in out Colors.Color);
pragma Import (StdCall, Get_Color, "glGetFloatv");
procedure Get_Integer (Name : Enums.Getter.Parameter; Target : access Int);
pragma Import (StdCall, Get_Integer, "glGetIntegerv");
procedure Get_Int_Vec4 (Name : Enums.Getter.Parameter; Target : in out Ints.Vector4);
pragma Import (StdCall, Get_Int_Vec4, "glGetIntegerv");
procedure Get_Unsigned_Integer (Name : Enums.Getter.Parameter; Target : access UInt);
pragma Import (StdCall, Get_Unsigned_Integer, "glGetIntegerv");
procedure Get_Size (Name : Enums.Getter.Parameter; Target : access Size);
pragma Import (StdCall, Get_Size, "glGetIntegerv");
procedure Get_Color_Control (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Color_Control);
pragma Import (StdCall, Get_Color_Control, "glGetIntegerv");
procedure Get_Shade_Model (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Get_Shade_Model, "glGetIntegerv");
procedure Get_Blend_Factor (Name : Enums.Getter.Parameter; Target : access Blending.Blend_Factor);
pragma Import (StdCall, Get_Blend_Factor, "glGetIntegerv");
procedure Get_Alignment (Name : Enums.Getter.Parameter; Target : access Pixels.Alignment);
pragma Import (StdCall, Get_Alignment, "glGetIntegerv");
procedure Get_Blend_Equation (Name : Enums.Getter.Parameter; Target : access Blending.Equation);
pragma Import (StdCall, Get_Blend_Equation, "glGetIntegerv");
procedure Get_Compare_Function (Name : Enums.Getter.Parameter; Target : access Compare_Function);
pragma Import (StdCall, Get_Compare_Function, "glGetIntegerv");
procedure Get_Orientation (Name : Enums.Getter.Parameter; Target : access Orientation);
pragma Import (StdCall, Get_Orientation, "glGetIntegerv");
procedure Get_Face_Selector (Name : Enums.Getter.Parameter; Target : access Culling.Face_Selector);
pragma Import (StdCall, Get_Face_Selector, "glGetIntegerv");
procedure Get_Polygon_Mode (Name : Enums.Getter.Parameter; Target : access Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Get_Polygon_Mode, "glGetIntegerv");
procedure Get_Logic_Op (Name : Enums.Getter.Parameter; Target : access Framebuffer.Logic_Op);
pragma Import (StdCall, Get_Logic_Op, "glGetIntegerv");
procedure Get_Stencil_Action (Name : Enums.Getter.Parameter; Target : access Buffers.Stencil_Action);
pragma Import (StdCall, Get_Stencil_Action, "glGetIntegerv");
procedure Get_Read_Buffer_Selector (Name : Enums.Getter.Parameter; Target : access Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Get_Read_Buffer_Selector, "glGetIntegerv");
procedure Get_Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Colors.Color);
pragma Import (StdCall, Get_Light_Color, "glGetLightfv");
function Get_String (Name : Enums.Getter.String_Parameter) return C.Strings.chars_ptr;
pragma Import (StdCall, Get_String, "glGetString");
Get_String_I : T69;
procedure Enable (Subject : Toggles.Toggle);
pragma Import (StdCall, Enable, "glEnable");
procedure Disable (Subject : Toggles.Toggle);
pragma Import (StdCall, Disable, "glDisable");
function Is_Enabled (Subject : Toggles.Toggle) return Low_Level.Bool;
pragma Import (StdCall, Is_Enabled, "glIsEnabled");
procedure Cull_Face (Selector : Culling.Face_Selector);
pragma Import (StdCall, Cull_Face, "glCullFace");
procedure Front_Face (Face : Orientation);
pragma Import (StdCall, Front_Face, "glFrontFace");
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Low_Level.Bool);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Size);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Pixels.Alignment);
pragma Import (StdCall, Pixel_Store, "glPixelStorei");
procedure Matrix_Mode (Mode : Enums.Matrix_Mode);
pragma Import (StdCall, Matrix_Mode, "glMatrixMode");
procedure Frustum (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Frustum, "glFrustum");
procedure Ortho (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Ortho, "glOrtho");
procedure Load_Identity;
pragma Import (StdCall, Load_Identity, "glLoadIdentity");
procedure Push_Matrix;
pragma Import (StdCall, Push_Matrix, "glPushMatrix");
procedure Pop_Matrix;
pragma Import (StdCall, Pop_Matrix, "glPopMatrix");
procedure Rotate (Angle, X, Y, Z : Double);
pragma Import (StdCall, Rotate, "glRotated");
procedure Scale (X, Y, Z : Double);
pragma Import (StdCall, Scale, "glScaled");
procedure Translate (X, Y, Z : Double);
pragma Import (StdCall, Translate, "glTranslated");
procedure GL_Begin (Mode : Connection_Mode);
pragma Import (StdCall, GL_Begin, "glBegin");
procedure GL_End;
pragma Import (StdCall, GL_End, "glEnd");
procedure Color (Value : Colors.Color);
pragma Import (StdCall, Color, "glColor4fv");
Secondary_Color : T70;
Fog_Coord : T71;
procedure Vertex_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Vertex_Pointer, "glVertexPointer");
procedure Index_Pointer (Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Index_Pointer, "glIndexPointer");
procedure Color_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Color_Pointer, "glColorPointer");
procedure Enable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Enable_Client_State, "glEnableClientState");
procedure Disable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Disable_Client_State, "glDisableClientState");
procedure Draw_Arrays (Mode : Connection_Mode; First : Int; Count : Size);
pragma Import (StdCall, Draw_Arrays, "glDrawArrays");
Draw_Arrays_Instanced : T72;
procedure Draw_Elements (Mode : Connection_Mode; Count : Size; Index_Type : Unsigned_Numeric_Type; Indices : Low_Level.IntPtr);
pragma Import (StdCall, Draw_Elements, "glDrawElements");
Draw_Elements_Instanced : T73;
Draw_Elements_Base_Vertex : T74;
Draw_Transform_Feedback : T75;
Draw_Transform_Feedback_Stream : T76;
Primitive_Restart_Index : T77;
Vertex_Attrib_Divisor : T78;
procedure Load_Matrix (Value : Types.Doubles.Matrix4);
pragma Import (StdCall, Load_Matrix, "glLoadMatrixd");
procedure Mult_Matrix (Factor : Types.Doubles.Matrix4);
pragma Import (StdCall, Mult_Matrix, "glMultMatrixd");
procedure Vertex4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Vertex4, "glVertex4dv");
procedure Vertex3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Vertex3, "glVertex3dv");
procedure Vertex2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Vertex2, "glVertex2dv");
procedure Normal (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Normal, "glNormal3dv");
procedure Tex_Coord4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Tex_Coord4, "glTexCoord4dv");
procedure Tex_Coord3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Tex_Coord3, "glTexCoord3dv");
procedure Tex_Coord2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Tex_Coord2, "glTexCoord2dv");
procedure Light_Model_Color (Param : Enums.Light_Model_Ambient_Parameter; Color : Colors.Color);
pragma Import (StdCall, Light_Model_Color, "glLightModelfv");
procedure Light_Model_Color_Control (Param : Enums.Light_Model_CC_Parameter; Value : access constant Fixed.Lighting.Color_Control);
pragma Import (StdCall, Light_Model_Color_Control, "glLightModeliv");
procedure Light_Model_Toggles (Param : Enums.Light_Model_Toggle_Parameter; Value : access constant Int);
pragma Import (StdCall, Light_Model_Toggles, "glLightModeliv");
procedure Shade_Model (Mode : Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Shade_Model, "glShadeModel");
procedure Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Colors.Color);
pragma Import (StdCall, Light_Color, "glLightfv");
procedure Get_Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector4);
pragma Import (StdCall, Get_Light_Position, "glGetLightfv");
procedure Get_Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector3);
pragma Import (StdCall, Get_Light_Direction, "glGetLightfv");
procedure Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector4);
pragma Import (StdCall, Light_Position, "glLightfv");
procedure Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector3);
pragma Import (StdCall, Light_Direction, "glLightfv");
procedure Blend_Func (Src_Factor, Dst_Factor : Blending.Blend_Factor);
pragma Import (StdCall, Blend_Func, "glBlendFunc");
Blend_Func_I : T79;
Blend_Func_Separate : T80;
Blend_Func_Separate_I : T81;
Blend_Color : T82;
Blend_Equation : T83;
Blend_Equation_I : T84;
Blend_Equation_Separate : T85;
Blend_Equation_Separate_I : T86;
procedure Line_Width (Value : Single);
pragma Import (StdCall, Line_Width, "glLineWidth");
procedure Polygon_Mode (Face : Culling.Face_Selector; Value : Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Polygon_Mode, "glPolygonMode");
procedure Set_Point_Size (Value : Single);
pragma Import (StdCall, Set_Point_Size, "glPointSize");
Set_Point_Parameter_Single : T87;
procedure Raster_Pos4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Raster_Pos4, "glRasterPos4dv");
procedure Raster_Pos3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Raster_Pos3, "glRasterPos3dv");
procedure Raster_Pos2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Raster_Pos2, "glRasterPos2dv");
procedure Set_Polygon_Offset (Factor, Units : Single);
pragma Import (StdCall, Set_Polygon_Offset, "glPolygonOffset");
procedure Clear (Bits : Low_Level.Bitfield);
pragma Import (StdCall, Clear, "glClear");
procedure Draw_Buffer (Mode : Buffers.Explicit_Color_Buffer_Selector);
pragma Import (StdCall, Draw_Buffer, "glDrawBuffer");
Draw_Buffers : T88;
procedure Clear_Color (Red, Green, Blue, Alpha : Colors.Component);
pragma Import (StdCall, Clear_Color, "glClearColor");
procedure Clear_Depth (Depth : Buffers.Depth);
pragma Import (StdCall, Clear_Depth, "glClearDepth");
procedure Clear_Stencil (Index : Buffers.Stencil_Index);
pragma Import (StdCall, Clear_Stencil, "glClearStencil");
Clear_Accum : T82;
Clear_Buffer : T89;
Clear_Draw_Buffer : T90;
Clear_Buffer_Depth : T91;
Clear_Buffer_Stencil : T92;
Clear_Buffer_Depth_Stencil : T93;
procedure Depth_Mask (Value : Low_Level.Bool);
pragma Import (StdCall, Depth_Mask, "glDepthMask");
procedure Depth_Func (Func : Compare_Function);
pragma Import (StdCall, Depth_Func, "glDepthFunc");
Stencil_Func_Separate : T94;
Stencil_Op_Separate : T95;
Stencil_Mask_Separate : T96;
procedure Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Single);
pragma Import (StdCall, Tex_Parameter_Float, "glTexParameterf");
procedure Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Int);
pragma Import (StdCall, Tex_Parameter_Int, "glTexParameteri");
procedure Tex_Parameter_Min_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Minifying_Function);
pragma Import (StdCall, Tex_Parameter_Min_Filter, "glTexParameteri");
procedure Tex_Parameter_Mag_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Magnifying_Function);
pragma Import (StdCall, Tex_Parameter_Mag_Filter, "glTexParameteri");
procedure Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Tex_Parameter_Wrap_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Enums.Textures.Compare_Kind);
pragma Import (StdCall, Tex_Parameter_Comp_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Compare_Function);
pragma Import (StdCall, Tex_Parameter_Comp_Func, "glTexParameteri");
procedure Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Depth_Mode);
pragma Import (StdCall, Tex_Parameter_Depth_Mode, "glTexParameteri");
procedure Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Parameter_Bool, "glTexParameteri");
procedure Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Parameter_Floats, "glTexParameterfv");
procedure Get_Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Parameter_Float, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Parameter_Floats, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Int);
pragma Import (StdCall, Get_Tex_Parameter_Int, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Ints (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Int_Array);
pragma Import (StdCall, Get_Tex_Parameter_Ints, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Wrap_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Enums.Textures.Compare_Kind);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Compare_Function);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Func, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Depth_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Depth_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Parameter_Bool, "glGetTexParameteriv");
procedure Get_Tex_Level_Parameter_Size (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Size);
pragma Import (StdCall, Get_Tex_Level_Parameter_Size, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Format (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Internal_Format);
pragma Import (StdCall, Get_Tex_Level_Parameter_Format, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Type (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Channel_Data_Type);
pragma Import (StdCall, Get_Tex_Level_Parameter_Type, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Level_Parameter_Bool, "glGetTexLevelParameteriv");
procedure Gen_Textures (N : Size; Textures : out UInt);
pragma Import (StdCall, Gen_Textures, "glGenTextures");
procedure Bind_Texture (Target : Low_Level.Enums.Texture_Kind; Texture : UInt);
pragma Import (StdCall, Bind_Texture, "glBindTexture");
procedure Delete_Textures (N : Size; Textures : Low_Level.UInt_Array);
pragma Import (StdCall, Delete_Textures, "glDeleteTextures");
function Is_Texture (Texture : UInt) return Boolean;
pragma Import (StdCall, Is_Texture, "glIsTexture");
procedure Tex_Image_1D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_1D, "glTexImage1D");
Compressed_Tex_Image_1D : T97;
Tex_Sub_Image_1D : T98;
Tex_Storage_1D : T99;
procedure Tex_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width, Height : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_2D, "glTexImage2D");
Compressed_Tex_Image_2D : T100;
procedure Tex_Sub_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; X_Offset, Y_Offset : Int; Width, Height : Size; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Sub_Image_2D, "glTexSubImage2D");
Tex_Storage_2D : T101;
Tex_Image_3D : T102;
Compressed_Tex_Image_3D : T103;
Tex_Sub_Image_3D : T98;
Tex_Storage_3D : T104;
procedure Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Single);
pragma Import (StdCall, Tex_Env_Float, "glTexEnvf");
procedure Tex_Env_Int (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Int);
pragma Import (StdCall, Tex_Env_Int, "glTexEnvi");
procedure Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Texture_Function);
pragma Import (StdCall, Tex_Env_Tex_Func, "glTexEnvi");
procedure Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Combine_Function);
pragma Import (StdCall, Tex_Env_Combine_Func, "glTexEnvi");
procedure Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Source_Kind);
pragma Import (StdCall, Tex_Env_Source, "glTexEnvi");
procedure Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Env_Arr, "glTexEnvfv");
procedure Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Env_Bool, "glTexEnvi");
procedure Get_Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Env_Float, "glGetTexEnvfv");
procedure Get_Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Texture_Function);
pragma Import (StdCall, Get_Tex_Env_Tex_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Combine_Function);
pragma Import (StdCall, Get_Tex_Env_Combine_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Source_Kind);
pragma Import (StdCall, Get_Tex_Env_Source, "glGetTexEnviv");
procedure Get_Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Env_Arr, "glGetTexEnvfv");
procedure Get_Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Env_Bool, "glGetTexEnviv");
Active_Texture : T105;
Generate_Mipmap : T106;
Invalidate_Tex_Image : T107;
Invalidate_Tex_Sub_Image : T108;
Gen_Buffers : T109;
Gen_Transform_Feedbacks : T109;
Delete_Buffers : T110;
Delete_Transform_Feedbacks : T110;
Bind_Buffer : T111;
Bind_Transform_Feedback : T111;
Bind_Buffer_Base : T112;
Buffer_Data : T113;
Texture_Buffer_Data : T114;
Map_Buffer : T115;
Map_Buffer_Range : T116;
Buffer_Pointer : T117;
Buffer_Sub_Data : T118;
Get_Buffer_Sub_Data : T118;
Unmap_Buffer : T119;
Get_Buffer_Parameter_Access_Kind : T120;
Get_Buffer_Parameter_Bool : T121;
Get_Buffer_Parameter_Size : T122;
Get_Buffer_Parameter_Usage : T123;
Invalidate_Buffer_Data : T124;
Invalidate_Buffer_Sub_Data : T125;
Flush_Mapped_Buffer_Range : T126;
Gen_Vertex_Arrays : T127;
Delete_Vertex_Arrays : T128;
Bind_Vertex_Array : T129;
Gen_Renderbuffers : T130;
Delete_Renderbuffers : T131;
Renderbuffer_Storage : T132;
Renderbuffer_Storage_Multisample : T133;
Bind_Renderbuffer : T134;
Get_Renderbuffer_Parameter_Int : T135;
Get_Renderbuffer_Parameter_Internal_Format : T136;
procedure Read_Pixels (X, Y : Int; Width, Height : Size; Format : Pixels.Framebuffer_Format; Data_Type : Pixels.Data_Type; Data : System.Address);
pragma Import (StdCall, Read_Pixels, "glReadPixels");
procedure Logic_Op (Value : Framebuffer.Logic_Op);
pragma Import (StdCall, Logic_Op, "glLogicOp");
Clamp_Color : T137;
procedure Read_Buffer (Value : Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Read_Buffer, "glReadBuffer");
Gen_Framebuffers : T138;
Delete_Framebuffers : T139;
Bind_Framebuffer : T140;
Check_Framebuffer_Status : T141;
Framebuffer_Renderbuffer : T142;
Framebuffer_Texture : T143;
Framebuffer_Texture_Layer : T144;
Blit_Framebuffer : T145;
Invalidate_Framebuffer : T146;
Invalidate_Sub_Framebuffer : T147;
Framebuffer_Parameter_Size : T148;
Framebuffer_Parameter_Bool : T149;
Get_Framebuffer_Parameter_Size : T150;
Get_Framebuffer_Parameter_Bool : T151;
Gen_Queries : T152;
Delete_Queries : T153;
Is_Query : T154;
Get_Query_Object : T155;
Begin_Query : T156;
End_Query : T157;
Begin_Query_Indexed : T158;
End_Query_Indexed : T159;
Query_Counter : T160;
Get_Shader_Param : T161;
Get_Shader_Type : T162;
Create_Shader : T163;
Delete_Shader : T164;
Shader_Source : T165;
Get_Shader_Source : T166;
Compile_Shader : T164;
Release_Shader_Compiler : T167;
Get_Shader_Info_Log : T166;
Create_Program : T168;
Delete_Program : T169;
Get_Program_Param : T170;
Attach_Shader : T171;
Link_Program : T169;
Get_Program_Info_Log : T172;
Get_Program_Stage : T173;
Get_Subroutine_Index : T174;
Get_Subroutine_Uniform_Location : T175;
Use_Program : T169;
Validate_Program : T169;
Get_Uniform_Location : T176;
Bind_Attrib_Location : T177;
Get_Attrib_Location : T178;
Vertex_Attrib_Pointer : T179;
Vertex_AttribI_Pointer : T180;
Vertex_AttribL_Pointer : T180;
Enable_Vertex_Attrib_Array : T181;
Disable_Vertex_Attrib_Array : T181;
Get_Attached_Shaders : T182;
Bind_Frag_Data_Location : T183;
Get_Frag_Data_Location : T184;
Begin_Transform_Feedback : T185;
End_Transform_Feedback : T167;
Get_Transform_Feedback_Varying : T186;
Transform_Feedback_Varyings : T187;
Set_Patch_Parameter_Int : T188;
Set_Patch_Parameter_Float_Array : T189;
procedure Depth_Range (Near, Far : Double);
pragma Import (StdCall, Depth_Range, "glDepthRange");
procedure Viewport (X, Y : Int; Width, Height : Size);
pragma Import (StdCall, Viewport, "glViewport");
end GL.API;
| true | -- part of OpenGLAda, (c) 2017 PI:NAME:<NAME>END_PI
-- released under the terms of the MIT license, see the file "COPYING"
-- Autogenerated by Generate, do not edit
with GL.Attributes;
with GL.Blending;
with GL.Buffers;
with GL.Culling;
with GL.Enums.Getter;
with GL.Enums.Textures;
with GL.Errors;
with GL.Fixed.Textures;
with GL.Fixed.Lighting;
with GL.Framebuffer;
with GL.Low_Level.Enums;
with GL.Objects.Textures;
with GL.Objects.Buffers;
with GL.Objects.Framebuffers;
with GL.Objects.Programs;
with GL.Objects.Shaders;
with GL.Pixels;
with GL.Rasterization;
with GL.Toggles;
with GL.Types.Colors;
with GL.Uniforms;
with Interfaces.C.Strings;
with System;
private package GL.API is
pragma Preelaborate;
use GL.Types;
type T1 is access procedure (P1 : Attributes.Attribute; P2 : Double);
pragma Convention (StdCall, T1);
type T2 is access procedure (P1 : Attributes.Attribute; P2, P3 : Double);
pragma Convention (StdCall, T2);
type T3 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector2);
pragma Convention (StdCall, T3);
type T4 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Double);
pragma Convention (StdCall, T4);
type T5 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector3);
pragma Convention (StdCall, T5);
type T6 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Double);
pragma Convention (StdCall, T6);
type T7 is access procedure (P1 : Attributes.Attribute; P2 : Types.Doubles.Vector4);
pragma Convention (StdCall, T7);
type T8 is access procedure (P1 : Uniforms.Uniform; P2 : Int);
pragma Convention (StdCall, T8);
type T9 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Int_Array);
pragma Convention (StdCall, T9);
type T10 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Int);
pragma Convention (StdCall, T10);
type T11 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector2_Array);
pragma Convention (StdCall, T11);
type T12 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Int);
pragma Convention (StdCall, T12);
type T13 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector3_Array);
pragma Convention (StdCall, T13);
type T14 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T14);
type T15 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Ints.Vector4_Array);
pragma Convention (StdCall, T15);
type T16 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix2_Array);
pragma Convention (StdCall, T16);
type T17 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix3_Array);
pragma Convention (StdCall, T17);
type T18 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Ints.Matrix4_Array);
pragma Convention (StdCall, T18);
type T19 is access procedure (P1 : Attributes.Attribute; P2 : Int);
pragma Convention (StdCall, T19);
type T20 is access procedure (P1 : Attributes.Attribute; P2, P3 : Int);
pragma Convention (StdCall, T20);
type T21 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector2);
pragma Convention (StdCall, T21);
type T22 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Int);
pragma Convention (StdCall, T22);
type T23 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector3);
pragma Convention (StdCall, T23);
type T24 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Int);
pragma Convention (StdCall, T24);
type T25 is access procedure (P1 : Attributes.Attribute; P2 : Types.Ints.Vector4);
pragma Convention (StdCall, T25);
type T26 is access procedure (P1 : Attributes.Attribute; P2 : Short);
pragma Convention (StdCall, T26);
type T27 is access procedure (P1 : Attributes.Attribute; P2, P3 : Short);
pragma Convention (StdCall, T27);
type T28 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector2);
pragma Convention (StdCall, T28);
type T29 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Short);
pragma Convention (StdCall, T29);
type T30 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector3);
pragma Convention (StdCall, T30);
type T31 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Short);
pragma Convention (StdCall, T31);
type T32 is access procedure (P1 : Attributes.Attribute; P2 : Shorts.Vector4);
pragma Convention (StdCall, T32);
type T33 is access procedure (P1 : Uniforms.Uniform; P2 : Single);
pragma Convention (StdCall, T33);
type T34 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Single_Array);
pragma Convention (StdCall, T34);
type T35 is access procedure (P1 : Uniforms.Uniform; P2, P3 : Single);
pragma Convention (StdCall, T35);
type T36 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector2_Array);
pragma Convention (StdCall, T36);
type T37 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : Single);
pragma Convention (StdCall, T37);
type T38 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector3_Array);
pragma Convention (StdCall, T38);
type T39 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T39);
type T40 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Types.Singles.Vector4_Array);
pragma Convention (StdCall, T40);
type T41 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix2_Array);
pragma Convention (StdCall, T41);
type T42 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix3_Array);
pragma Convention (StdCall, T42);
type T43 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : Types.Singles.Matrix4_Array);
pragma Convention (StdCall, T43);
type T44 is access procedure (P1 : Attributes.Attribute; P2 : Single);
pragma Convention (StdCall, T44);
type T45 is access procedure (P1 : Attributes.Attribute; P2, P3 : Single);
pragma Convention (StdCall, T45);
type T46 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector2);
pragma Convention (StdCall, T46);
type T47 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : Single);
pragma Convention (StdCall, T47);
type T48 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector3);
pragma Convention (StdCall, T48);
type T49 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : Single);
pragma Convention (StdCall, T49);
type T50 is access procedure (P1 : Attributes.Attribute; P2 : Types.Singles.Vector4);
pragma Convention (StdCall, T50);
type T51 is access procedure (P1 : Uniforms.Uniform; P2 : UInt);
pragma Convention (StdCall, T51);
type T52 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInt_Array);
pragma Convention (StdCall, T52);
type T53 is access procedure (P1 : Uniforms.Uniform; P2, P3 : UInt);
pragma Convention (StdCall, T53);
type T54 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector2_Array);
pragma Convention (StdCall, T54);
type T55 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4 : UInt);
pragma Convention (StdCall, T55);
type T56 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector3_Array);
pragma Convention (StdCall, T56);
type T57 is access procedure (P1 : Uniforms.Uniform; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T57);
type T58 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : UInts.Vector4_Array);
pragma Convention (StdCall, T58);
type T59 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix2_Array);
pragma Convention (StdCall, T59);
type T60 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix3_Array);
pragma Convention (StdCall, T60);
type T61 is access procedure (P1 : Uniforms.Uniform; P2 : Size; P3 : Low_Level.Bool; P4 : UInts.Matrix4_Array);
pragma Convention (StdCall, T61);
type T62 is access procedure (P1 : Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T62);
type T63 is access procedure (P1 : Attributes.Attribute; P2, P3 : UInt);
pragma Convention (StdCall, T63);
type T64 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector2);
pragma Convention (StdCall, T64);
type T65 is access procedure (P1 : Attributes.Attribute; P2, P3, P4 : UInt);
pragma Convention (StdCall, T65);
type T66 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector3);
pragma Convention (StdCall, T66);
type T67 is access procedure (P1 : Attributes.Attribute; P2, P3, P4, P5 : UInt);
pragma Convention (StdCall, T67);
type T68 is access procedure (P1 : Attributes.Attribute; P2 : UInts.Vector4);
pragma Convention (StdCall, T68);
type T69 is access function (P1 : Enums.Getter.String_Parameter; P2 : UInt) return C.Strings.chars_ptr;
pragma Convention (StdCall, T69);
type T70 is access procedure (P1 : Colors.Color);
pragma Convention (StdCall, T70);
type T71 is access procedure (P1 : Double);
pragma Convention (StdCall, T71);
type T72 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Size; P4 : Size);
pragma Convention (StdCall, T72);
type T73 is access procedure (P1 : Connection_Mode; P2 : Size; P3 : Unsigned_Numeric_Type; P4 : Low_Level.IntPtr; P5 : Size);
pragma Convention (StdCall, T73);
type T74 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : Unsigned_Numeric_Type; P4 : UInt; P5 : Int);
pragma Convention (StdCall, T74);
type T75 is access procedure (P1 : Connection_Mode; P2 : UInt);
pragma Convention (StdCall, T75);
type T76 is access procedure (P1 : Connection_Mode; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T76);
type T77 is access procedure (P1 : UInt);
pragma Convention (StdCall, T77);
type T78 is access procedure (P1 : GL.Attributes.Attribute; P2 : UInt);
pragma Convention (StdCall, T78);
type T79 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Blend_Factor);
pragma Convention (StdCall, T79);
type T80 is access procedure (P1, P2, P3, P4 : Blending.Blend_Factor);
pragma Convention (StdCall, T80);
type T81 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3, P4, P5 : Blending.Blend_Factor);
pragma Convention (StdCall, T81);
type T82 is access procedure (P1, P2, P3, P4 : Colors.Component);
pragma Convention (StdCall, T82);
type T83 is access procedure (P1 : Blending.Equation);
pragma Convention (StdCall, T83);
type T84 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2 : Blending.Equation);
pragma Convention (StdCall, T84);
type T85 is access procedure (P1, P2 : Blending.Equation);
pragma Convention (StdCall, T85);
type T86 is access procedure (P1 : Buffers.Draw_Buffer_Index; P2, P3 : Blending.Equation);
pragma Convention (StdCall, T86);
type T87 is access procedure (P1 : Enums.Point_Param; P2 : Single);
pragma Convention (StdCall, T87);
type T88 is access procedure (P1 : UInt; P2 : Buffers.Explicit_Color_Buffer_List);
pragma Convention (StdCall, T88);
type T89 is access procedure (P1 : Buffers.Color_Buffer_Selector; P2 : Low_Level.Zero; P3 : Colors.Color);
pragma Convention (StdCall, T89);
type T90 is access procedure (P1 : Low_Level.Enums.Only_Color_Buffer; P2 : Buffers.Draw_Buffer_Index; P3 : Colors.Color);
pragma Convention (StdCall, T90);
type T91 is access procedure (P1 : Low_Level.Enums.Only_Depth_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Depth);
pragma Convention (StdCall, T91);
type T92 is access procedure (P1 : Low_Level.Enums.Only_Stencil_Buffer; P2 : Low_Level.Zero; P3 : access constant Buffers.Stencil_Index);
pragma Convention (StdCall, T92);
type T93 is access procedure (P1 : Low_Level.Enums.Only_Depth_Stencil_Buffer; P2 : Low_Level.Zero; P3 : Buffers.Depth; P4 : Buffers.Stencil_Index);
pragma Convention (StdCall, T93);
type T94 is access procedure (P1 : Culling.Face_Selector; P2 : Compare_Function; P3 : Int; P4 : UInt);
pragma Convention (StdCall, T94);
type T95 is access procedure (P1 : Culling.Face_Selector; P2, P3, P4 : Buffers.Stencil_Action);
pragma Convention (StdCall, T95);
type T96 is access procedure (P1 : Culling.Face_Selector; P2 : UInt);
pragma Convention (StdCall, T96);
type T97 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size; P5 : Low_Level.Zero; P6 : Size; P7 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T97);
type T98 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3, P4 : Int; P5, P6 : Size; P7 : Pixels.Data_Format; P8 : Pixels.Data_Type; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T98);
type T99 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4 : Size);
pragma Convention (StdCall, T99);
type T100 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size; P6 : Low_Level.Zero; P7 : Size; P8 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T100);
type T101 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T101);
type T102 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Pixels.Data_Format; P9 : Pixels.Data_Type; P10 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T102);
type T103 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size; P7 : Low_Level.Zero; P8 : Size; P9 : Objects.Textures.Image_Source);
pragma Convention (StdCall, T103);
type T104 is access procedure (P1 : Low_Level.Enums.Texture_Kind; P2 : Objects.Textures.Mipmap_Level; P3 : Pixels.Internal_Format; P4, P5, P6 : Size);
pragma Convention (StdCall, T104);
type T105 is access procedure (P1 : Int);
pragma Convention (StdCall, T105);
type T106 is access procedure (P1 : Low_Level.Enums.Texture_Kind);
pragma Convention (StdCall, T106);
type T107 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T107);
type T108 is access procedure (P1 : UInt; P2 : Objects.Textures.Mipmap_Level; P3, P4, P5 : Int; P6, P7, P8 : Size);
pragma Convention (StdCall, T108);
type T109 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T109);
type T110 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T110);
type T111 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt);
pragma Convention (StdCall, T111);
type T112 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : UInt; P3 : UInt);
pragma Convention (StdCall, T112);
type T113 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.SizeIPtr; P3 : System.Address; P4 : Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T113);
type T114 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Pixels.Internal_Format; P3 : UInt);
pragma Convention (StdCall, T114);
type T115 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Objects.Access_Kind) return System.Address;
pragma Convention (StdCall, T115);
type T116 is access function (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : Low_Level.Bitfield) return System.Address;
pragma Convention (StdCall, T116);
type T117 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Pointer_Param; P3 : out System.Address);
pragma Convention (StdCall, T117);
type T118 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr; P4 : System.Address);
pragma Convention (StdCall, T118);
type T119 is access procedure (P1 : Low_Level.Enums.Buffer_Kind);
pragma Convention (StdCall, T119);
type T120 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Access_Kind);
pragma Convention (StdCall, T120);
type T121 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T121);
type T122 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Size);
pragma Convention (StdCall, T122);
type T123 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Enums.Buffer_Param; P3 : out Objects.Buffers.Buffer_Usage);
pragma Convention (StdCall, T123);
type T124 is access procedure (P1 : UInt);
pragma Convention (StdCall, T124);
type T125 is access procedure (P1 : UInt; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T125);
type T126 is access procedure (P1 : Low_Level.Enums.Buffer_Kind; P2 : Low_Level.IntPtr; P3 : Low_Level.SizeIPtr);
pragma Convention (StdCall, T126);
type T127 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T127);
type T128 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T128);
type T129 is access procedure (P1 : UInt);
pragma Convention (StdCall, T129);
type T130 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T130);
type T131 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T131);
type T132 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Pixels.Internal_Format; P3, P4 : Size);
pragma Convention (StdCall, T132);
type T133 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Size; P3 : Pixels.Internal_Format; P4, P5 : Size);
pragma Convention (StdCall, T133);
type T134 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T134);
type T135 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Int);
pragma Convention (StdCall, T135);
type T136 is access procedure (P1 : Low_Level.Enums.Renderbuffer_Kind; P2 : Enums.Getter.Renderbuffer_Parameter; P3 : out Pixels.Internal_Format);
pragma Convention (StdCall, T136);
type T137 is access procedure (P1 : Enums.Clamp_Color_Param; P2 : Low_Level.Bool);
pragma Convention (StdCall, T137);
type T138 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T138);
type T139 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T139);
type T140 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : UInt);
pragma Convention (StdCall, T140);
type T141 is access function (P1 : Low_Level.Enums.Framebuffer_Kind) return Objects.Framebuffers.Framebuffer_Status;
pragma Convention (StdCall, T141);
type T142 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : Low_Level.Enums.Renderbuffer_Kind; P4 : UInt);
pragma Convention (StdCall, T142);
type T143 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level);
pragma Convention (StdCall, T143);
type T144 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Objects.Framebuffers.Attachment_Point; P3 : UInt; P4 : Objects.Textures.Mipmap_Level; P5 : Int);
pragma Convention (StdCall, T144);
type T145 is access procedure (P1, P2, P3, P4, P5, P6, P7, P8 : Int; P9 : Low_Level.Bitfield; P10 : Objects.Textures.Magnifying_Function);
pragma Convention (StdCall, T145);
type T146 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List);
pragma Convention (StdCall, T146);
type T147 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Size; P3 : Objects.Framebuffers.Attachment_List; P4, P5 : Int; P6, P7 : Size);
pragma Convention (StdCall, T147);
type T148 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Size);
pragma Convention (StdCall, T148);
type T149 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : Low_Level.Bool);
pragma Convention (StdCall, T149);
type T150 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Size);
pragma Convention (StdCall, T150);
type T151 is access procedure (P1 : Low_Level.Enums.Framebuffer_Kind; P2 : Enums.Framebuffer_Param; P3 : out Low_Level.Bool);
pragma Convention (StdCall, T151);
type T152 is access procedure (P1 : Size; P2 : out UInt);
pragma Convention (StdCall, T152);
type T153 is access procedure (P1 : Size; P2 : Low_Level.UInt_Array);
pragma Convention (StdCall, T153);
type T154 is access function (P1 : UInt) return Boolean;
pragma Convention (StdCall, T154);
type T155 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Results; P3 : out UInt);
pragma Convention (StdCall, T155);
type T156 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T156);
type T157 is access procedure (P1 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T157);
type T158 is access procedure (P1 : Low_Level.Enums.Query_Param; P2, P3 : UInt);
pragma Convention (StdCall, T158);
type T159 is access procedure (P1 : Low_Level.Enums.Query_Param; P2 : UInt);
pragma Convention (StdCall, T159);
type T160 is access procedure (P1 : UInt; P2 : Low_Level.Enums.Query_Param);
pragma Convention (StdCall, T160);
type T161 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Int);
pragma Convention (StdCall, T161);
type T162 is access procedure (P1 : UInt; P2 : Enums.Shader_Param; P3 : out Objects.Shaders.Shader_Type);
pragma Convention (StdCall, T162);
type T163 is access function (P1 : Objects.Shaders.Shader_Type) return UInt;
pragma Convention (StdCall, T163);
type T164 is access procedure (P1 : UInt);
pragma Convention (StdCall, T164);
type T165 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : Low_Level.Int_Array);
pragma Convention (StdCall, T165);
type T166 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T166);
type T167 is access procedure;
pragma Convention (StdCall, T167);
type T168 is access function return UInt;
pragma Convention (StdCall, T168);
type T169 is access procedure (P1 : UInt);
pragma Convention (StdCall, T169);
type T170 is access procedure (P1 : UInt; P2 : Enums.Program_Param; P3 : out Int);
pragma Convention (StdCall, T170);
type T171 is access procedure (P1, P2 : UInt);
pragma Convention (StdCall, T171);
type T172 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out String);
pragma Convention (StdCall, T172);
type T173 is access procedure (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Enums.Program_Stage_Param; P4 : out Size);
pragma Convention (StdCall, T173);
type T174 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Subroutine_Index_Type;
pragma Convention (StdCall, T174);
type T175 is access function (P1 : UInt; P2 : Objects.Shaders.Shader_Type; P3 : Interfaces.C.char_array) return Objects.Programs.Uniform_Location_Type;
pragma Convention (StdCall, T175);
type T176 is access function (P1 : UInt; P2 : C.char_array) return Uniforms.Uniform;
pragma Convention (StdCall, T176);
type T177 is access procedure (P1 : UInt; P2 : Attributes.Attribute; P3 : C.char_array);
pragma Convention (StdCall, T177);
type T178 is access function (P1 : UInt; P2 : C.char_array) return Attributes.Attribute;
pragma Convention (StdCall, T178);
type T179 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Low_Level.Bool; P5 : Size; P6 : Int);
pragma Convention (StdCall, T179);
type T180 is access procedure (P1 : Attributes.Attribute; P2 : Component_Count; P3 : Numeric_Type; P4 : Size; P5 : Int);
pragma Convention (StdCall, T180);
type T181 is access procedure (P1 : Attributes.Attribute);
pragma Convention (StdCall, T181);
type T182 is access procedure (P1 : UInt; P2 : Size; P3 : out Size; P4 : in out UInt_Array);
pragma Convention (StdCall, T182);
type T183 is access procedure (P1 : UInt; P2 : Buffers.Draw_Buffer_Index; P3 : Interfaces.C.char_array);
pragma Convention (StdCall, T183);
type T184 is access function (P1 : UInt; P2 : Interfaces.C.char_array) return Int;
pragma Convention (StdCall, T184);
type T185 is access procedure (P1 : Connection_Mode);
pragma Convention (StdCall, T185);
type T186 is access procedure (P1 : UInt; P2 : Int; P3 : Size; P4 : out Size; P5 : out Size; P6 : out GL.Objects.Programs.Active_Attribute; P7 : in out Interfaces.C.char_array);
pragma Convention (StdCall, T186);
type T187 is access procedure (P1 : UInt; P2 : Size; P3 : Low_Level.Char_Access_Array; P4 : GL.Objects.Programs.Buffer_Mode);
pragma Convention (StdCall, T187);
type T188 is access procedure (P1 : Enums.Patch_Parameter_Int; P2 : Int);
pragma Convention (StdCall, T188);
type T189 is access procedure (P1 : Enums.Patch_Parameter_Float_Array; P2 : Types.Single_Array);
pragma Convention (StdCall, T189);
function Get_Error return Errors.Error_Code;
pragma Import (StdCall, Get_Error, "glGetError");
procedure Flush;
pragma Import (StdCall, Flush, "glFlush");
procedure Finish;
pragma Import (StdCall, Finish, "glFinish");
procedure Get_Boolean (Name : Enums.Getter.Parameter; Target : access Low_Level.Bool);
pragma Import (StdCall, Get_Boolean, "glGetBooleanv");
procedure Get_Double (Name : Enums.Getter.Parameter; Target : access Double);
pragma Import (StdCall, Get_Double, "glGetDoublev");
procedure Get_Double_Vec2 (Name : Enums.Getter.Parameter; Target : in out Doubles.Vector2);
pragma Import (StdCall, Get_Double_Vec2, "glGetDoublev");
procedure Get_Single (Name : Enums.Getter.Parameter; Target : access Single);
pragma Import (StdCall, Get_Single, "glGetFloatv");
procedure Get_Single_Vec2 (Name : Enums.Getter.Parameter; Target : in out Singles.Vector2);
pragma Import (StdCall, Get_Single_Vec2, "glGetFloatv");
procedure Get_Color (Name : Enums.Getter.Parameter; Target : in out Colors.Color);
pragma Import (StdCall, Get_Color, "glGetFloatv");
procedure Get_Integer (Name : Enums.Getter.Parameter; Target : access Int);
pragma Import (StdCall, Get_Integer, "glGetIntegerv");
procedure Get_Int_Vec4 (Name : Enums.Getter.Parameter; Target : in out Ints.Vector4);
pragma Import (StdCall, Get_Int_Vec4, "glGetIntegerv");
procedure Get_Unsigned_Integer (Name : Enums.Getter.Parameter; Target : access UInt);
pragma Import (StdCall, Get_Unsigned_Integer, "glGetIntegerv");
procedure Get_Size (Name : Enums.Getter.Parameter; Target : access Size);
pragma Import (StdCall, Get_Size, "glGetIntegerv");
procedure Get_Color_Control (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Color_Control);
pragma Import (StdCall, Get_Color_Control, "glGetIntegerv");
procedure Get_Shade_Model (Name : Enums.Getter.Parameter; Target : access Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Get_Shade_Model, "glGetIntegerv");
procedure Get_Blend_Factor (Name : Enums.Getter.Parameter; Target : access Blending.Blend_Factor);
pragma Import (StdCall, Get_Blend_Factor, "glGetIntegerv");
procedure Get_Alignment (Name : Enums.Getter.Parameter; Target : access Pixels.Alignment);
pragma Import (StdCall, Get_Alignment, "glGetIntegerv");
procedure Get_Blend_Equation (Name : Enums.Getter.Parameter; Target : access Blending.Equation);
pragma Import (StdCall, Get_Blend_Equation, "glGetIntegerv");
procedure Get_Compare_Function (Name : Enums.Getter.Parameter; Target : access Compare_Function);
pragma Import (StdCall, Get_Compare_Function, "glGetIntegerv");
procedure Get_Orientation (Name : Enums.Getter.Parameter; Target : access Orientation);
pragma Import (StdCall, Get_Orientation, "glGetIntegerv");
procedure Get_Face_Selector (Name : Enums.Getter.Parameter; Target : access Culling.Face_Selector);
pragma Import (StdCall, Get_Face_Selector, "glGetIntegerv");
procedure Get_Polygon_Mode (Name : Enums.Getter.Parameter; Target : access Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Get_Polygon_Mode, "glGetIntegerv");
procedure Get_Logic_Op (Name : Enums.Getter.Parameter; Target : access Framebuffer.Logic_Op);
pragma Import (StdCall, Get_Logic_Op, "glGetIntegerv");
procedure Get_Stencil_Action (Name : Enums.Getter.Parameter; Target : access Buffers.Stencil_Action);
pragma Import (StdCall, Get_Stencil_Action, "glGetIntegerv");
procedure Get_Read_Buffer_Selector (Name : Enums.Getter.Parameter; Target : access Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Get_Read_Buffer_Selector, "glGetIntegerv");
procedure Get_Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Colors.Color);
pragma Import (StdCall, Get_Light_Color, "glGetLightfv");
function Get_String (Name : Enums.Getter.String_Parameter) return C.Strings.chars_ptr;
pragma Import (StdCall, Get_String, "glGetString");
Get_String_I : T69;
procedure Enable (Subject : Toggles.Toggle);
pragma Import (StdCall, Enable, "glEnable");
procedure Disable (Subject : Toggles.Toggle);
pragma Import (StdCall, Disable, "glDisable");
function Is_Enabled (Subject : Toggles.Toggle) return Low_Level.Bool;
pragma Import (StdCall, Is_Enabled, "glIsEnabled");
procedure Cull_Face (Selector : Culling.Face_Selector);
pragma Import (StdCall, Cull_Face, "glCullFace");
procedure Front_Face (Face : Orientation);
pragma Import (StdCall, Front_Face, "glFrontFace");
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Low_Level.Bool);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Size);
procedure Pixel_Store (Param : Enums.Pixel_Store_Param; Value : Pixels.Alignment);
pragma Import (StdCall, Pixel_Store, "glPixelStorei");
procedure Matrix_Mode (Mode : Enums.Matrix_Mode);
pragma Import (StdCall, Matrix_Mode, "glMatrixMode");
procedure Frustum (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Frustum, "glFrustum");
procedure Ortho (Left, Right, Bottom, Top, zNear, zFar : Double);
pragma Import (StdCall, Ortho, "glOrtho");
procedure Load_Identity;
pragma Import (StdCall, Load_Identity, "glLoadIdentity");
procedure Push_Matrix;
pragma Import (StdCall, Push_Matrix, "glPushMatrix");
procedure Pop_Matrix;
pragma Import (StdCall, Pop_Matrix, "glPopMatrix");
procedure Rotate (Angle, X, Y, Z : Double);
pragma Import (StdCall, Rotate, "glRotated");
procedure Scale (X, Y, Z : Double);
pragma Import (StdCall, Scale, "glScaled");
procedure Translate (X, Y, Z : Double);
pragma Import (StdCall, Translate, "glTranslated");
procedure GL_Begin (Mode : Connection_Mode);
pragma Import (StdCall, GL_Begin, "glBegin");
procedure GL_End;
pragma Import (StdCall, GL_End, "glEnd");
procedure Color (Value : Colors.Color);
pragma Import (StdCall, Color, "glColor4fv");
Secondary_Color : T70;
Fog_Coord : T71;
procedure Vertex_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Vertex_Pointer, "glVertexPointer");
procedure Index_Pointer (Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Index_Pointer, "glIndexPointer");
procedure Color_Pointer (Count : Int; Data_Type : Signed_Numeric_Type; Stride : Size; Pointer : Int);
pragma Import (StdCall, Color_Pointer, "glColorPointer");
procedure Enable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Enable_Client_State, "glEnableClientState");
procedure Disable_Client_State (Cap : Fixed.Client_Side_Capability);
pragma Import (StdCall, Disable_Client_State, "glDisableClientState");
procedure Draw_Arrays (Mode : Connection_Mode; First : Int; Count : Size);
pragma Import (StdCall, Draw_Arrays, "glDrawArrays");
Draw_Arrays_Instanced : T72;
procedure Draw_Elements (Mode : Connection_Mode; Count : Size; Index_Type : Unsigned_Numeric_Type; Indices : Low_Level.IntPtr);
pragma Import (StdCall, Draw_Elements, "glDrawElements");
Draw_Elements_Instanced : T73;
Draw_Elements_Base_Vertex : T74;
Draw_Transform_Feedback : T75;
Draw_Transform_Feedback_Stream : T76;
Primitive_Restart_Index : T77;
Vertex_Attrib_Divisor : T78;
procedure Load_Matrix (Value : Types.Doubles.Matrix4);
pragma Import (StdCall, Load_Matrix, "glLoadMatrixd");
procedure Mult_Matrix (Factor : Types.Doubles.Matrix4);
pragma Import (StdCall, Mult_Matrix, "glMultMatrixd");
procedure Vertex4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Vertex4, "glVertex4dv");
procedure Vertex3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Vertex3, "glVertex3dv");
procedure Vertex2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Vertex2, "glVertex2dv");
procedure Normal (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Normal, "glNormal3dv");
procedure Tex_Coord4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Tex_Coord4, "glTexCoord4dv");
procedure Tex_Coord3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Tex_Coord3, "glTexCoord3dv");
procedure Tex_Coord2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Tex_Coord2, "glTexCoord2dv");
procedure Light_Model_Color (Param : Enums.Light_Model_Ambient_Parameter; Color : Colors.Color);
pragma Import (StdCall, Light_Model_Color, "glLightModelfv");
procedure Light_Model_Color_Control (Param : Enums.Light_Model_CC_Parameter; Value : access constant Fixed.Lighting.Color_Control);
pragma Import (StdCall, Light_Model_Color_Control, "glLightModeliv");
procedure Light_Model_Toggles (Param : Enums.Light_Model_Toggle_Parameter; Value : access constant Int);
pragma Import (StdCall, Light_Model_Toggles, "glLightModeliv");
procedure Shade_Model (Mode : Fixed.Lighting.Shade_Model);
pragma Import (StdCall, Shade_Model, "glShadeModel");
procedure Light_Color (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Colors.Color);
pragma Import (StdCall, Light_Color, "glLightfv");
procedure Get_Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector4);
pragma Import (StdCall, Get_Light_Position, "glGetLightfv");
procedure Get_Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Target : in out Types.Singles.Vector3);
pragma Import (StdCall, Get_Light_Direction, "glGetLightfv");
procedure Light_Position (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector4);
pragma Import (StdCall, Light_Position, "glLightfv");
procedure Light_Direction (Name : Enums.Light_Name; Pname : Enums.Light_Param; Param : Types.Singles.Vector3);
pragma Import (StdCall, Light_Direction, "glLightfv");
procedure Blend_Func (Src_Factor, Dst_Factor : Blending.Blend_Factor);
pragma Import (StdCall, Blend_Func, "glBlendFunc");
Blend_Func_I : T79;
Blend_Func_Separate : T80;
Blend_Func_Separate_I : T81;
Blend_Color : T82;
Blend_Equation : T83;
Blend_Equation_I : T84;
Blend_Equation_Separate : T85;
Blend_Equation_Separate_I : T86;
procedure Line_Width (Value : Single);
pragma Import (StdCall, Line_Width, "glLineWidth");
procedure Polygon_Mode (Face : Culling.Face_Selector; Value : Rasterization.Polygon_Mode_Type);
pragma Import (StdCall, Polygon_Mode, "glPolygonMode");
procedure Set_Point_Size (Value : Single);
pragma Import (StdCall, Set_Point_Size, "glPointSize");
Set_Point_Parameter_Single : T87;
procedure Raster_Pos4 (Value : Types.Doubles.Vector4);
pragma Import (StdCall, Raster_Pos4, "glRasterPos4dv");
procedure Raster_Pos3 (Value : Types.Doubles.Vector3);
pragma Import (StdCall, Raster_Pos3, "glRasterPos3dv");
procedure Raster_Pos2 (Value : Types.Doubles.Vector2);
pragma Import (StdCall, Raster_Pos2, "glRasterPos2dv");
procedure Set_Polygon_Offset (Factor, Units : Single);
pragma Import (StdCall, Set_Polygon_Offset, "glPolygonOffset");
procedure Clear (Bits : Low_Level.Bitfield);
pragma Import (StdCall, Clear, "glClear");
procedure Draw_Buffer (Mode : Buffers.Explicit_Color_Buffer_Selector);
pragma Import (StdCall, Draw_Buffer, "glDrawBuffer");
Draw_Buffers : T88;
procedure Clear_Color (Red, Green, Blue, Alpha : Colors.Component);
pragma Import (StdCall, Clear_Color, "glClearColor");
procedure Clear_Depth (Depth : Buffers.Depth);
pragma Import (StdCall, Clear_Depth, "glClearDepth");
procedure Clear_Stencil (Index : Buffers.Stencil_Index);
pragma Import (StdCall, Clear_Stencil, "glClearStencil");
Clear_Accum : T82;
Clear_Buffer : T89;
Clear_Draw_Buffer : T90;
Clear_Buffer_Depth : T91;
Clear_Buffer_Stencil : T92;
Clear_Buffer_Depth_Stencil : T93;
procedure Depth_Mask (Value : Low_Level.Bool);
pragma Import (StdCall, Depth_Mask, "glDepthMask");
procedure Depth_Func (Func : Compare_Function);
pragma Import (StdCall, Depth_Func, "glDepthFunc");
Stencil_Func_Separate : T94;
Stencil_Op_Separate : T95;
Stencil_Mask_Separate : T96;
procedure Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Single);
pragma Import (StdCall, Tex_Parameter_Float, "glTexParameterf");
procedure Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Int);
pragma Import (StdCall, Tex_Parameter_Int, "glTexParameteri");
procedure Tex_Parameter_Min_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Minifying_Function);
pragma Import (StdCall, Tex_Parameter_Min_Filter, "glTexParameteri");
procedure Tex_Parameter_Mag_Filter (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Magnifying_Function);
pragma Import (StdCall, Tex_Parameter_Mag_Filter, "glTexParameteri");
procedure Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Tex_Parameter_Wrap_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Enums.Textures.Compare_Kind);
pragma Import (StdCall, Tex_Parameter_Comp_Mode, "glTexParameteri");
procedure Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Compare_Function);
pragma Import (StdCall, Tex_Parameter_Comp_Func, "glTexParameteri");
procedure Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Objects.Textures.Depth_Mode);
pragma Import (StdCall, Tex_Parameter_Depth_Mode, "glTexParameteri");
procedure Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Parameter_Bool, "glTexParameteri");
procedure Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Parameter_Floats, "glTexParameterfv");
procedure Get_Tex_Parameter_Float (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Parameter_Float, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Floats (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Parameter_Floats, "glGetTexParameterfv");
procedure Get_Tex_Parameter_Int (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Int);
pragma Import (StdCall, Get_Tex_Parameter_Int, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Ints (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : in out Low_Level.Int_Array);
pragma Import (StdCall, Get_Tex_Parameter_Ints, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Wrap_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Wrapping_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Wrap_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Enums.Textures.Compare_Kind);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Comp_Func (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Compare_Function);
pragma Import (StdCall, Get_Tex_Parameter_Comp_Func, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Depth_Mode (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Objects.Textures.Depth_Mode);
pragma Import (StdCall, Get_Tex_Parameter_Depth_Mode, "glGetTexParameteriv");
procedure Get_Tex_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Param_Name : Enums.Textures.Parameter; Values : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Parameter_Bool, "glGetTexParameteriv");
procedure Get_Tex_Level_Parameter_Size (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Size);
pragma Import (StdCall, Get_Tex_Level_Parameter_Size, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Format (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Internal_Format);
pragma Import (StdCall, Get_Tex_Level_Parameter_Format, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Type (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Pixels.Channel_Data_Type);
pragma Import (StdCall, Get_Tex_Level_Parameter_Type, "glGetTexLevelParameteriv");
procedure Get_Tex_Level_Parameter_Bool (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Param_Name : Enums.Textures.Level_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Level_Parameter_Bool, "glGetTexLevelParameteriv");
procedure Gen_Textures (N : Size; Textures : out UInt);
pragma Import (StdCall, Gen_Textures, "glGenTextures");
procedure Bind_Texture (Target : Low_Level.Enums.Texture_Kind; Texture : UInt);
pragma Import (StdCall, Bind_Texture, "glBindTexture");
procedure Delete_Textures (N : Size; Textures : Low_Level.UInt_Array);
pragma Import (StdCall, Delete_Textures, "glDeleteTextures");
function Is_Texture (Texture : UInt) return Boolean;
pragma Import (StdCall, Is_Texture, "glIsTexture");
procedure Tex_Image_1D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_1D, "glTexImage1D");
Compressed_Tex_Image_1D : T97;
Tex_Sub_Image_1D : T98;
Tex_Storage_1D : T99;
procedure Tex_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; Internal_Format : Pixels.Internal_Format; Width, Height : Size; Border : Low_Level.Zero; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Image_2D, "glTexImage2D");
Compressed_Tex_Image_2D : T100;
procedure Tex_Sub_Image_2D (Target : Low_Level.Enums.Texture_Kind; Level : Objects.Textures.Mipmap_Level; X_Offset, Y_Offset : Int; Width, Height : Size; Format : Pixels.Data_Format; Data_Type : Pixels.Data_Type; Data : Objects.Textures.Image_Source);
pragma Import (StdCall, Tex_Sub_Image_2D, "glTexSubImage2D");
Tex_Storage_2D : T101;
Tex_Image_3D : T102;
Compressed_Tex_Image_3D : T103;
Tex_Sub_Image_3D : T98;
Tex_Storage_3D : T104;
procedure Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Single);
pragma Import (StdCall, Tex_Env_Float, "glTexEnvf");
procedure Tex_Env_Int (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Int);
pragma Import (StdCall, Tex_Env_Int, "glTexEnvi");
procedure Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Texture_Function);
pragma Import (StdCall, Tex_Env_Tex_Func, "glTexEnvi");
procedure Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Combine_Function);
pragma Import (StdCall, Tex_Env_Combine_Func, "glTexEnvi");
procedure Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Fixed.Textures.Source_Kind);
pragma Import (StdCall, Tex_Env_Source, "glTexEnvi");
procedure Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Single_Array);
pragma Import (StdCall, Tex_Env_Arr, "glTexEnvfv");
procedure Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : Low_Level.Bool);
pragma Import (StdCall, Tex_Env_Bool, "glTexEnvi");
procedure Get_Tex_Env_Float (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Single);
pragma Import (StdCall, Get_Tex_Env_Float, "glGetTexEnvfv");
procedure Get_Tex_Env_Tex_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Texture_Function);
pragma Import (StdCall, Get_Tex_Env_Tex_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Combine_Func (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Combine_Function);
pragma Import (StdCall, Get_Tex_Env_Combine_Func, "glGetTexEnviv");
procedure Get_Tex_Env_Source (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Fixed.Textures.Source_Kind);
pragma Import (StdCall, Get_Tex_Env_Source, "glGetTexEnviv");
procedure Get_Tex_Env_Arr (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : in out Low_Level.Single_Array);
pragma Import (StdCall, Get_Tex_Env_Arr, "glGetTexEnvfv");
procedure Get_Tex_Env_Bool (Target : Enums.Textures.Env_Target; Param_Name : Enums.Textures.Env_Parameter; Value : out Low_Level.Bool);
pragma Import (StdCall, Get_Tex_Env_Bool, "glGetTexEnviv");
Active_Texture : T105;
Generate_Mipmap : T106;
Invalidate_Tex_Image : T107;
Invalidate_Tex_Sub_Image : T108;
Gen_Buffers : T109;
Gen_Transform_Feedbacks : T109;
Delete_Buffers : T110;
Delete_Transform_Feedbacks : T110;
Bind_Buffer : T111;
Bind_Transform_Feedback : T111;
Bind_Buffer_Base : T112;
Buffer_Data : T113;
Texture_Buffer_Data : T114;
Map_Buffer : T115;
Map_Buffer_Range : T116;
Buffer_Pointer : T117;
Buffer_Sub_Data : T118;
Get_Buffer_Sub_Data : T118;
Unmap_Buffer : T119;
Get_Buffer_Parameter_Access_Kind : T120;
Get_Buffer_Parameter_Bool : T121;
Get_Buffer_Parameter_Size : T122;
Get_Buffer_Parameter_Usage : T123;
Invalidate_Buffer_Data : T124;
Invalidate_Buffer_Sub_Data : T125;
Flush_Mapped_Buffer_Range : T126;
Gen_Vertex_Arrays : T127;
Delete_Vertex_Arrays : T128;
Bind_Vertex_Array : T129;
Gen_Renderbuffers : T130;
Delete_Renderbuffers : T131;
Renderbuffer_Storage : T132;
Renderbuffer_Storage_Multisample : T133;
Bind_Renderbuffer : T134;
Get_Renderbuffer_Parameter_Int : T135;
Get_Renderbuffer_Parameter_Internal_Format : T136;
procedure Read_Pixels (X, Y : Int; Width, Height : Size; Format : Pixels.Framebuffer_Format; Data_Type : Pixels.Data_Type; Data : System.Address);
pragma Import (StdCall, Read_Pixels, "glReadPixels");
procedure Logic_Op (Value : Framebuffer.Logic_Op);
pragma Import (StdCall, Logic_Op, "glLogicOp");
Clamp_Color : T137;
procedure Read_Buffer (Value : Framebuffer.Read_Buffer_Selector);
pragma Import (StdCall, Read_Buffer, "glReadBuffer");
Gen_Framebuffers : T138;
Delete_Framebuffers : T139;
Bind_Framebuffer : T140;
Check_Framebuffer_Status : T141;
Framebuffer_Renderbuffer : T142;
Framebuffer_Texture : T143;
Framebuffer_Texture_Layer : T144;
Blit_Framebuffer : T145;
Invalidate_Framebuffer : T146;
Invalidate_Sub_Framebuffer : T147;
Framebuffer_Parameter_Size : T148;
Framebuffer_Parameter_Bool : T149;
Get_Framebuffer_Parameter_Size : T150;
Get_Framebuffer_Parameter_Bool : T151;
Gen_Queries : T152;
Delete_Queries : T153;
Is_Query : T154;
Get_Query_Object : T155;
Begin_Query : T156;
End_Query : T157;
Begin_Query_Indexed : T158;
End_Query_Indexed : T159;
Query_Counter : T160;
Get_Shader_Param : T161;
Get_Shader_Type : T162;
Create_Shader : T163;
Delete_Shader : T164;
Shader_Source : T165;
Get_Shader_Source : T166;
Compile_Shader : T164;
Release_Shader_Compiler : T167;
Get_Shader_Info_Log : T166;
Create_Program : T168;
Delete_Program : T169;
Get_Program_Param : T170;
Attach_Shader : T171;
Link_Program : T169;
Get_Program_Info_Log : T172;
Get_Program_Stage : T173;
Get_Subroutine_Index : T174;
Get_Subroutine_Uniform_Location : T175;
Use_Program : T169;
Validate_Program : T169;
Get_Uniform_Location : T176;
Bind_Attrib_Location : T177;
Get_Attrib_Location : T178;
Vertex_Attrib_Pointer : T179;
Vertex_AttribI_Pointer : T180;
Vertex_AttribL_Pointer : T180;
Enable_Vertex_Attrib_Array : T181;
Disable_Vertex_Attrib_Array : T181;
Get_Attached_Shaders : T182;
Bind_Frag_Data_Location : T183;
Get_Frag_Data_Location : T184;
Begin_Transform_Feedback : T185;
End_Transform_Feedback : T167;
Get_Transform_Feedback_Varying : T186;
Transform_Feedback_Varyings : T187;
Set_Patch_Parameter_Int : T188;
Set_Patch_Parameter_Float_Array : T189;
procedure Depth_Range (Near, Far : Double);
pragma Import (StdCall, Depth_Range, "glDepthRange");
procedure Viewport (X, Y : Int; Width, Height : Size);
pragma Import (StdCall, Viewport, "glViewport");
end GL.API;
|
[
{
"context": " - Mockup for faces context\n-- Copyright (C) 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 168,
"score": 0.9998756647109985,
"start": 153,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 199,
"score": 0.9998811483383179,
"start": 184,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "3 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 226,
"score": 0.9999231100082397,
"start": 201,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | asfunit/asf-contexts-faces-mockup.adb | jquorning/ada-asf | 12 | -----------------------------------------------------------------------
-- asf-contexts-faces-mockups - Mockup for faces context
-- Copyright (C) 2013 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with ASF.Tests;
package body ASF.Contexts.Faces.Mockup is
-- ------------------------------
-- Initialize the mockup context.
-- ------------------------------
overriding
procedure Initialize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Initialize;
Context.Prev_Context := Current;
Context.Request := Context.Mock_Request'Unchecked_Access;
Context.Response := Context.Mock_Response'Unchecked_Access;
Context.Flash := Context.Flash_Ctx'Unchecked_Access;
Context.Resolver.Initialize (ASF.Tests.Get_Application, Context.Request);
Context.ELContext.Set_Resolver (Context.Resolver'Unchecked_Access);
Context.ELContext.Set_Variable_Mapper (Context.Variables'Unchecked_Access);
Context.Set_ELContext (Context.ELContext'Unchecked_Access);
Context.Set_Response_Writer (Context.Output'Unchecked_Access);
Context.Output.Initialize ("text/html", "UTF-8", Context.Response.Get_Output_Stream);
Set_Current (Context => Context'Unchecked_Access,
Application => ASF.Tests.Get_Application.all'Access);
end Initialize;
-- ------------------------------
-- Release any storage held by this context.
-- ------------------------------
overriding
procedure Finalize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Finalize;
Restore (Context.Prev_Context);
end Finalize;
-- ------------------------------
-- Set the path info
-- ------------------------------
procedure Set_Path_Info (Req : in out Mockup_Faces_Context;
Path : in String) is
begin
Req.Mock_Request.Set_Path_Info (Path);
end Set_Path_Info;
-- ------------------------------
-- Set the parameter
-- ------------------------------
procedure Set_Parameter (Req : in out Mockup_Faces_Context;
Name : in String;
Value : in String) is
begin
Req.Mock_Request.Set_Parameter (Name, Value);
end Set_Parameter;
-- ------------------------------
-- Sets the HTTP method.
-- ------------------------------
procedure Set_Method (Req : in out Mockup_Faces_Context;
Method : in String) is
begin
Req.Mock_Request.Set_Method (Method);
end Set_Method;
-- ------------------------------
-- Sets the protocol version
-- ------------------------------
procedure Set_Protocol (Req : in out Mockup_Faces_Context;
Protocol : in String) is
begin
Req.Mock_Request.Set_Protocol (Protocol);
end Set_Protocol;
-- ------------------------------
-- Set the request URI.
-- ------------------------------
procedure Set_Request_URI (Req : in out Mockup_Faces_Context;
URI : in String) is
begin
Req.Mock_Request.Set_Request_URI (URI);
end Set_Request_URI;
-- ------------------------------
-- Sets the peer address
-- ------------------------------
procedure Set_Remote_Addr (Req : in out Mockup_Faces_Context;
Addr : in String) is
begin
Req.Mock_Request.Set_Remote_Addr (Addr);
end Set_Remote_Addr;
-- ------------------------------
-- Set the request cookie by using the cookie returned in the response.
-- ------------------------------
procedure Set_Cookie (Req : in out Mockup_Faces_Context;
From : in ASF.Responses.Mockup.Response'Class) is
begin
Req.Mock_Request.Set_Cookie (From);
end Set_Cookie;
-- ------------------------------
-- Get the content written to the mockup output stream.
-- ------------------------------
procedure Read_Response (Resp : in out Mockup_Faces_Context;
Into : out Ada.Strings.Unbounded.Unbounded_String) is
begin
Resp.Mock_Response.Read_Content (Into);
end Read_Response;
end ASF.Contexts.Faces.Mockup;
| 23775 | -----------------------------------------------------------------------
-- asf-contexts-faces-mockups - Mockup for faces context
-- Copyright (C) 2013 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with ASF.Tests;
package body ASF.Contexts.Faces.Mockup is
-- ------------------------------
-- Initialize the mockup context.
-- ------------------------------
overriding
procedure Initialize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Initialize;
Context.Prev_Context := Current;
Context.Request := Context.Mock_Request'Unchecked_Access;
Context.Response := Context.Mock_Response'Unchecked_Access;
Context.Flash := Context.Flash_Ctx'Unchecked_Access;
Context.Resolver.Initialize (ASF.Tests.Get_Application, Context.Request);
Context.ELContext.Set_Resolver (Context.Resolver'Unchecked_Access);
Context.ELContext.Set_Variable_Mapper (Context.Variables'Unchecked_Access);
Context.Set_ELContext (Context.ELContext'Unchecked_Access);
Context.Set_Response_Writer (Context.Output'Unchecked_Access);
Context.Output.Initialize ("text/html", "UTF-8", Context.Response.Get_Output_Stream);
Set_Current (Context => Context'Unchecked_Access,
Application => ASF.Tests.Get_Application.all'Access);
end Initialize;
-- ------------------------------
-- Release any storage held by this context.
-- ------------------------------
overriding
procedure Finalize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Finalize;
Restore (Context.Prev_Context);
end Finalize;
-- ------------------------------
-- Set the path info
-- ------------------------------
procedure Set_Path_Info (Req : in out Mockup_Faces_Context;
Path : in String) is
begin
Req.Mock_Request.Set_Path_Info (Path);
end Set_Path_Info;
-- ------------------------------
-- Set the parameter
-- ------------------------------
procedure Set_Parameter (Req : in out Mockup_Faces_Context;
Name : in String;
Value : in String) is
begin
Req.Mock_Request.Set_Parameter (Name, Value);
end Set_Parameter;
-- ------------------------------
-- Sets the HTTP method.
-- ------------------------------
procedure Set_Method (Req : in out Mockup_Faces_Context;
Method : in String) is
begin
Req.Mock_Request.Set_Method (Method);
end Set_Method;
-- ------------------------------
-- Sets the protocol version
-- ------------------------------
procedure Set_Protocol (Req : in out Mockup_Faces_Context;
Protocol : in String) is
begin
Req.Mock_Request.Set_Protocol (Protocol);
end Set_Protocol;
-- ------------------------------
-- Set the request URI.
-- ------------------------------
procedure Set_Request_URI (Req : in out Mockup_Faces_Context;
URI : in String) is
begin
Req.Mock_Request.Set_Request_URI (URI);
end Set_Request_URI;
-- ------------------------------
-- Sets the peer address
-- ------------------------------
procedure Set_Remote_Addr (Req : in out Mockup_Faces_Context;
Addr : in String) is
begin
Req.Mock_Request.Set_Remote_Addr (Addr);
end Set_Remote_Addr;
-- ------------------------------
-- Set the request cookie by using the cookie returned in the response.
-- ------------------------------
procedure Set_Cookie (Req : in out Mockup_Faces_Context;
From : in ASF.Responses.Mockup.Response'Class) is
begin
Req.Mock_Request.Set_Cookie (From);
end Set_Cookie;
-- ------------------------------
-- Get the content written to the mockup output stream.
-- ------------------------------
procedure Read_Response (Resp : in out Mockup_Faces_Context;
Into : out Ada.Strings.Unbounded.Unbounded_String) is
begin
Resp.Mock_Response.Read_Content (Into);
end Read_Response;
end ASF.Contexts.Faces.Mockup;
| true | -----------------------------------------------------------------------
-- asf-contexts-faces-mockups - Mockup for faces context
-- Copyright (C) 2013 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with ASF.Tests;
package body ASF.Contexts.Faces.Mockup is
-- ------------------------------
-- Initialize the mockup context.
-- ------------------------------
overriding
procedure Initialize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Initialize;
Context.Prev_Context := Current;
Context.Request := Context.Mock_Request'Unchecked_Access;
Context.Response := Context.Mock_Response'Unchecked_Access;
Context.Flash := Context.Flash_Ctx'Unchecked_Access;
Context.Resolver.Initialize (ASF.Tests.Get_Application, Context.Request);
Context.ELContext.Set_Resolver (Context.Resolver'Unchecked_Access);
Context.ELContext.Set_Variable_Mapper (Context.Variables'Unchecked_Access);
Context.Set_ELContext (Context.ELContext'Unchecked_Access);
Context.Set_Response_Writer (Context.Output'Unchecked_Access);
Context.Output.Initialize ("text/html", "UTF-8", Context.Response.Get_Output_Stream);
Set_Current (Context => Context'Unchecked_Access,
Application => ASF.Tests.Get_Application.all'Access);
end Initialize;
-- ------------------------------
-- Release any storage held by this context.
-- ------------------------------
overriding
procedure Finalize (Context : in out Mockup_Faces_Context) is
begin
Faces_Context (Context).Finalize;
Restore (Context.Prev_Context);
end Finalize;
-- ------------------------------
-- Set the path info
-- ------------------------------
procedure Set_Path_Info (Req : in out Mockup_Faces_Context;
Path : in String) is
begin
Req.Mock_Request.Set_Path_Info (Path);
end Set_Path_Info;
-- ------------------------------
-- Set the parameter
-- ------------------------------
procedure Set_Parameter (Req : in out Mockup_Faces_Context;
Name : in String;
Value : in String) is
begin
Req.Mock_Request.Set_Parameter (Name, Value);
end Set_Parameter;
-- ------------------------------
-- Sets the HTTP method.
-- ------------------------------
procedure Set_Method (Req : in out Mockup_Faces_Context;
Method : in String) is
begin
Req.Mock_Request.Set_Method (Method);
end Set_Method;
-- ------------------------------
-- Sets the protocol version
-- ------------------------------
procedure Set_Protocol (Req : in out Mockup_Faces_Context;
Protocol : in String) is
begin
Req.Mock_Request.Set_Protocol (Protocol);
end Set_Protocol;
-- ------------------------------
-- Set the request URI.
-- ------------------------------
procedure Set_Request_URI (Req : in out Mockup_Faces_Context;
URI : in String) is
begin
Req.Mock_Request.Set_Request_URI (URI);
end Set_Request_URI;
-- ------------------------------
-- Sets the peer address
-- ------------------------------
procedure Set_Remote_Addr (Req : in out Mockup_Faces_Context;
Addr : in String) is
begin
Req.Mock_Request.Set_Remote_Addr (Addr);
end Set_Remote_Addr;
-- ------------------------------
-- Set the request cookie by using the cookie returned in the response.
-- ------------------------------
procedure Set_Cookie (Req : in out Mockup_Faces_Context;
From : in ASF.Responses.Mockup.Response'Class) is
begin
Req.Mock_Request.Set_Cookie (From);
end Set_Cookie;
-- ------------------------------
-- Get the content written to the mockup output stream.
-- ------------------------------
procedure Read_Response (Resp : in out Mockup_Faces_Context;
Into : out Ada.Strings.Unbounded.Unbounded_String) is
begin
Resp.Mock_Response.Read_Content (Into);
end Read_Response;
end ASF.Contexts.Faces.Mockup;
|
[
{
"context": "-- Global types\n-- Copyright (C) 2014, 2015, 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 152,
"score": 0.9998852610588074,
"start": 137,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "C) 2014, 2015, 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 183,
"score": 0.9998895525932312,
"start": 168,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "9 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 210,
"score": 0.9999260902404785,
"start": 185,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | mat/src/mat-types.adb | stcarrez/mat | 7 | -----------------------------------------------------------------------
-- mat-types -- Global types
-- Copyright (C) 2014, 2015, 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings;
package body MAT.Types is
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint32;
Length : in Positive := 8) return String is
use type Interfaces.Unsigned_32;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint32 := Value;
N : Uint32;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint64;
Length : in Positive := 16) return String is
use type Interfaces.Unsigned_64;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint64 := Value;
N : Uint64;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Format the target time to a printable representation.
-- ------------------------------
function Tick_Image (Value : in Target_Tick_Ref) return String is
use Interfaces;
Sec : constant Unsigned_32 := Unsigned_32 (Interfaces.Shift_Right (Uint64 (Value), 32));
Usec : constant Unsigned_32 := Interfaces.Unsigned_32 (Value and 16#0ffffffff#);
Frac : constant String := Interfaces.Unsigned_32'Image (Usec);
Img : String (1 .. 6) := (others => '0');
begin
Img (Img'Last - Frac'Length + 2 .. Img'Last) := Frac (Frac'First + 1 .. Frac'Last);
return Interfaces.Unsigned_32'Image (Sec) & "." & Img;
end Tick_Image;
-- ------------------------------
-- Convert the string in the form NN.MM into a tick value.
-- ------------------------------
function Tick_Value (Value : in String) return Target_Tick_Ref is
use Interfaces;
Pos : constant Natural := Util.Strings.Index (Value, '.');
Frac : Uint64;
Val : Uint64;
begin
if Pos > 0 then
Frac := Uint64'Value (Value (Pos + 1 .. Value'Last));
for I in 1 .. 6 - (Value'Last - Pos) loop
Frac := Frac * 10;
end loop;
if Pos > Value'First then
Val := Uint64'Value (Value (Value'First .. Pos - 1));
else
Val := 0;
end if;
else
Frac := 0;
Val := Uint64'Value (Value);
end if;
return Target_Tick_Ref (Val * 1_000_000 + Frac);
end Tick_Value;
-- ------------------------------
-- Convert the hexadecimal string into an unsigned integer.
-- ------------------------------
function Hex_Value (Value : in String) return Uint64 is
use type Interfaces.Unsigned_64;
Result : Uint64 := 0;
begin
if Value'Length = 0 then
raise Constraint_Error with "Empty string";
end if;
for I in Value'Range loop
declare
C : constant Character := Value (I);
begin
if C >= '0' and C <= '9' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('0'));
elsif C >= 'A' and C <= 'F' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('A') + 10);
elsif C >= 'a' and C <= 'f' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('a') + 10);
else
raise Constraint_Error with "Invalid character: " & C;
end if;
end;
end loop;
return Result;
end Hex_Value;
end MAT.Types;
| 22598 | -----------------------------------------------------------------------
-- mat-types -- Global types
-- Copyright (C) 2014, 2015, 2019 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings;
package body MAT.Types is
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint32;
Length : in Positive := 8) return String is
use type Interfaces.Unsigned_32;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint32 := Value;
N : Uint32;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint64;
Length : in Positive := 16) return String is
use type Interfaces.Unsigned_64;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint64 := Value;
N : Uint64;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Format the target time to a printable representation.
-- ------------------------------
function Tick_Image (Value : in Target_Tick_Ref) return String is
use Interfaces;
Sec : constant Unsigned_32 := Unsigned_32 (Interfaces.Shift_Right (Uint64 (Value), 32));
Usec : constant Unsigned_32 := Interfaces.Unsigned_32 (Value and 16#0ffffffff#);
Frac : constant String := Interfaces.Unsigned_32'Image (Usec);
Img : String (1 .. 6) := (others => '0');
begin
Img (Img'Last - Frac'Length + 2 .. Img'Last) := Frac (Frac'First + 1 .. Frac'Last);
return Interfaces.Unsigned_32'Image (Sec) & "." & Img;
end Tick_Image;
-- ------------------------------
-- Convert the string in the form NN.MM into a tick value.
-- ------------------------------
function Tick_Value (Value : in String) return Target_Tick_Ref is
use Interfaces;
Pos : constant Natural := Util.Strings.Index (Value, '.');
Frac : Uint64;
Val : Uint64;
begin
if Pos > 0 then
Frac := Uint64'Value (Value (Pos + 1 .. Value'Last));
for I in 1 .. 6 - (Value'Last - Pos) loop
Frac := Frac * 10;
end loop;
if Pos > Value'First then
Val := Uint64'Value (Value (Value'First .. Pos - 1));
else
Val := 0;
end if;
else
Frac := 0;
Val := Uint64'Value (Value);
end if;
return Target_Tick_Ref (Val * 1_000_000 + Frac);
end Tick_Value;
-- ------------------------------
-- Convert the hexadecimal string into an unsigned integer.
-- ------------------------------
function Hex_Value (Value : in String) return Uint64 is
use type Interfaces.Unsigned_64;
Result : Uint64 := 0;
begin
if Value'Length = 0 then
raise Constraint_Error with "Empty string";
end if;
for I in Value'Range loop
declare
C : constant Character := Value (I);
begin
if C >= '0' and C <= '9' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('0'));
elsif C >= 'A' and C <= 'F' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('A') + 10);
elsif C >= 'a' and C <= 'f' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('a') + 10);
else
raise Constraint_Error with "Invalid character: " & C;
end if;
end;
end loop;
return Result;
end Hex_Value;
end MAT.Types;
| true | -----------------------------------------------------------------------
-- mat-types -- Global types
-- Copyright (C) 2014, 2015, 2019 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings;
package body MAT.Types is
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint32;
Length : in Positive := 8) return String is
use type Interfaces.Unsigned_32;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint32 := Value;
N : Uint32;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Return an hexadecimal string representation of the value.
-- ------------------------------
function Hex_Image (Value : in Uint64;
Length : in Positive := 16) return String is
use type Interfaces.Unsigned_64;
Conversion : constant String (1 .. 16) := "0123456789ABCDEF";
S : String (1 .. Length) := (others => '0');
P : Uint64 := Value;
N : Uint64;
I : Positive := Length;
begin
while P /= 0 loop
N := P mod 16;
P := P / 16;
S (I) := Conversion (Natural (N + 1));
exit when I = 1;
I := I - 1;
end loop;
return S;
end Hex_Image;
-- ------------------------------
-- Format the target time to a printable representation.
-- ------------------------------
function Tick_Image (Value : in Target_Tick_Ref) return String is
use Interfaces;
Sec : constant Unsigned_32 := Unsigned_32 (Interfaces.Shift_Right (Uint64 (Value), 32));
Usec : constant Unsigned_32 := Interfaces.Unsigned_32 (Value and 16#0ffffffff#);
Frac : constant String := Interfaces.Unsigned_32'Image (Usec);
Img : String (1 .. 6) := (others => '0');
begin
Img (Img'Last - Frac'Length + 2 .. Img'Last) := Frac (Frac'First + 1 .. Frac'Last);
return Interfaces.Unsigned_32'Image (Sec) & "." & Img;
end Tick_Image;
-- ------------------------------
-- Convert the string in the form NN.MM into a tick value.
-- ------------------------------
function Tick_Value (Value : in String) return Target_Tick_Ref is
use Interfaces;
Pos : constant Natural := Util.Strings.Index (Value, '.');
Frac : Uint64;
Val : Uint64;
begin
if Pos > 0 then
Frac := Uint64'Value (Value (Pos + 1 .. Value'Last));
for I in 1 .. 6 - (Value'Last - Pos) loop
Frac := Frac * 10;
end loop;
if Pos > Value'First then
Val := Uint64'Value (Value (Value'First .. Pos - 1));
else
Val := 0;
end if;
else
Frac := 0;
Val := Uint64'Value (Value);
end if;
return Target_Tick_Ref (Val * 1_000_000 + Frac);
end Tick_Value;
-- ------------------------------
-- Convert the hexadecimal string into an unsigned integer.
-- ------------------------------
function Hex_Value (Value : in String) return Uint64 is
use type Interfaces.Unsigned_64;
Result : Uint64 := 0;
begin
if Value'Length = 0 then
raise Constraint_Error with "Empty string";
end if;
for I in Value'Range loop
declare
C : constant Character := Value (I);
begin
if C >= '0' and C <= '9' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('0'));
elsif C >= 'A' and C <= 'F' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('A') + 10);
elsif C >= 'a' and C <= 'f' then
Result := (Result * 16) + (Character'Pos (C) - Character'Pos ('a') + 10);
else
raise Constraint_Error with "Invalid character: " & C;
end if;
end;
end loop;
return Result;
end Hex_Value;
end MAT.Types;
|
[
{
"context": "package body Givens_Rotation\n-- Copyright (C) 2018 Jonathan S. Parker.\n--\n-- Permission to use, copy, modify, and/or di",
"end": 149,
"score": 0.9998719096183777,
"start": 131,
"tag": "NAME",
"value": "Jonathan S. Parker"
}
] | linear_algebra/givens_rotation.adb | jscparker/math_packages | 30 |
---------------------------------------------------------------------------
-- package body Givens_Rotation
-- Copyright (C) 2018 Jonathan S. Parker.
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
---------------------------------------------------------------------------
with Hypot;
package body Givens_Rotation is
package Hypotenuse is new Hypot (Real); use Hypotenuse;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
-----------------------------------
-- Get_Rotation_That_Zeros_Out_L --
-----------------------------------
-- P = Pivot, L = Low.
--
-- cos = P/r, sin = L/r, Hypot = r = sqrt(P*P + L*L)
--
-- clockwise rotation: notice all rotations are centered on the diagonal
--
-- 1 0 0 0 0 0 0
-- 0 c s 0 0 P r
-- 0 -s c 0 0 x L = 0
-- 0 0 0 1 0 0 0
-- 0 0 0 0 1 0 0
--
--
-- if |L| >= |P| then t = P/L <= 1
-- if |P| > |L| then t = L/P < 1
--
--
-- let t = smaller / larger
--
-- let u = 1/sqrt(1+t*t) and w = sqrt(t*t/(1+t*t)) with
--
-- use (1 - 1/sqrt(1+t*t)) * (1 + 1/sqrt(1+t*t)) = t*t / (1 + t*t)
--
-- 1/sqrt(1+t*t) - 1 = - t*t/(sqrt(1+t*t) + 1+t*t)
-- = -(t/(sqrt(1+t*t))*(t/(1 + Sqrt(1+t*t)))
-- = - Abs (w) * Abs (t)/(1+ sqrt(1+t*t))
-- = u_lo
--
-- u_hi = 1 => u_lo + u_hi = 1/sqrt(1+t*t) = u = Abs (cs) if a<b
--
-- hypot = |L| * sqrt(1+t*t) = |L| * (1 + t*t/(1+sqrt(1+t*t)) = hi + lo if t<1
--
-- P : Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
-- L : Real := A(Low_Row, Pivot_Col);
procedure Get_Rotation_That_Zeros_Out_Low
(Pivot, Low : in Real;
sn, cs : out Real;
cs_minus_1 : out Real;
sn_minus_1 : out Real;
hypot : out Real;
P_bigger_than_L : out Boolean;
Skip_Rotation : out Boolean)
is
Emax : constant Integer := Real'Machine_Emax;
Emin : constant Integer := Real'Machine_Emin;
P, L, Abs_P, Abs_L : Real;
min_arg_over_hypot, max_arg_over_hypot_minus_1 : Real;
begin
if (not Low'Valid) or (not Pivot'Valid) then
raise Constraint_Error with "Invalid input data in Get_Rotation...";
end if;
P := Pivot; L := Low;
Abs_P := Abs (P); Abs_L := Abs (L);
-- default: no rotation is performed.
sn := Zero;
cs := One;
sn_minus_1 := -One;
cs_minus_1 := Zero;
hypot := Abs_P;
P_bigger_than_L := True;
Skip_Rotation := True;
if Abs_L < Two**Emin then
Skip_Rotation := True; -- use defaults
return;
end if;
if Abs_P < Two**Emin then
if Abs_L > Two**Emin then
sn := One;
cs := Zero;
sn_minus_1 := Zero;
cs_minus_1 := -One;
hypot := Abs_L;
P_bigger_than_L := False;
Skip_Rotation := False;
return;
else
Skip_Rotation := True; -- use defaults
return;
end if;
end if;
-- if the Low val is too small compared to the pivot, then
-- it contributes nothing to pivot after rotation ... but the row
-- still might contribute elsewhere.
if Abs_L < Two**(Emax - Emax/10 - Real'Machine_Radix - 1) and then
Abs_L * Two**(Emax/10 + Real'Machine_Radix) < Abs_P
then
Skip_Rotation := True;
return; -- use defaults, Skip_Rotation.
end if; -- essential optimisation.
if Abs_P > Abs_L then -- |s| <= |c|
Skip_Rotation := False;
P_bigger_than_L := True;
-- Want P>0 always, (for efficiency, since we use cos = P/R = 1 + (cos-1)),
-- so if P<0 then flip signs of both P and L
-- to ensure zero'd out element.
if P < Zero then P := -P; L := -L; end if;
Get_Hypotenuse (P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--cs := P / hypot; -- normally unused; set to default
sn := Real'Copy_Sign (min_arg_over_hypot, L);
--sn := L / hypot;
cs_minus_1 := max_arg_over_hypot_minus_1;
--cs_minus_1 := -Abs (sn) * Abs_L / hypot_plus_max_arg;
--cs_minus_1_over_sn := -L / hypot_plus_max_arg;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1: NOTICE <= !
Skip_Rotation := False;
P_bigger_than_L := False;
-- Want L>0 always. If L<0 then flip signs of both P and L
-- to ensure zero'd out element.
if L < Zero then P := -P; L := -L; end if;
Get_Hypotenuse
(P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--sn := L / hypot; -- set to default; unused
cs := Real'Copy_Sign (min_arg_over_hypot, P);
--cs := P / hypot;
sn_minus_1 := max_arg_over_hypot_minus_1;
--sn_minus_1 := -Abs (cs) * Abs_P / hypot_plus_max_arg;
--sn_minus_1_over_cs := -P / hypot_plus_max_arg;
end if;
end Get_Rotation_That_Zeros_Out_Low;
end Givens_Rotation;
| 18754 |
---------------------------------------------------------------------------
-- package body Givens_Rotation
-- Copyright (C) 2018 <NAME>.
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
---------------------------------------------------------------------------
with Hypot;
package body Givens_Rotation is
package Hypotenuse is new Hypot (Real); use Hypotenuse;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
-----------------------------------
-- Get_Rotation_That_Zeros_Out_L --
-----------------------------------
-- P = Pivot, L = Low.
--
-- cos = P/r, sin = L/r, Hypot = r = sqrt(P*P + L*L)
--
-- clockwise rotation: notice all rotations are centered on the diagonal
--
-- 1 0 0 0 0 0 0
-- 0 c s 0 0 P r
-- 0 -s c 0 0 x L = 0
-- 0 0 0 1 0 0 0
-- 0 0 0 0 1 0 0
--
--
-- if |L| >= |P| then t = P/L <= 1
-- if |P| > |L| then t = L/P < 1
--
--
-- let t = smaller / larger
--
-- let u = 1/sqrt(1+t*t) and w = sqrt(t*t/(1+t*t)) with
--
-- use (1 - 1/sqrt(1+t*t)) * (1 + 1/sqrt(1+t*t)) = t*t / (1 + t*t)
--
-- 1/sqrt(1+t*t) - 1 = - t*t/(sqrt(1+t*t) + 1+t*t)
-- = -(t/(sqrt(1+t*t))*(t/(1 + Sqrt(1+t*t)))
-- = - Abs (w) * Abs (t)/(1+ sqrt(1+t*t))
-- = u_lo
--
-- u_hi = 1 => u_lo + u_hi = 1/sqrt(1+t*t) = u = Abs (cs) if a<b
--
-- hypot = |L| * sqrt(1+t*t) = |L| * (1 + t*t/(1+sqrt(1+t*t)) = hi + lo if t<1
--
-- P : Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
-- L : Real := A(Low_Row, Pivot_Col);
procedure Get_Rotation_That_Zeros_Out_Low
(Pivot, Low : in Real;
sn, cs : out Real;
cs_minus_1 : out Real;
sn_minus_1 : out Real;
hypot : out Real;
P_bigger_than_L : out Boolean;
Skip_Rotation : out Boolean)
is
Emax : constant Integer := Real'Machine_Emax;
Emin : constant Integer := Real'Machine_Emin;
P, L, Abs_P, Abs_L : Real;
min_arg_over_hypot, max_arg_over_hypot_minus_1 : Real;
begin
if (not Low'Valid) or (not Pivot'Valid) then
raise Constraint_Error with "Invalid input data in Get_Rotation...";
end if;
P := Pivot; L := Low;
Abs_P := Abs (P); Abs_L := Abs (L);
-- default: no rotation is performed.
sn := Zero;
cs := One;
sn_minus_1 := -One;
cs_minus_1 := Zero;
hypot := Abs_P;
P_bigger_than_L := True;
Skip_Rotation := True;
if Abs_L < Two**Emin then
Skip_Rotation := True; -- use defaults
return;
end if;
if Abs_P < Two**Emin then
if Abs_L > Two**Emin then
sn := One;
cs := Zero;
sn_minus_1 := Zero;
cs_minus_1 := -One;
hypot := Abs_L;
P_bigger_than_L := False;
Skip_Rotation := False;
return;
else
Skip_Rotation := True; -- use defaults
return;
end if;
end if;
-- if the Low val is too small compared to the pivot, then
-- it contributes nothing to pivot after rotation ... but the row
-- still might contribute elsewhere.
if Abs_L < Two**(Emax - Emax/10 - Real'Machine_Radix - 1) and then
Abs_L * Two**(Emax/10 + Real'Machine_Radix) < Abs_P
then
Skip_Rotation := True;
return; -- use defaults, Skip_Rotation.
end if; -- essential optimisation.
if Abs_P > Abs_L then -- |s| <= |c|
Skip_Rotation := False;
P_bigger_than_L := True;
-- Want P>0 always, (for efficiency, since we use cos = P/R = 1 + (cos-1)),
-- so if P<0 then flip signs of both P and L
-- to ensure zero'd out element.
if P < Zero then P := -P; L := -L; end if;
Get_Hypotenuse (P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--cs := P / hypot; -- normally unused; set to default
sn := Real'Copy_Sign (min_arg_over_hypot, L);
--sn := L / hypot;
cs_minus_1 := max_arg_over_hypot_minus_1;
--cs_minus_1 := -Abs (sn) * Abs_L / hypot_plus_max_arg;
--cs_minus_1_over_sn := -L / hypot_plus_max_arg;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1: NOTICE <= !
Skip_Rotation := False;
P_bigger_than_L := False;
-- Want L>0 always. If L<0 then flip signs of both P and L
-- to ensure zero'd out element.
if L < Zero then P := -P; L := -L; end if;
Get_Hypotenuse
(P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--sn := L / hypot; -- set to default; unused
cs := Real'Copy_Sign (min_arg_over_hypot, P);
--cs := P / hypot;
sn_minus_1 := max_arg_over_hypot_minus_1;
--sn_minus_1 := -Abs (cs) * Abs_P / hypot_plus_max_arg;
--sn_minus_1_over_cs := -P / hypot_plus_max_arg;
end if;
end Get_Rotation_That_Zeros_Out_Low;
end Givens_Rotation;
| true |
---------------------------------------------------------------------------
-- package body Givens_Rotation
-- Copyright (C) 2018 PI:NAME:<NAME>END_PI.
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
---------------------------------------------------------------------------
with Hypot;
package body Givens_Rotation is
package Hypotenuse is new Hypot (Real); use Hypotenuse;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
-----------------------------------
-- Get_Rotation_That_Zeros_Out_L --
-----------------------------------
-- P = Pivot, L = Low.
--
-- cos = P/r, sin = L/r, Hypot = r = sqrt(P*P + L*L)
--
-- clockwise rotation: notice all rotations are centered on the diagonal
--
-- 1 0 0 0 0 0 0
-- 0 c s 0 0 P r
-- 0 -s c 0 0 x L = 0
-- 0 0 0 1 0 0 0
-- 0 0 0 0 1 0 0
--
--
-- if |L| >= |P| then t = P/L <= 1
-- if |P| > |L| then t = L/P < 1
--
--
-- let t = smaller / larger
--
-- let u = 1/sqrt(1+t*t) and w = sqrt(t*t/(1+t*t)) with
--
-- use (1 - 1/sqrt(1+t*t)) * (1 + 1/sqrt(1+t*t)) = t*t / (1 + t*t)
--
-- 1/sqrt(1+t*t) - 1 = - t*t/(sqrt(1+t*t) + 1+t*t)
-- = -(t/(sqrt(1+t*t))*(t/(1 + Sqrt(1+t*t)))
-- = - Abs (w) * Abs (t)/(1+ sqrt(1+t*t))
-- = u_lo
--
-- u_hi = 1 => u_lo + u_hi = 1/sqrt(1+t*t) = u = Abs (cs) if a<b
--
-- hypot = |L| * sqrt(1+t*t) = |L| * (1 + t*t/(1+sqrt(1+t*t)) = hi + lo if t<1
--
-- P : Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
-- L : Real := A(Low_Row, Pivot_Col);
procedure Get_Rotation_That_Zeros_Out_Low
(Pivot, Low : in Real;
sn, cs : out Real;
cs_minus_1 : out Real;
sn_minus_1 : out Real;
hypot : out Real;
P_bigger_than_L : out Boolean;
Skip_Rotation : out Boolean)
is
Emax : constant Integer := Real'Machine_Emax;
Emin : constant Integer := Real'Machine_Emin;
P, L, Abs_P, Abs_L : Real;
min_arg_over_hypot, max_arg_over_hypot_minus_1 : Real;
begin
if (not Low'Valid) or (not Pivot'Valid) then
raise Constraint_Error with "Invalid input data in Get_Rotation...";
end if;
P := Pivot; L := Low;
Abs_P := Abs (P); Abs_L := Abs (L);
-- default: no rotation is performed.
sn := Zero;
cs := One;
sn_minus_1 := -One;
cs_minus_1 := Zero;
hypot := Abs_P;
P_bigger_than_L := True;
Skip_Rotation := True;
if Abs_L < Two**Emin then
Skip_Rotation := True; -- use defaults
return;
end if;
if Abs_P < Two**Emin then
if Abs_L > Two**Emin then
sn := One;
cs := Zero;
sn_minus_1 := Zero;
cs_minus_1 := -One;
hypot := Abs_L;
P_bigger_than_L := False;
Skip_Rotation := False;
return;
else
Skip_Rotation := True; -- use defaults
return;
end if;
end if;
-- if the Low val is too small compared to the pivot, then
-- it contributes nothing to pivot after rotation ... but the row
-- still might contribute elsewhere.
if Abs_L < Two**(Emax - Emax/10 - Real'Machine_Radix - 1) and then
Abs_L * Two**(Emax/10 + Real'Machine_Radix) < Abs_P
then
Skip_Rotation := True;
return; -- use defaults, Skip_Rotation.
end if; -- essential optimisation.
if Abs_P > Abs_L then -- |s| <= |c|
Skip_Rotation := False;
P_bigger_than_L := True;
-- Want P>0 always, (for efficiency, since we use cos = P/R = 1 + (cos-1)),
-- so if P<0 then flip signs of both P and L
-- to ensure zero'd out element.
if P < Zero then P := -P; L := -L; end if;
Get_Hypotenuse (P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--cs := P / hypot; -- normally unused; set to default
sn := Real'Copy_Sign (min_arg_over_hypot, L);
--sn := L / hypot;
cs_minus_1 := max_arg_over_hypot_minus_1;
--cs_minus_1 := -Abs (sn) * Abs_L / hypot_plus_max_arg;
--cs_minus_1_over_sn := -L / hypot_plus_max_arg;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1: NOTICE <= !
Skip_Rotation := False;
P_bigger_than_L := False;
-- Want L>0 always. If L<0 then flip signs of both P and L
-- to ensure zero'd out element.
if L < Zero then P := -P; L := -L; end if;
Get_Hypotenuse
(P, L, hypot, min_arg_over_hypot, max_arg_over_hypot_minus_1);
--sn := L / hypot; -- set to default; unused
cs := Real'Copy_Sign (min_arg_over_hypot, P);
--cs := P / hypot;
sn_minus_1 := max_arg_over_hypot_minus_1;
--sn_minus_1 := -Abs (cs) * Abs_P / hypot_plus_max_arg;
--sn_minus_1_over_cs := -P / hypot_plus_max_arg;
end if;
end Get_Rotation_That_Zeros_Out_Low;
end Givens_Rotation;
|
[
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.9998877644538879,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999328851699829,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/uml/amf-internals-uml_final_states.adb | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Elements;
with AMF.Internals.Element_Collections;
with AMF.Internals.Helpers;
with AMF.Internals.Tables.UML_Attributes;
with AMF.Visitors.UML_Iterators;
with AMF.Visitors.UML_Visitors;
with League.Strings.Internals;
with Matreshka.Internals.Strings;
package body AMF.Internals.UML_Final_States is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Enter_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Leave_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant UML_Final_State_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.UML_Iterators.UML_Iterator'Class then
AMF.Visitors.UML_Iterators.UML_Iterator'Class
(Iterator).Visit_Final_State
(Visitor,
AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Visit_Element;
--------------------
-- Get_Connection --
--------------------
overriding function Get_Connection
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Connection_Point_References.Collections.Set_Of_UML_Connection_Point_Reference is
begin
return
AMF.UML.Connection_Point_References.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection
(Self.Element)));
end Get_Connection;
--------------------------
-- Get_Connection_Point --
--------------------------
overriding function Get_Connection_Point
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Pseudostates.Collections.Set_Of_UML_Pseudostate is
begin
return
AMF.UML.Pseudostates.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection_Point
(Self.Element)));
end Get_Connection_Point;
----------------------------
-- Get_Deferrable_Trigger --
----------------------------
overriding function Get_Deferrable_Trigger
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Triggers.Collections.Set_Of_UML_Trigger is
begin
return
AMF.UML.Triggers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Deferrable_Trigger
(Self.Element)));
end Get_Deferrable_Trigger;
---------------------
-- Get_Do_Activity --
---------------------
overriding function Get_Do_Activity
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Do_Activity
(Self.Element)));
end Get_Do_Activity;
---------------------
-- Set_Do_Activity --
---------------------
overriding procedure Set_Do_Activity
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Do_Activity
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Do_Activity;
---------------
-- Get_Entry --
---------------
overriding function Get_Entry
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Entry
(Self.Element)));
end Get_Entry;
---------------
-- Set_Entry --
---------------
overriding procedure Set_Entry
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Entry
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Entry;
--------------
-- Get_Exit --
--------------
overriding function Get_Exit
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Exit
(Self.Element)));
end Get_Exit;
--------------
-- Set_Exit --
--------------
overriding procedure Set_Exit
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Exit
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Exit;
----------------------
-- Get_Is_Composite --
----------------------
overriding function Get_Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Composite
(Self.Element);
end Get_Is_Composite;
-----------------------
-- Get_Is_Orthogonal --
-----------------------
overriding function Get_Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Orthogonal
(Self.Element);
end Get_Is_Orthogonal;
-------------------
-- Get_Is_Simple --
-------------------
overriding function Get_Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Simple
(Self.Element);
end Get_Is_Simple;
-----------------------------
-- Get_Is_Submachine_State --
-----------------------------
overriding function Get_Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Submachine_State
(Self.Element);
end Get_Is_Submachine_State;
-------------------------
-- Get_Redefined_State --
-------------------------
overriding function Get_Redefined_State
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.States.UML_State_Access is
begin
return
AMF.UML.States.UML_State_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_State
(Self.Element)));
end Get_Redefined_State;
-------------------------
-- Set_Redefined_State --
-------------------------
overriding procedure Set_Redefined_State
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.States.UML_State_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Redefined_State
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Redefined_State;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
raise Program_Error;
return Get_Redefinition_Context (Self);
end Get_Redefinition_Context;
----------------
-- Get_Region --
----------------
overriding function Get_Region
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.Collections.Set_Of_UML_Region is
begin
return
AMF.UML.Regions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Region
(Self.Element)));
end Get_Region;
-------------------------
-- Get_State_Invariant --
-------------------------
overriding function Get_State_Invariant
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.UML_Constraint_Access is
begin
return
AMF.UML.Constraints.UML_Constraint_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_State_Invariant
(Self.Element)));
end Get_State_Invariant;
-------------------------
-- Set_State_Invariant --
-------------------------
overriding procedure Set_State_Invariant
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Constraints.UML_Constraint_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_State_Invariant
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_State_Invariant;
--------------------
-- Get_Submachine --
--------------------
overriding function Get_Submachine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
return
AMF.UML.State_Machines.UML_State_Machine_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Submachine
(Self.Element)));
end Get_Submachine;
--------------------
-- Set_Submachine --
--------------------
overriding procedure Set_Submachine
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.State_Machines.UML_State_Machine_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Submachine
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Submachine;
-----------------
-- Get_Is_Leaf --
-----------------
overriding function Get_Is_Leaf
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Leaf
(Self.Element);
end Get_Is_Leaf;
-----------------
-- Set_Is_Leaf --
-----------------
overriding procedure Set_Is_Leaf
(Self : not null access UML_Final_State_Proxy;
To : Boolean) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Is_Leaf
(Self.Element, To);
end Set_Is_Leaf;
---------------------------
-- Get_Redefined_Element --
---------------------------
overriding function Get_Redefined_Element
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Redefinable_Elements.Collections.Set_Of_UML_Redefinable_Element is
begin
return
AMF.UML.Redefinable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_Element
(Self.Element)));
end Get_Redefined_Element;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.Collections.Set_Of_UML_Classifier is
begin
return
AMF.UML.Classifiers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefinition_Context
(Self.Element)));
end Get_Redefinition_Context;
---------------------------
-- Get_Client_Dependency --
---------------------------
overriding function Get_Client_Dependency
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Dependencies.Collections.Set_Of_UML_Dependency is
begin
return
AMF.UML.Dependencies.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Client_Dependency
(Self.Element)));
end Get_Client_Dependency;
-------------------------
-- Get_Name_Expression --
-------------------------
overriding function Get_Name_Expression
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.String_Expressions.UML_String_Expression_Access is
begin
return
AMF.UML.String_Expressions.UML_String_Expression_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Name_Expression
(Self.Element)));
end Get_Name_Expression;
-------------------------
-- Set_Name_Expression --
-------------------------
overriding procedure Set_Name_Expression
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.String_Expressions.UML_String_Expression_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Name_Expression
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Name_Expression;
-------------------
-- Get_Namespace --
-------------------
overriding function Get_Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
return
AMF.UML.Namespaces.UML_Namespace_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Namespace
(Self.Element)));
end Get_Namespace;
------------------------
-- Get_Qualified_Name --
------------------------
overriding function Get_Qualified_Name
(Self : not null access constant UML_Final_State_Proxy)
return AMF.Optional_String is
begin
declare
use type Matreshka.Internals.Strings.Shared_String_Access;
Aux : constant Matreshka.Internals.Strings.Shared_String_Access
:= AMF.Internals.Tables.UML_Attributes.Internal_Get_Qualified_Name (Self.Element);
begin
if Aux = null then
return (Is_Empty => True);
else
return (False, League.Strings.Internals.Create (Aux));
end if;
end;
end Get_Qualified_Name;
------------------------
-- Get_Element_Import --
------------------------
overriding function Get_Element_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Element_Imports.Collections.Set_Of_UML_Element_Import is
begin
return
AMF.UML.Element_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Element_Import
(Self.Element)));
end Get_Element_Import;
-------------------------
-- Get_Imported_Member --
-------------------------
overriding function Get_Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
return
AMF.UML.Packageable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Imported_Member
(Self.Element)));
end Get_Imported_Member;
----------------
-- Get_Member --
----------------
overriding function Get_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Member
(Self.Element)));
end Get_Member;
----------------------
-- Get_Owned_Member --
----------------------
overriding function Get_Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Member
(Self.Element)));
end Get_Owned_Member;
--------------------
-- Get_Owned_Rule --
--------------------
overriding function Get_Owned_Rule
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint is
begin
return
AMF.UML.Constraints.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Rule
(Self.Element)));
end Get_Owned_Rule;
------------------------
-- Get_Package_Import --
------------------------
overriding function Get_Package_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Package_Imports.Collections.Set_Of_UML_Package_Import is
begin
return
AMF.UML.Package_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Package_Import
(Self.Element)));
end Get_Package_Import;
-------------------
-- Get_Container --
-------------------
overriding function Get_Container
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.UML_Region_Access is
begin
return
AMF.UML.Regions.UML_Region_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Container
(Self.Element)));
end Get_Container;
-------------------
-- Set_Container --
-------------------
overriding procedure Set_Container
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Regions.UML_Region_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Container
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Container;
------------------
-- Get_Incoming --
------------------
overriding function Get_Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Incoming
(Self.Element)));
end Get_Incoming;
------------------
-- Get_Outgoing --
------------------
overriding function Get_Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Outgoing
(Self.Element)));
end Get_Outgoing;
------------------------------
-- Containing_State_Machine --
------------------------------
overriding function Containing_State_Machine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Containing_State_Machine unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Containing_State_Machine";
return Containing_State_Machine (Self);
end Containing_State_Machine;
------------------
-- Is_Composite --
------------------
overriding function Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Composite unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Composite";
return Is_Composite (Self);
end Is_Composite;
------------------------
-- Is_Consistent_With --
------------------------
overriding function Is_Consistent_With
(Self : not null access constant UML_Final_State_Proxy;
Redefinee : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Consistent_With unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Consistent_With";
return Is_Consistent_With (Self, Redefinee);
end Is_Consistent_With;
-------------------
-- Is_Orthogonal --
-------------------
overriding function Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Orthogonal unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Orthogonal";
return Is_Orthogonal (Self);
end Is_Orthogonal;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.States.UML_State_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
---------------
-- Is_Simple --
---------------
overriding function Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Simple unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Simple";
return Is_Simple (Self);
end Is_Simple;
-------------------------
-- Is_Submachine_State --
-------------------------
overriding function Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Submachine_State unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Submachine_State";
return Is_Submachine_State (Self);
end Is_Submachine_State;
--------------------------
-- Redefinition_Context --
--------------------------
overriding function Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Redefinition_Context unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Redefinition_Context";
return Redefinition_Context (Self);
end Redefinition_Context;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
-------------------------
-- All_Owning_Packages --
-------------------------
overriding function All_Owning_Packages
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packages.Collections.Set_Of_UML_Package is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owning_Packages unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.All_Owning_Packages";
return All_Owning_Packages (Self);
end All_Owning_Packages;
-----------------------------
-- Is_Distinguishable_From --
-----------------------------
overriding function Is_Distinguishable_From
(Self : not null access constant UML_Final_State_Proxy;
N : AMF.UML.Named_Elements.UML_Named_Element_Access;
Ns : AMF.UML.Namespaces.UML_Namespace_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Distinguishable_From unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Distinguishable_From";
return Is_Distinguishable_From (Self, N, Ns);
end Is_Distinguishable_From;
---------------
-- Namespace --
---------------
overriding function Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Namespace unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Namespace";
return Namespace (Self);
end Namespace;
------------------------
-- Exclude_Collisions --
------------------------
overriding function Exclude_Collisions
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Exclude_Collisions unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Exclude_Collisions";
return Exclude_Collisions (Self, Imps);
end Exclude_Collisions;
-------------------------
-- Get_Names_Of_Member --
-------------------------
overriding function Get_Names_Of_Member
(Self : not null access constant UML_Final_State_Proxy;
Element : AMF.UML.Named_Elements.UML_Named_Element_Access)
return AMF.String_Collections.Set_Of_String is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Names_Of_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Get_Names_Of_Member";
return Get_Names_Of_Member (Self, Element);
end Get_Names_Of_Member;
--------------------
-- Import_Members --
--------------------
overriding function Import_Members
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Import_Members unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Import_Members";
return Import_Members (Self, Imps);
end Import_Members;
---------------------
-- Imported_Member --
---------------------
overriding function Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Imported_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Imported_Member";
return Imported_Member (Self);
end Imported_Member;
---------------------------------
-- Members_Are_Distinguishable --
---------------------------------
overriding function Members_Are_Distinguishable
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Members_Are_Distinguishable unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Members_Are_Distinguishable";
return Members_Are_Distinguishable (Self);
end Members_Are_Distinguishable;
------------------
-- Owned_Member --
------------------
overriding function Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Owned_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Owned_Member";
return Owned_Member (Self);
end Owned_Member;
--------------
-- Incoming --
--------------
overriding function Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Incoming unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Incoming";
return Incoming (Self);
end Incoming;
--------------
-- Outgoing --
--------------
overriding function Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Outgoing unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Outgoing";
return Outgoing (Self);
end Outgoing;
end AMF.Internals.UML_Final_States;
| 14033 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Elements;
with AMF.Internals.Element_Collections;
with AMF.Internals.Helpers;
with AMF.Internals.Tables.UML_Attributes;
with AMF.Visitors.UML_Iterators;
with AMF.Visitors.UML_Visitors;
with League.Strings.Internals;
with Matreshka.Internals.Strings;
package body AMF.Internals.UML_Final_States is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Enter_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Leave_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant UML_Final_State_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.UML_Iterators.UML_Iterator'Class then
AMF.Visitors.UML_Iterators.UML_Iterator'Class
(Iterator).Visit_Final_State
(Visitor,
AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Visit_Element;
--------------------
-- Get_Connection --
--------------------
overriding function Get_Connection
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Connection_Point_References.Collections.Set_Of_UML_Connection_Point_Reference is
begin
return
AMF.UML.Connection_Point_References.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection
(Self.Element)));
end Get_Connection;
--------------------------
-- Get_Connection_Point --
--------------------------
overriding function Get_Connection_Point
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Pseudostates.Collections.Set_Of_UML_Pseudostate is
begin
return
AMF.UML.Pseudostates.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection_Point
(Self.Element)));
end Get_Connection_Point;
----------------------------
-- Get_Deferrable_Trigger --
----------------------------
overriding function Get_Deferrable_Trigger
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Triggers.Collections.Set_Of_UML_Trigger is
begin
return
AMF.UML.Triggers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Deferrable_Trigger
(Self.Element)));
end Get_Deferrable_Trigger;
---------------------
-- Get_Do_Activity --
---------------------
overriding function Get_Do_Activity
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Do_Activity
(Self.Element)));
end Get_Do_Activity;
---------------------
-- Set_Do_Activity --
---------------------
overriding procedure Set_Do_Activity
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Do_Activity
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Do_Activity;
---------------
-- Get_Entry --
---------------
overriding function Get_Entry
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Entry
(Self.Element)));
end Get_Entry;
---------------
-- Set_Entry --
---------------
overriding procedure Set_Entry
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Entry
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Entry;
--------------
-- Get_Exit --
--------------
overriding function Get_Exit
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Exit
(Self.Element)));
end Get_Exit;
--------------
-- Set_Exit --
--------------
overriding procedure Set_Exit
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Exit
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Exit;
----------------------
-- Get_Is_Composite --
----------------------
overriding function Get_Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Composite
(Self.Element);
end Get_Is_Composite;
-----------------------
-- Get_Is_Orthogonal --
-----------------------
overriding function Get_Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Orthogonal
(Self.Element);
end Get_Is_Orthogonal;
-------------------
-- Get_Is_Simple --
-------------------
overriding function Get_Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Simple
(Self.Element);
end Get_Is_Simple;
-----------------------------
-- Get_Is_Submachine_State --
-----------------------------
overriding function Get_Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Submachine_State
(Self.Element);
end Get_Is_Submachine_State;
-------------------------
-- Get_Redefined_State --
-------------------------
overriding function Get_Redefined_State
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.States.UML_State_Access is
begin
return
AMF.UML.States.UML_State_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_State
(Self.Element)));
end Get_Redefined_State;
-------------------------
-- Set_Redefined_State --
-------------------------
overriding procedure Set_Redefined_State
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.States.UML_State_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Redefined_State
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Redefined_State;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
raise Program_Error;
return Get_Redefinition_Context (Self);
end Get_Redefinition_Context;
----------------
-- Get_Region --
----------------
overriding function Get_Region
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.Collections.Set_Of_UML_Region is
begin
return
AMF.UML.Regions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Region
(Self.Element)));
end Get_Region;
-------------------------
-- Get_State_Invariant --
-------------------------
overriding function Get_State_Invariant
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.UML_Constraint_Access is
begin
return
AMF.UML.Constraints.UML_Constraint_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_State_Invariant
(Self.Element)));
end Get_State_Invariant;
-------------------------
-- Set_State_Invariant --
-------------------------
overriding procedure Set_State_Invariant
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Constraints.UML_Constraint_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_State_Invariant
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_State_Invariant;
--------------------
-- Get_Submachine --
--------------------
overriding function Get_Submachine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
return
AMF.UML.State_Machines.UML_State_Machine_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Submachine
(Self.Element)));
end Get_Submachine;
--------------------
-- Set_Submachine --
--------------------
overriding procedure Set_Submachine
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.State_Machines.UML_State_Machine_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Submachine
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Submachine;
-----------------
-- Get_Is_Leaf --
-----------------
overriding function Get_Is_Leaf
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Leaf
(Self.Element);
end Get_Is_Leaf;
-----------------
-- Set_Is_Leaf --
-----------------
overriding procedure Set_Is_Leaf
(Self : not null access UML_Final_State_Proxy;
To : Boolean) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Is_Leaf
(Self.Element, To);
end Set_Is_Leaf;
---------------------------
-- Get_Redefined_Element --
---------------------------
overriding function Get_Redefined_Element
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Redefinable_Elements.Collections.Set_Of_UML_Redefinable_Element is
begin
return
AMF.UML.Redefinable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_Element
(Self.Element)));
end Get_Redefined_Element;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.Collections.Set_Of_UML_Classifier is
begin
return
AMF.UML.Classifiers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefinition_Context
(Self.Element)));
end Get_Redefinition_Context;
---------------------------
-- Get_Client_Dependency --
---------------------------
overriding function Get_Client_Dependency
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Dependencies.Collections.Set_Of_UML_Dependency is
begin
return
AMF.UML.Dependencies.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Client_Dependency
(Self.Element)));
end Get_Client_Dependency;
-------------------------
-- Get_Name_Expression --
-------------------------
overriding function Get_Name_Expression
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.String_Expressions.UML_String_Expression_Access is
begin
return
AMF.UML.String_Expressions.UML_String_Expression_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Name_Expression
(Self.Element)));
end Get_Name_Expression;
-------------------------
-- Set_Name_Expression --
-------------------------
overriding procedure Set_Name_Expression
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.String_Expressions.UML_String_Expression_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Name_Expression
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Name_Expression;
-------------------
-- Get_Namespace --
-------------------
overriding function Get_Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
return
AMF.UML.Namespaces.UML_Namespace_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Namespace
(Self.Element)));
end Get_Namespace;
------------------------
-- Get_Qualified_Name --
------------------------
overriding function Get_Qualified_Name
(Self : not null access constant UML_Final_State_Proxy)
return AMF.Optional_String is
begin
declare
use type Matreshka.Internals.Strings.Shared_String_Access;
Aux : constant Matreshka.Internals.Strings.Shared_String_Access
:= AMF.Internals.Tables.UML_Attributes.Internal_Get_Qualified_Name (Self.Element);
begin
if Aux = null then
return (Is_Empty => True);
else
return (False, League.Strings.Internals.Create (Aux));
end if;
end;
end Get_Qualified_Name;
------------------------
-- Get_Element_Import --
------------------------
overriding function Get_Element_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Element_Imports.Collections.Set_Of_UML_Element_Import is
begin
return
AMF.UML.Element_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Element_Import
(Self.Element)));
end Get_Element_Import;
-------------------------
-- Get_Imported_Member --
-------------------------
overriding function Get_Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
return
AMF.UML.Packageable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Imported_Member
(Self.Element)));
end Get_Imported_Member;
----------------
-- Get_Member --
----------------
overriding function Get_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Member
(Self.Element)));
end Get_Member;
----------------------
-- Get_Owned_Member --
----------------------
overriding function Get_Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Member
(Self.Element)));
end Get_Owned_Member;
--------------------
-- Get_Owned_Rule --
--------------------
overriding function Get_Owned_Rule
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint is
begin
return
AMF.UML.Constraints.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Rule
(Self.Element)));
end Get_Owned_Rule;
------------------------
-- Get_Package_Import --
------------------------
overriding function Get_Package_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Package_Imports.Collections.Set_Of_UML_Package_Import is
begin
return
AMF.UML.Package_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Package_Import
(Self.Element)));
end Get_Package_Import;
-------------------
-- Get_Container --
-------------------
overriding function Get_Container
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.UML_Region_Access is
begin
return
AMF.UML.Regions.UML_Region_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Container
(Self.Element)));
end Get_Container;
-------------------
-- Set_Container --
-------------------
overriding procedure Set_Container
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Regions.UML_Region_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Container
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Container;
------------------
-- Get_Incoming --
------------------
overriding function Get_Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Incoming
(Self.Element)));
end Get_Incoming;
------------------
-- Get_Outgoing --
------------------
overriding function Get_Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Outgoing
(Self.Element)));
end Get_Outgoing;
------------------------------
-- Containing_State_Machine --
------------------------------
overriding function Containing_State_Machine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Containing_State_Machine unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Containing_State_Machine";
return Containing_State_Machine (Self);
end Containing_State_Machine;
------------------
-- Is_Composite --
------------------
overriding function Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Composite unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Composite";
return Is_Composite (Self);
end Is_Composite;
------------------------
-- Is_Consistent_With --
------------------------
overriding function Is_Consistent_With
(Self : not null access constant UML_Final_State_Proxy;
Redefinee : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Consistent_With unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Consistent_With";
return Is_Consistent_With (Self, Redefinee);
end Is_Consistent_With;
-------------------
-- Is_Orthogonal --
-------------------
overriding function Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Orthogonal unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Orthogonal";
return Is_Orthogonal (Self);
end Is_Orthogonal;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.States.UML_State_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
---------------
-- Is_Simple --
---------------
overriding function Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Simple unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Simple";
return Is_Simple (Self);
end Is_Simple;
-------------------------
-- Is_Submachine_State --
-------------------------
overriding function Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Submachine_State unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Submachine_State";
return Is_Submachine_State (Self);
end Is_Submachine_State;
--------------------------
-- Redefinition_Context --
--------------------------
overriding function Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Redefinition_Context unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Redefinition_Context";
return Redefinition_Context (Self);
end Redefinition_Context;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
-------------------------
-- All_Owning_Packages --
-------------------------
overriding function All_Owning_Packages
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packages.Collections.Set_Of_UML_Package is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owning_Packages unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.All_Owning_Packages";
return All_Owning_Packages (Self);
end All_Owning_Packages;
-----------------------------
-- Is_Distinguishable_From --
-----------------------------
overriding function Is_Distinguishable_From
(Self : not null access constant UML_Final_State_Proxy;
N : AMF.UML.Named_Elements.UML_Named_Element_Access;
Ns : AMF.UML.Namespaces.UML_Namespace_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Distinguishable_From unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Distinguishable_From";
return Is_Distinguishable_From (Self, N, Ns);
end Is_Distinguishable_From;
---------------
-- Namespace --
---------------
overriding function Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Namespace unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Namespace";
return Namespace (Self);
end Namespace;
------------------------
-- Exclude_Collisions --
------------------------
overriding function Exclude_Collisions
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Exclude_Collisions unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Exclude_Collisions";
return Exclude_Collisions (Self, Imps);
end Exclude_Collisions;
-------------------------
-- Get_Names_Of_Member --
-------------------------
overriding function Get_Names_Of_Member
(Self : not null access constant UML_Final_State_Proxy;
Element : AMF.UML.Named_Elements.UML_Named_Element_Access)
return AMF.String_Collections.Set_Of_String is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Names_Of_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Get_Names_Of_Member";
return Get_Names_Of_Member (Self, Element);
end Get_Names_Of_Member;
--------------------
-- Import_Members --
--------------------
overriding function Import_Members
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Import_Members unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Import_Members";
return Import_Members (Self, Imps);
end Import_Members;
---------------------
-- Imported_Member --
---------------------
overriding function Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Imported_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Imported_Member";
return Imported_Member (Self);
end Imported_Member;
---------------------------------
-- Members_Are_Distinguishable --
---------------------------------
overriding function Members_Are_Distinguishable
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Members_Are_Distinguishable unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Members_Are_Distinguishable";
return Members_Are_Distinguishable (Self);
end Members_Are_Distinguishable;
------------------
-- Owned_Member --
------------------
overriding function Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Owned_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Owned_Member";
return Owned_Member (Self);
end Owned_Member;
--------------
-- Incoming --
--------------
overriding function Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Incoming unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Incoming";
return Incoming (Self);
end Incoming;
--------------
-- Outgoing --
--------------
overriding function Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Outgoing unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Outgoing";
return Outgoing (Self);
end Outgoing;
end AMF.Internals.UML_Final_States;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Elements;
with AMF.Internals.Element_Collections;
with AMF.Internals.Helpers;
with AMF.Internals.Tables.UML_Attributes;
with AMF.Visitors.UML_Iterators;
with AMF.Visitors.UML_Visitors;
with League.Strings.Internals;
with Matreshka.Internals.Strings;
package body AMF.Internals.UML_Final_States is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Enter_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant UML_Final_State_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.UML_Visitors.UML_Visitor'Class then
AMF.Visitors.UML_Visitors.UML_Visitor'Class
(Visitor).Leave_Final_State
(AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant UML_Final_State_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.UML_Iterators.UML_Iterator'Class then
AMF.Visitors.UML_Iterators.UML_Iterator'Class
(Iterator).Visit_Final_State
(Visitor,
AMF.UML.Final_States.UML_Final_State_Access (Self),
Control);
end if;
end Visit_Element;
--------------------
-- Get_Connection --
--------------------
overriding function Get_Connection
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Connection_Point_References.Collections.Set_Of_UML_Connection_Point_Reference is
begin
return
AMF.UML.Connection_Point_References.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection
(Self.Element)));
end Get_Connection;
--------------------------
-- Get_Connection_Point --
--------------------------
overriding function Get_Connection_Point
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Pseudostates.Collections.Set_Of_UML_Pseudostate is
begin
return
AMF.UML.Pseudostates.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Connection_Point
(Self.Element)));
end Get_Connection_Point;
----------------------------
-- Get_Deferrable_Trigger --
----------------------------
overriding function Get_Deferrable_Trigger
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Triggers.Collections.Set_Of_UML_Trigger is
begin
return
AMF.UML.Triggers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Deferrable_Trigger
(Self.Element)));
end Get_Deferrable_Trigger;
---------------------
-- Get_Do_Activity --
---------------------
overriding function Get_Do_Activity
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Do_Activity
(Self.Element)));
end Get_Do_Activity;
---------------------
-- Set_Do_Activity --
---------------------
overriding procedure Set_Do_Activity
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Do_Activity
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Do_Activity;
---------------
-- Get_Entry --
---------------
overriding function Get_Entry
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Entry
(Self.Element)));
end Get_Entry;
---------------
-- Set_Entry --
---------------
overriding procedure Set_Entry
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Entry
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Entry;
--------------
-- Get_Exit --
--------------
overriding function Get_Exit
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Behaviors.UML_Behavior_Access is
begin
return
AMF.UML.Behaviors.UML_Behavior_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Exit
(Self.Element)));
end Get_Exit;
--------------
-- Set_Exit --
--------------
overriding procedure Set_Exit
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Behaviors.UML_Behavior_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Exit
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Exit;
----------------------
-- Get_Is_Composite --
----------------------
overriding function Get_Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Composite
(Self.Element);
end Get_Is_Composite;
-----------------------
-- Get_Is_Orthogonal --
-----------------------
overriding function Get_Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Orthogonal
(Self.Element);
end Get_Is_Orthogonal;
-------------------
-- Get_Is_Simple --
-------------------
overriding function Get_Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Simple
(Self.Element);
end Get_Is_Simple;
-----------------------------
-- Get_Is_Submachine_State --
-----------------------------
overriding function Get_Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Submachine_State
(Self.Element);
end Get_Is_Submachine_State;
-------------------------
-- Get_Redefined_State --
-------------------------
overriding function Get_Redefined_State
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.States.UML_State_Access is
begin
return
AMF.UML.States.UML_State_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_State
(Self.Element)));
end Get_Redefined_State;
-------------------------
-- Set_Redefined_State --
-------------------------
overriding procedure Set_Redefined_State
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.States.UML_State_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Redefined_State
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Redefined_State;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
raise Program_Error;
return Get_Redefinition_Context (Self);
end Get_Redefinition_Context;
----------------
-- Get_Region --
----------------
overriding function Get_Region
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.Collections.Set_Of_UML_Region is
begin
return
AMF.UML.Regions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Region
(Self.Element)));
end Get_Region;
-------------------------
-- Get_State_Invariant --
-------------------------
overriding function Get_State_Invariant
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.UML_Constraint_Access is
begin
return
AMF.UML.Constraints.UML_Constraint_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_State_Invariant
(Self.Element)));
end Get_State_Invariant;
-------------------------
-- Set_State_Invariant --
-------------------------
overriding procedure Set_State_Invariant
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Constraints.UML_Constraint_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_State_Invariant
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_State_Invariant;
--------------------
-- Get_Submachine --
--------------------
overriding function Get_Submachine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
return
AMF.UML.State_Machines.UML_State_Machine_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Submachine
(Self.Element)));
end Get_Submachine;
--------------------
-- Set_Submachine --
--------------------
overriding procedure Set_Submachine
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.State_Machines.UML_State_Machine_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Submachine
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Submachine;
-----------------
-- Get_Is_Leaf --
-----------------
overriding function Get_Is_Leaf
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
return
AMF.Internals.Tables.UML_Attributes.Internal_Get_Is_Leaf
(Self.Element);
end Get_Is_Leaf;
-----------------
-- Set_Is_Leaf --
-----------------
overriding procedure Set_Is_Leaf
(Self : not null access UML_Final_State_Proxy;
To : Boolean) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Is_Leaf
(Self.Element, To);
end Set_Is_Leaf;
---------------------------
-- Get_Redefined_Element --
---------------------------
overriding function Get_Redefined_Element
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Redefinable_Elements.Collections.Set_Of_UML_Redefinable_Element is
begin
return
AMF.UML.Redefinable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefined_Element
(Self.Element)));
end Get_Redefined_Element;
------------------------------
-- Get_Redefinition_Context --
------------------------------
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.Collections.Set_Of_UML_Classifier is
begin
return
AMF.UML.Classifiers.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Redefinition_Context
(Self.Element)));
end Get_Redefinition_Context;
---------------------------
-- Get_Client_Dependency --
---------------------------
overriding function Get_Client_Dependency
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Dependencies.Collections.Set_Of_UML_Dependency is
begin
return
AMF.UML.Dependencies.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Client_Dependency
(Self.Element)));
end Get_Client_Dependency;
-------------------------
-- Get_Name_Expression --
-------------------------
overriding function Get_Name_Expression
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.String_Expressions.UML_String_Expression_Access is
begin
return
AMF.UML.String_Expressions.UML_String_Expression_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Name_Expression
(Self.Element)));
end Get_Name_Expression;
-------------------------
-- Set_Name_Expression --
-------------------------
overriding procedure Set_Name_Expression
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.String_Expressions.UML_String_Expression_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Name_Expression
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Name_Expression;
-------------------
-- Get_Namespace --
-------------------
overriding function Get_Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
return
AMF.UML.Namespaces.UML_Namespace_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Namespace
(Self.Element)));
end Get_Namespace;
------------------------
-- Get_Qualified_Name --
------------------------
overriding function Get_Qualified_Name
(Self : not null access constant UML_Final_State_Proxy)
return AMF.Optional_String is
begin
declare
use type Matreshka.Internals.Strings.Shared_String_Access;
Aux : constant Matreshka.Internals.Strings.Shared_String_Access
:= AMF.Internals.Tables.UML_Attributes.Internal_Get_Qualified_Name (Self.Element);
begin
if Aux = null then
return (Is_Empty => True);
else
return (False, League.Strings.Internals.Create (Aux));
end if;
end;
end Get_Qualified_Name;
------------------------
-- Get_Element_Import --
------------------------
overriding function Get_Element_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Element_Imports.Collections.Set_Of_UML_Element_Import is
begin
return
AMF.UML.Element_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Element_Import
(Self.Element)));
end Get_Element_Import;
-------------------------
-- Get_Imported_Member --
-------------------------
overriding function Get_Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
return
AMF.UML.Packageable_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Imported_Member
(Self.Element)));
end Get_Imported_Member;
----------------
-- Get_Member --
----------------
overriding function Get_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Member
(Self.Element)));
end Get_Member;
----------------------
-- Get_Owned_Member --
----------------------
overriding function Get_Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
return
AMF.UML.Named_Elements.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Member
(Self.Element)));
end Get_Owned_Member;
--------------------
-- Get_Owned_Rule --
--------------------
overriding function Get_Owned_Rule
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint is
begin
return
AMF.UML.Constraints.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Owned_Rule
(Self.Element)));
end Get_Owned_Rule;
------------------------
-- Get_Package_Import --
------------------------
overriding function Get_Package_Import
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Package_Imports.Collections.Set_Of_UML_Package_Import is
begin
return
AMF.UML.Package_Imports.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Package_Import
(Self.Element)));
end Get_Package_Import;
-------------------
-- Get_Container --
-------------------
overriding function Get_Container
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Regions.UML_Region_Access is
begin
return
AMF.UML.Regions.UML_Region_Access
(AMF.Internals.Helpers.To_Element
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Container
(Self.Element)));
end Get_Container;
-------------------
-- Set_Container --
-------------------
overriding procedure Set_Container
(Self : not null access UML_Final_State_Proxy;
To : AMF.UML.Regions.UML_Region_Access) is
begin
AMF.Internals.Tables.UML_Attributes.Internal_Set_Container
(Self.Element,
AMF.Internals.Helpers.To_Element
(AMF.Elements.Element_Access (To)));
end Set_Container;
------------------
-- Get_Incoming --
------------------
overriding function Get_Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Incoming
(Self.Element)));
end Get_Incoming;
------------------
-- Get_Outgoing --
------------------
overriding function Get_Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
return
AMF.UML.Transitions.Collections.Wrap
(AMF.Internals.Element_Collections.Wrap
(AMF.Internals.Tables.UML_Attributes.Internal_Get_Outgoing
(Self.Element)));
end Get_Outgoing;
------------------------------
-- Containing_State_Machine --
------------------------------
overriding function Containing_State_Machine
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.State_Machines.UML_State_Machine_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Containing_State_Machine unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Containing_State_Machine";
return Containing_State_Machine (Self);
end Containing_State_Machine;
------------------
-- Is_Composite --
------------------
overriding function Is_Composite
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Composite unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Composite";
return Is_Composite (Self);
end Is_Composite;
------------------------
-- Is_Consistent_With --
------------------------
overriding function Is_Consistent_With
(Self : not null access constant UML_Final_State_Proxy;
Redefinee : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Consistent_With unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Consistent_With";
return Is_Consistent_With (Self, Redefinee);
end Is_Consistent_With;
-------------------
-- Is_Orthogonal --
-------------------
overriding function Is_Orthogonal
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Orthogonal unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Orthogonal";
return Is_Orthogonal (Self);
end Is_Orthogonal;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.States.UML_State_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
---------------
-- Is_Simple --
---------------
overriding function Is_Simple
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Simple unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Simple";
return Is_Simple (Self);
end Is_Simple;
-------------------------
-- Is_Submachine_State --
-------------------------
overriding function Is_Submachine_State
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Submachine_State unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Submachine_State";
return Is_Submachine_State (Self);
end Is_Submachine_State;
--------------------------
-- Redefinition_Context --
--------------------------
overriding function Redefinition_Context
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Redefinition_Context unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Redefinition_Context";
return Redefinition_Context (Self);
end Redefinition_Context;
-----------------------------------
-- Is_Redefinition_Context_Valid --
-----------------------------------
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Final_State_Proxy;
Redefined : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Redefinition_Context_Valid unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Redefinition_Context_Valid";
return Is_Redefinition_Context_Valid (Self, Redefined);
end Is_Redefinition_Context_Valid;
-------------------------
-- All_Owning_Packages --
-------------------------
overriding function All_Owning_Packages
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packages.Collections.Set_Of_UML_Package is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owning_Packages unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.All_Owning_Packages";
return All_Owning_Packages (Self);
end All_Owning_Packages;
-----------------------------
-- Is_Distinguishable_From --
-----------------------------
overriding function Is_Distinguishable_From
(Self : not null access constant UML_Final_State_Proxy;
N : AMF.UML.Named_Elements.UML_Named_Element_Access;
Ns : AMF.UML.Namespaces.UML_Namespace_Access)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Is_Distinguishable_From unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Is_Distinguishable_From";
return Is_Distinguishable_From (Self, N, Ns);
end Is_Distinguishable_From;
---------------
-- Namespace --
---------------
overriding function Namespace
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Namespace unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Namespace";
return Namespace (Self);
end Namespace;
------------------------
-- Exclude_Collisions --
------------------------
overriding function Exclude_Collisions
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Exclude_Collisions unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Exclude_Collisions";
return Exclude_Collisions (Self, Imps);
end Exclude_Collisions;
-------------------------
-- Get_Names_Of_Member --
-------------------------
overriding function Get_Names_Of_Member
(Self : not null access constant UML_Final_State_Proxy;
Element : AMF.UML.Named_Elements.UML_Named_Element_Access)
return AMF.String_Collections.Set_Of_String is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Names_Of_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Get_Names_Of_Member";
return Get_Names_Of_Member (Self, Element);
end Get_Names_Of_Member;
--------------------
-- Import_Members --
--------------------
overriding function Import_Members
(Self : not null access constant UML_Final_State_Proxy;
Imps : AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Import_Members unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Import_Members";
return Import_Members (Self, Imps);
end Import_Members;
---------------------
-- Imported_Member --
---------------------
overriding function Imported_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Packageable_Elements.Collections.Set_Of_UML_Packageable_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Imported_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Imported_Member";
return Imported_Member (Self);
end Imported_Member;
---------------------------------
-- Members_Are_Distinguishable --
---------------------------------
overriding function Members_Are_Distinguishable
(Self : not null access constant UML_Final_State_Proxy)
return Boolean is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Members_Are_Distinguishable unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Members_Are_Distinguishable";
return Members_Are_Distinguishable (Self);
end Members_Are_Distinguishable;
------------------
-- Owned_Member --
------------------
overriding function Owned_Member
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Named_Elements.Collections.Set_Of_UML_Named_Element is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Owned_Member unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Owned_Member";
return Owned_Member (Self);
end Owned_Member;
--------------
-- Incoming --
--------------
overriding function Incoming
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Incoming unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Incoming";
return Incoming (Self);
end Incoming;
--------------
-- Outgoing --
--------------
overriding function Outgoing
(Self : not null access constant UML_Final_State_Proxy)
return AMF.UML.Transitions.Collections.Set_Of_UML_Transition is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Outgoing unimplemented");
raise Program_Error with "Unimplemented procedure UML_Final_State_Proxy.Outgoing";
return Outgoing (Self);
end Outgoing;
end AMF.Internals.UML_Final_States;
|
[
{
"context": "--\n-- Jan & Uwe R. Zimmer, Australia, 2013\n--\n\nwith Ada.Con",
"end": 9,
"score": 0.9998628497123718,
"start": 6,
"tag": "NAME",
"value": "Jan"
},
{
"context": "--\n-- Jan & Uwe R. Zimmer, Australia, 2013\n--\n\nwith Ada.Containers; ",
"end": 25,
"score": 0.9998263120651245,
"start": 12,
"tag": "NAME",
"value": "Uwe R. Zimmer"
}
] | Sources/Swarm/swarm_control.adb | ForYouEyesOnly/Space-Convoy | 1 | --
-- Jan & Uwe R. Zimmer, Australia, 2013
--
with Ada.Containers; use Ada.Containers;
with Ada.Numerics; use Ada.Numerics;
with Ada.Numerics.Float_Random; use Ada.Numerics.Float_Random;
with Ada.Real_Time; use Ada.Real_Time;
with Ada.Text_IO; use Ada.Text_IO;
with Graphics_Configuration; use Graphics_Configuration;
with Rotations; use Rotations;
with Swarm_Data; use Swarm_Data;
with Vectors_Conversions; use Vectors_Conversions;
with Vectors_3D_LF; use Vectors_3D_LF;
with Vehicle_Message_Type; use Vehicle_Message_Type;
with Vehicle_Task_Type; use Vehicle_Task_Type;
package body Swarm_Control is
use Real_Elementary_Functions;
use Swarm_Vectors;
protected body Swarm_Monitor is
function Id_Task return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Current_Task then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Id_Task (Id : Task_Id) return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Id then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Position (Id : Task_Id) return Protected_Point_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Position);
function Velocity (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Velocity);
function Acceleration (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Acceleration);
function Controls (Id : Task_Id) return Vehicle_Controls_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Controls);
function Comms (Id : Task_Id) return Vehicle_Comms_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Comms);
function Charge (Id : Task_Id) return Charge_Info is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Charge);
function Process_abort return Barrier_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task).Process_abort);
--
--
--
procedure Append_Random_Swarm (No_Of_Swarm_Elements : Positive := Initial_No_of_Elements;
Centre : Positions := Initial_Swarm_Position;
Volume_Edge_Length : Real := Initual_Edge_Length) is
Random_Float : Generator;
begin
Reset (Random_Float);
Reserve_Capacity (Swarm_State, Length (Swarm_State) + Count_Type (No_Of_Swarm_Elements));
for i in 1 .. No_Of_Swarm_Elements loop
select
pragma Warnings (Off, "potentially blocking operation in protected operation");
delay Tolerated_Vehicle_Activation_Delay;
pragma Warnings (On, "potentially blocking operation in protected operation");
raise Vehicle_could_not_be_created;
then abort
declare
New_Element : Swarm_Element_State :=
(Position => Protected_Point_3D.Allocate
((Centre (x) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (y) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (z) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0)),
Rotation => Protected_Rotation.Allocate (Zero_Rotation),
Velocity => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Acceleration => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Charge => (Level => Full_Charge, Charge_Time => Protected_Time.Allocate (Clock), Charge_No => 0, Globes_Touched => No_Globes_Touched),
Neighbours => new Distance_Vectors.Vector,
Controls => new Vehicle_Controls,
Comms => new Vehicle_Comms,
Process => new Vehicle_Task,
Process_abort => new Barrier,
Process_Id => Null_Task_Id,
Vehicle_Id => Natural'Succ (Last_Vehicle_Id),
Last_Update => Clock);
begin
Last_Vehicle_Id := New_Element.Vehicle_Id;
pragma Warnings (Off, "potentially blocking operation in protected operation");
-- Freshly created vehicle tasks need to respond to this call.
select
New_Element.Process.all.Identify (New_Element.Vehicle_Id, New_Element.Process_Id);
or delay Tolerated_Identify_Call_Delay;
raise Task_did_not_repond_to_Identfiy_Call;
end select;
pragma Warnings (On, "potentially blocking operation in protected operation");
Append (Swarm_State, New_Element);
end;
end select;
end loop;
end Append_Random_Swarm;
--
--
--
procedure Remove_Vehicle (Element_Ix : Swarm_Element_Index) is
begin
if Length (Swarm_State) > 1 and then Element_Ix >= First_Index (Swarm_State) and then Element_Ix <= Last_Index (Swarm_State) then
declare
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Ix);
begin
Free_Process (This_Element.Process);
Free (This_Element.Process_abort);
Free_Neighbours (This_Element.Neighbours);
Free_Comms (This_Element.Comms);
Free_Controls (This_Element.Controls);
Protected_Time.Free (This_Element.Charge.Charge_Time);
Protected_Point_3D.Free (This_Element.Position);
Protected_Rotation.Free (This_Element.Rotation);
Protected_Vector_3D.Free (This_Element.Velocity);
Protected_Vector_3D.Free (This_Element.Acceleration);
Delete (Swarm_State, Element_Ix);
end;
end if;
end Remove_Vehicle;
--
--
--
function Centre_Of_Gravity return Vector_3D is
Acc_Positions : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Positions := Acc_Positions + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Position.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Positions);
end Centre_Of_Gravity;
--
--
--
function Mean_Velocity return Vector_3D is
Acc_Velocity : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Velocity);
end Mean_Velocity;
--
--
--
function Mean_Velocity return Real is
Acc_Velocity : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + Real (abs (To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read)));
end loop;
return Real (Acc_Velocity / Real (Length (Swarm_State)));
end Mean_Velocity;
--
--
--
function Maximal_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Radius := Real'Max (Radius, Distance_from_CoG);
end;
end loop;
return Radius;
end Maximal_Radius;
--
--
--
function Mean_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Acc_Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Acc_Radius := Acc_Radius + Distance_from_CoG;
end;
end loop;
return Real (Acc_Radius / Real (Length (Swarm_State)));
end Mean_Radius;
--
--
--
function Mean_Closest_Distance return Real is
Acc_Distance : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Neighbours : constant Distance_Vectors.Vector := This_Element.Neighbours.all;
begin
if Distance_Vectors.Length (Neighbours) > 0 then
declare
Closest_Distance : constant Real :=
Distance_Vectors.Element (Neighbours, Distance_Vectors.First_Index (Neighbours)).Distance;
begin
Acc_Distance := Acc_Distance + Closest_Distance;
end;
end if;
end;
end loop;
return Real (Acc_Distance / Real (Length (Swarm_State)));
end Mean_Closest_Distance;
--
end Swarm_Monitor;
--
--
--
procedure Remove_Vehicle_in_Stages (Element_Ix : Swarm_Element_Index) is
Tolerated_Termination_Time : constant Duration := To_Duration (Milliseconds (100));
begin
Element (Swarm_State, Element_Ix).Process_abort.all.Open;
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Warning: Vehicle task termination request ignored - attempting task abort now");
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Error: Vehicle task stuck in non-abortable code region - task abort failed");
then abort
Abort_Task (Element (Swarm_State, Element_Ix).Process_Id);
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
then abort
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
Swarm_Monitor.Remove_Vehicle (Element_Ix);
end Remove_Vehicle_in_Stages;
procedure Remove_Vehicles (No_Of_Swarm_Elements : Positive := 1) is
begin
if Natural (Length (Swarm_State)) >= No_Of_Swarm_Elements then
for Element_Index in Last_Index (Swarm_State) - No_Of_Swarm_Elements + 1 .. Last_Index (Swarm_State) loop
Remove_Vehicle_in_Stages (Element_Index);
end loop;
end if;
end Remove_Vehicles;
--
--
--
procedure Sorted_Close_Distances (Close_Dist : in out Distance_Vectors.Vector;
Element_Index : Swarm_Element_Index;
Max_Distance : Distances) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
This_Position : constant Positions := This_Element.Position.all.Read;
begin
Distance_Vectors.Clear (Close_Dist);
Distance_Vectors.Reserve_Capacity (Close_Dist, Length (Swarm_State) - 1);
for Scan_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element_Index /= Scan_Index then
declare
Test_Element : constant Swarm_Element_State := Element (Swarm_State, Scan_Index);
Test_Position : constant Positions := Test_Element.Position.all.Read;
Test_Direction : constant Vector_3D := This_Position - Test_Position;
Test_Distance : constant Distances := abs (Test_Direction);
begin
if Test_Distance <= Max_Distance then
Distance_Vectors.Append (Close_Dist, (Index => Scan_Index,
Distance => Test_Distance,
Position_Diff => Test_Direction,
Velocity_Diff => This_Element.Velocity.all.Read - Test_Element.Velocity.all.Read));
end if;
end;
end if;
end loop;
Sort_Distances.Sort (Close_Dist);
end Sorted_Close_Distances;
--
--
--
procedure Set_Acceleration (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Acceleration : Accelerations := Zero_Vector_3D;
begin
Sorted_Close_Distances (This_Element.Neighbours.all, Element_Index, Detection_Range);
for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
-- Uncontrolled vehicles
if This_Element.Controls.all.Read_Throttle = 0.0 then
-- Attraction and repulsion forces between vehicles
Acceleration := Acceleration + Inter_Swarm_Acceleration (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
-- Alignment forces
if Distance_Entry.Distance <= Velocity_Matching_Range then
Acceleration := Acceleration + Velocity_Matching (This_Element.Velocity.all.Read, Distance_Entry.Velocity_Diff);
end if;
-- Controlled vehicles
elsif Distance_Entry.Distance <= Unconditional_Repulse_Dist then
-- Unconditional repulsion for controlled vehicles
Acceleration := Acceleration + Inter_Swarm_Repulsion (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
end if;
end;
end loop;
-- Controlled vehicles
if This_Element.Controls.all.Read_Throttle /= 0.0 then
-- Approach the set target
declare
Target_Vector : constant Vector_3D := This_Element.Controls.all.Read_Steering - This_Element.Position.all.Read;
Norm_Target_Vector : constant Vector_3D := Norm (Target_Vector);
Abs_Target_Vector : constant Real := abs (Target_Vector);
Abs_Velocity : constant Real := abs (This_Element.Velocity.all.Read);
Angle_Between_Target_and_Velocity : constant Real := Angle_Between (Target_Vector, This_Element.Velocity.all.Read);
begin
if Abs_Target_Vector < Target_Fetch_Range then
-- Target reached, switch to idle throttle
This_Element.Controls.all.Set_Throttle (Idle_Throttle);
else
-- Accelerate to constant speed towards target, dampen lateral velocities
Acceleration := Acceleration
+ (This_Element.Controls.all.Read_Throttle
* Approach_Acceleration (Abs_Velocity * Cos (Angle_Between_Target_and_Velocity))
* Norm_Target_Vector)
- Norm (This_Element.Velocity.all.Read) * (Intented_Framerate / 5.0) * Abs_Velocity * Sin (Angle_Between_Target_and_Velocity);
end if;
end;
end if;
-- Friction
This_Element.Acceleration.all.Write (Acceleration - Norm (This_Element.Velocity.all.Read) * (abs (This_Element.Velocity.all.Read) * Friction)**2);
Replace_Element (Swarm_State, Element_Index, This_Element);
end Set_Acceleration;
--
--
--
procedure Set_All_Accelerations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Set_Acceleration (Element_Index);
end loop;
end Set_All_Accelerations;
--
--
--
procedure Forward_Messages (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Message_To_Be_Distributed : Inter_Vehicle_Messages;
begin
while This_Element.Comms.all.Has_Outgoing_Messages loop
This_Element.Comms.all.Fetch_Message (Message_To_Be_Distributed);
Check_Neighbours : for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
if Distance_Entry.Distance <= Comms_Range then
Element (Swarm_State, Distance_Entry.Index).Comms.all.Push_Message (Message_To_Be_Distributed);
else
exit Check_Neighbours;
end if;
end;
end loop Check_Neighbours;
end loop;
end Forward_Messages;
--
--
--
procedure Forward_All_Messages is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Forward_Messages (Element_Index);
end loop;
end Forward_All_Messages;
--
--
--
procedure Move_Element (Element_Index : Swarm_Element_Index) is
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Index);
Interval : constant Real := Real'Min (Real (To_Duration (Clock - This_Element.Last_Update)), Max_Update_Interval);
begin
This_Element.Velocity.all.Write (This_Element.Velocity.all.Read + (Interval * This_Element.Acceleration.all.Read));
declare
Move_Start : constant Positions := This_Element.Position.all.Read;
Move_End : constant Positions := Move_Start + (Interval * This_Element.Velocity.all.Read);
begin
This_Element.Position.all.Write (Move_End);
This_Element.Charge.Level := Vehicle_Charges
(Real'Max (Real (Empty_Charge),
Real'Min (Real (Full_Charge),
Real (This_Element.Charge.Level)
- (Interval
* (Charging_Setup.Constant_Discharge_Rate_Per_Sec
+ Charging_Setup.Propulsion_Discharge_Rate_Per_Sec * abs (This_Element.Acceleration.all.Read))))));
for Globe_Ix in Globes'Range loop
declare
Globe_Pos : constant Positions := Globes (Globe_Ix).Position.all.Read;
Interratio : constant Real := (Globe_Pos - Move_Start) * ((Move_End - Move_Start) / (abs (Move_End - Move_Start)));
Intersection : constant Positions := Move_Start + Interratio * (Move_End - Move_Start);
Touching : constant Boolean := abs (Intersection - Globe_Pos) <= Energy_Globe_Detection and then Interratio >= 0.0 and then Interratio <= 1.0;
Slot_Passed : constant Boolean := Clock - This_Element.Charge.Charge_Time.all.Read > Charging_Setup.Max_Globe_Interval;
begin
if (not This_Element.Charge.Globes_Touched (Globe_Ix) or else Slot_Passed) and then Touching then
if Slot_Passed then
This_Element.Charge.Globes_Touched := No_Globes_Touched;
This_Element.Charge.Charge_No := 0;
end if;
This_Element.Charge.Charge_No := This_Element.Charge.Charge_No + 1;
This_Element.Charge.Globes_Touched (Globe_Ix) := True;
This_Element.Charge.Charge_Time.all.Write (Clock);
if This_Element.Charge.Charge_No = Charging_Setup.Globes_Required then
This_Element.Charge.Level := Full_Charge;
This_Element.Charge.Charge_No := 0;
This_Element.Charge.Globes_Touched := No_Globes_Touched;
end if;
end if;
end;
end loop;
end;
This_Element.Last_Update := Clock;
Replace_Element (Swarm_State, Element_Index, This_Element);
end Move_Element;
--
--
--
procedure Move_All_Elements is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Move_Element (Element_Index);
end loop;
end Move_All_Elements;
--
--
--
procedure Update_Rotation (Element_Index : Swarm_Element_Index) is
function Vector_Yaw (In_Vector : Vector_3D) return Real is
(if In_Vector (x) = 0.0 and then In_Vector (z) = 0.0
then 0.0
else Arctan (In_Vector (x), In_Vector (z)));
function Vector_Pitch (In_Vector : Vector_3D) return Real is
((Pi / 2.0) - Angle_Between (In_Vector, (0.0, 1.0, 0.0)));
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Velocity : constant Vector_3D := This_Element.Velocity.all.Read;
Element_Yaw : constant Real := Vector_Yaw (Velocity);
Element_Pitch : constant Real := Vector_Pitch (Velocity);
Rotation : constant Quaternion_Rotation := To_Rotation (0.0, -Element_Pitch, Element_Yaw + Pi);
Norm_Acc : constant Vector_3D := Rotate (This_Element.Acceleration.all.Read, Rotation);
Lateral_Acc : constant Real := Norm_Acc (x) * abs (Velocity);
Element_Roll : constant Real :=
Real'Max (-Pi / 2.0,
Real'Min (Pi / 2.0,
Lateral_Acc * (Pi / 2.0) / Max_Assumed_Acceleration));
begin
This_Element.Rotation.all.Write (To_Rotation (Element_Roll, -Element_Pitch, -Element_Yaw + Pi));
Replace_Element (Swarm_State, Element_Index, This_Element);
end Update_Rotation;
---
---
---
procedure Update_All_Rotations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Update_Rotation (Element_Index);
end loop;
end Update_All_Rotations;
--
--
--
procedure Remove_Empties is
begin
if Length (Swarm_State) > 1 then
declare
Element_Index : Swarm_Element_Index := First_Index (Swarm_State);
begin
while Element_Index <= Last_Index (Swarm_State) and then Length (Swarm_State) > 1 loop
if Element (Swarm_State, Element_Index).Charge.Level = Empty_Charge then
Remove_Vehicle_in_Stages (Element_Index);
else
Element_Index := Element_Index + 1;
end if;
end loop;
end;
end if;
end Remove_Empties;
end Swarm_Control;
| 22159 | --
-- <NAME> & <NAME>, Australia, 2013
--
with Ada.Containers; use Ada.Containers;
with Ada.Numerics; use Ada.Numerics;
with Ada.Numerics.Float_Random; use Ada.Numerics.Float_Random;
with Ada.Real_Time; use Ada.Real_Time;
with Ada.Text_IO; use Ada.Text_IO;
with Graphics_Configuration; use Graphics_Configuration;
with Rotations; use Rotations;
with Swarm_Data; use Swarm_Data;
with Vectors_Conversions; use Vectors_Conversions;
with Vectors_3D_LF; use Vectors_3D_LF;
with Vehicle_Message_Type; use Vehicle_Message_Type;
with Vehicle_Task_Type; use Vehicle_Task_Type;
package body Swarm_Control is
use Real_Elementary_Functions;
use Swarm_Vectors;
protected body Swarm_Monitor is
function Id_Task return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Current_Task then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Id_Task (Id : Task_Id) return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Id then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Position (Id : Task_Id) return Protected_Point_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Position);
function Velocity (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Velocity);
function Acceleration (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Acceleration);
function Controls (Id : Task_Id) return Vehicle_Controls_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Controls);
function Comms (Id : Task_Id) return Vehicle_Comms_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Comms);
function Charge (Id : Task_Id) return Charge_Info is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Charge);
function Process_abort return Barrier_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task).Process_abort);
--
--
--
procedure Append_Random_Swarm (No_Of_Swarm_Elements : Positive := Initial_No_of_Elements;
Centre : Positions := Initial_Swarm_Position;
Volume_Edge_Length : Real := Initual_Edge_Length) is
Random_Float : Generator;
begin
Reset (Random_Float);
Reserve_Capacity (Swarm_State, Length (Swarm_State) + Count_Type (No_Of_Swarm_Elements));
for i in 1 .. No_Of_Swarm_Elements loop
select
pragma Warnings (Off, "potentially blocking operation in protected operation");
delay Tolerated_Vehicle_Activation_Delay;
pragma Warnings (On, "potentially blocking operation in protected operation");
raise Vehicle_could_not_be_created;
then abort
declare
New_Element : Swarm_Element_State :=
(Position => Protected_Point_3D.Allocate
((Centre (x) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (y) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (z) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0)),
Rotation => Protected_Rotation.Allocate (Zero_Rotation),
Velocity => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Acceleration => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Charge => (Level => Full_Charge, Charge_Time => Protected_Time.Allocate (Clock), Charge_No => 0, Globes_Touched => No_Globes_Touched),
Neighbours => new Distance_Vectors.Vector,
Controls => new Vehicle_Controls,
Comms => new Vehicle_Comms,
Process => new Vehicle_Task,
Process_abort => new Barrier,
Process_Id => Null_Task_Id,
Vehicle_Id => Natural'Succ (Last_Vehicle_Id),
Last_Update => Clock);
begin
Last_Vehicle_Id := New_Element.Vehicle_Id;
pragma Warnings (Off, "potentially blocking operation in protected operation");
-- Freshly created vehicle tasks need to respond to this call.
select
New_Element.Process.all.Identify (New_Element.Vehicle_Id, New_Element.Process_Id);
or delay Tolerated_Identify_Call_Delay;
raise Task_did_not_repond_to_Identfiy_Call;
end select;
pragma Warnings (On, "potentially blocking operation in protected operation");
Append (Swarm_State, New_Element);
end;
end select;
end loop;
end Append_Random_Swarm;
--
--
--
procedure Remove_Vehicle (Element_Ix : Swarm_Element_Index) is
begin
if Length (Swarm_State) > 1 and then Element_Ix >= First_Index (Swarm_State) and then Element_Ix <= Last_Index (Swarm_State) then
declare
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Ix);
begin
Free_Process (This_Element.Process);
Free (This_Element.Process_abort);
Free_Neighbours (This_Element.Neighbours);
Free_Comms (This_Element.Comms);
Free_Controls (This_Element.Controls);
Protected_Time.Free (This_Element.Charge.Charge_Time);
Protected_Point_3D.Free (This_Element.Position);
Protected_Rotation.Free (This_Element.Rotation);
Protected_Vector_3D.Free (This_Element.Velocity);
Protected_Vector_3D.Free (This_Element.Acceleration);
Delete (Swarm_State, Element_Ix);
end;
end if;
end Remove_Vehicle;
--
--
--
function Centre_Of_Gravity return Vector_3D is
Acc_Positions : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Positions := Acc_Positions + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Position.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Positions);
end Centre_Of_Gravity;
--
--
--
function Mean_Velocity return Vector_3D is
Acc_Velocity : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Velocity);
end Mean_Velocity;
--
--
--
function Mean_Velocity return Real is
Acc_Velocity : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + Real (abs (To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read)));
end loop;
return Real (Acc_Velocity / Real (Length (Swarm_State)));
end Mean_Velocity;
--
--
--
function Maximal_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Radius := Real'Max (Radius, Distance_from_CoG);
end;
end loop;
return Radius;
end Maximal_Radius;
--
--
--
function Mean_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Acc_Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Acc_Radius := Acc_Radius + Distance_from_CoG;
end;
end loop;
return Real (Acc_Radius / Real (Length (Swarm_State)));
end Mean_Radius;
--
--
--
function Mean_Closest_Distance return Real is
Acc_Distance : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Neighbours : constant Distance_Vectors.Vector := This_Element.Neighbours.all;
begin
if Distance_Vectors.Length (Neighbours) > 0 then
declare
Closest_Distance : constant Real :=
Distance_Vectors.Element (Neighbours, Distance_Vectors.First_Index (Neighbours)).Distance;
begin
Acc_Distance := Acc_Distance + Closest_Distance;
end;
end if;
end;
end loop;
return Real (Acc_Distance / Real (Length (Swarm_State)));
end Mean_Closest_Distance;
--
end Swarm_Monitor;
--
--
--
procedure Remove_Vehicle_in_Stages (Element_Ix : Swarm_Element_Index) is
Tolerated_Termination_Time : constant Duration := To_Duration (Milliseconds (100));
begin
Element (Swarm_State, Element_Ix).Process_abort.all.Open;
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Warning: Vehicle task termination request ignored - attempting task abort now");
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Error: Vehicle task stuck in non-abortable code region - task abort failed");
then abort
Abort_Task (Element (Swarm_State, Element_Ix).Process_Id);
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
then abort
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
Swarm_Monitor.Remove_Vehicle (Element_Ix);
end Remove_Vehicle_in_Stages;
procedure Remove_Vehicles (No_Of_Swarm_Elements : Positive := 1) is
begin
if Natural (Length (Swarm_State)) >= No_Of_Swarm_Elements then
for Element_Index in Last_Index (Swarm_State) - No_Of_Swarm_Elements + 1 .. Last_Index (Swarm_State) loop
Remove_Vehicle_in_Stages (Element_Index);
end loop;
end if;
end Remove_Vehicles;
--
--
--
procedure Sorted_Close_Distances (Close_Dist : in out Distance_Vectors.Vector;
Element_Index : Swarm_Element_Index;
Max_Distance : Distances) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
This_Position : constant Positions := This_Element.Position.all.Read;
begin
Distance_Vectors.Clear (Close_Dist);
Distance_Vectors.Reserve_Capacity (Close_Dist, Length (Swarm_State) - 1);
for Scan_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element_Index /= Scan_Index then
declare
Test_Element : constant Swarm_Element_State := Element (Swarm_State, Scan_Index);
Test_Position : constant Positions := Test_Element.Position.all.Read;
Test_Direction : constant Vector_3D := This_Position - Test_Position;
Test_Distance : constant Distances := abs (Test_Direction);
begin
if Test_Distance <= Max_Distance then
Distance_Vectors.Append (Close_Dist, (Index => Scan_Index,
Distance => Test_Distance,
Position_Diff => Test_Direction,
Velocity_Diff => This_Element.Velocity.all.Read - Test_Element.Velocity.all.Read));
end if;
end;
end if;
end loop;
Sort_Distances.Sort (Close_Dist);
end Sorted_Close_Distances;
--
--
--
procedure Set_Acceleration (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Acceleration : Accelerations := Zero_Vector_3D;
begin
Sorted_Close_Distances (This_Element.Neighbours.all, Element_Index, Detection_Range);
for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
-- Uncontrolled vehicles
if This_Element.Controls.all.Read_Throttle = 0.0 then
-- Attraction and repulsion forces between vehicles
Acceleration := Acceleration + Inter_Swarm_Acceleration (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
-- Alignment forces
if Distance_Entry.Distance <= Velocity_Matching_Range then
Acceleration := Acceleration + Velocity_Matching (This_Element.Velocity.all.Read, Distance_Entry.Velocity_Diff);
end if;
-- Controlled vehicles
elsif Distance_Entry.Distance <= Unconditional_Repulse_Dist then
-- Unconditional repulsion for controlled vehicles
Acceleration := Acceleration + Inter_Swarm_Repulsion (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
end if;
end;
end loop;
-- Controlled vehicles
if This_Element.Controls.all.Read_Throttle /= 0.0 then
-- Approach the set target
declare
Target_Vector : constant Vector_3D := This_Element.Controls.all.Read_Steering - This_Element.Position.all.Read;
Norm_Target_Vector : constant Vector_3D := Norm (Target_Vector);
Abs_Target_Vector : constant Real := abs (Target_Vector);
Abs_Velocity : constant Real := abs (This_Element.Velocity.all.Read);
Angle_Between_Target_and_Velocity : constant Real := Angle_Between (Target_Vector, This_Element.Velocity.all.Read);
begin
if Abs_Target_Vector < Target_Fetch_Range then
-- Target reached, switch to idle throttle
This_Element.Controls.all.Set_Throttle (Idle_Throttle);
else
-- Accelerate to constant speed towards target, dampen lateral velocities
Acceleration := Acceleration
+ (This_Element.Controls.all.Read_Throttle
* Approach_Acceleration (Abs_Velocity * Cos (Angle_Between_Target_and_Velocity))
* Norm_Target_Vector)
- Norm (This_Element.Velocity.all.Read) * (Intented_Framerate / 5.0) * Abs_Velocity * Sin (Angle_Between_Target_and_Velocity);
end if;
end;
end if;
-- Friction
This_Element.Acceleration.all.Write (Acceleration - Norm (This_Element.Velocity.all.Read) * (abs (This_Element.Velocity.all.Read) * Friction)**2);
Replace_Element (Swarm_State, Element_Index, This_Element);
end Set_Acceleration;
--
--
--
procedure Set_All_Accelerations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Set_Acceleration (Element_Index);
end loop;
end Set_All_Accelerations;
--
--
--
procedure Forward_Messages (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Message_To_Be_Distributed : Inter_Vehicle_Messages;
begin
while This_Element.Comms.all.Has_Outgoing_Messages loop
This_Element.Comms.all.Fetch_Message (Message_To_Be_Distributed);
Check_Neighbours : for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
if Distance_Entry.Distance <= Comms_Range then
Element (Swarm_State, Distance_Entry.Index).Comms.all.Push_Message (Message_To_Be_Distributed);
else
exit Check_Neighbours;
end if;
end;
end loop Check_Neighbours;
end loop;
end Forward_Messages;
--
--
--
procedure Forward_All_Messages is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Forward_Messages (Element_Index);
end loop;
end Forward_All_Messages;
--
--
--
procedure Move_Element (Element_Index : Swarm_Element_Index) is
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Index);
Interval : constant Real := Real'Min (Real (To_Duration (Clock - This_Element.Last_Update)), Max_Update_Interval);
begin
This_Element.Velocity.all.Write (This_Element.Velocity.all.Read + (Interval * This_Element.Acceleration.all.Read));
declare
Move_Start : constant Positions := This_Element.Position.all.Read;
Move_End : constant Positions := Move_Start + (Interval * This_Element.Velocity.all.Read);
begin
This_Element.Position.all.Write (Move_End);
This_Element.Charge.Level := Vehicle_Charges
(Real'Max (Real (Empty_Charge),
Real'Min (Real (Full_Charge),
Real (This_Element.Charge.Level)
- (Interval
* (Charging_Setup.Constant_Discharge_Rate_Per_Sec
+ Charging_Setup.Propulsion_Discharge_Rate_Per_Sec * abs (This_Element.Acceleration.all.Read))))));
for Globe_Ix in Globes'Range loop
declare
Globe_Pos : constant Positions := Globes (Globe_Ix).Position.all.Read;
Interratio : constant Real := (Globe_Pos - Move_Start) * ((Move_End - Move_Start) / (abs (Move_End - Move_Start)));
Intersection : constant Positions := Move_Start + Interratio * (Move_End - Move_Start);
Touching : constant Boolean := abs (Intersection - Globe_Pos) <= Energy_Globe_Detection and then Interratio >= 0.0 and then Interratio <= 1.0;
Slot_Passed : constant Boolean := Clock - This_Element.Charge.Charge_Time.all.Read > Charging_Setup.Max_Globe_Interval;
begin
if (not This_Element.Charge.Globes_Touched (Globe_Ix) or else Slot_Passed) and then Touching then
if Slot_Passed then
This_Element.Charge.Globes_Touched := No_Globes_Touched;
This_Element.Charge.Charge_No := 0;
end if;
This_Element.Charge.Charge_No := This_Element.Charge.Charge_No + 1;
This_Element.Charge.Globes_Touched (Globe_Ix) := True;
This_Element.Charge.Charge_Time.all.Write (Clock);
if This_Element.Charge.Charge_No = Charging_Setup.Globes_Required then
This_Element.Charge.Level := Full_Charge;
This_Element.Charge.Charge_No := 0;
This_Element.Charge.Globes_Touched := No_Globes_Touched;
end if;
end if;
end;
end loop;
end;
This_Element.Last_Update := Clock;
Replace_Element (Swarm_State, Element_Index, This_Element);
end Move_Element;
--
--
--
procedure Move_All_Elements is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Move_Element (Element_Index);
end loop;
end Move_All_Elements;
--
--
--
procedure Update_Rotation (Element_Index : Swarm_Element_Index) is
function Vector_Yaw (In_Vector : Vector_3D) return Real is
(if In_Vector (x) = 0.0 and then In_Vector (z) = 0.0
then 0.0
else Arctan (In_Vector (x), In_Vector (z)));
function Vector_Pitch (In_Vector : Vector_3D) return Real is
((Pi / 2.0) - Angle_Between (In_Vector, (0.0, 1.0, 0.0)));
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Velocity : constant Vector_3D := This_Element.Velocity.all.Read;
Element_Yaw : constant Real := Vector_Yaw (Velocity);
Element_Pitch : constant Real := Vector_Pitch (Velocity);
Rotation : constant Quaternion_Rotation := To_Rotation (0.0, -Element_Pitch, Element_Yaw + Pi);
Norm_Acc : constant Vector_3D := Rotate (This_Element.Acceleration.all.Read, Rotation);
Lateral_Acc : constant Real := Norm_Acc (x) * abs (Velocity);
Element_Roll : constant Real :=
Real'Max (-Pi / 2.0,
Real'Min (Pi / 2.0,
Lateral_Acc * (Pi / 2.0) / Max_Assumed_Acceleration));
begin
This_Element.Rotation.all.Write (To_Rotation (Element_Roll, -Element_Pitch, -Element_Yaw + Pi));
Replace_Element (Swarm_State, Element_Index, This_Element);
end Update_Rotation;
---
---
---
procedure Update_All_Rotations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Update_Rotation (Element_Index);
end loop;
end Update_All_Rotations;
--
--
--
procedure Remove_Empties is
begin
if Length (Swarm_State) > 1 then
declare
Element_Index : Swarm_Element_Index := First_Index (Swarm_State);
begin
while Element_Index <= Last_Index (Swarm_State) and then Length (Swarm_State) > 1 loop
if Element (Swarm_State, Element_Index).Charge.Level = Empty_Charge then
Remove_Vehicle_in_Stages (Element_Index);
else
Element_Index := Element_Index + 1;
end if;
end loop;
end;
end if;
end Remove_Empties;
end Swarm_Control;
| true | --
-- PI:NAME:<NAME>END_PI & PI:NAME:<NAME>END_PI, Australia, 2013
--
with Ada.Containers; use Ada.Containers;
with Ada.Numerics; use Ada.Numerics;
with Ada.Numerics.Float_Random; use Ada.Numerics.Float_Random;
with Ada.Real_Time; use Ada.Real_Time;
with Ada.Text_IO; use Ada.Text_IO;
with Graphics_Configuration; use Graphics_Configuration;
with Rotations; use Rotations;
with Swarm_Data; use Swarm_Data;
with Vectors_Conversions; use Vectors_Conversions;
with Vectors_3D_LF; use Vectors_3D_LF;
with Vehicle_Message_Type; use Vehicle_Message_Type;
with Vehicle_Task_Type; use Vehicle_Task_Type;
package body Swarm_Control is
use Real_Elementary_Functions;
use Swarm_Vectors;
protected body Swarm_Monitor is
function Id_Task return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Current_Task then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Id_Task (Id : Task_Id) return Swarm_Element_Index is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element (Swarm_State, Element_Index).Process_Id = Id then
return (Element_Index);
end if;
end loop;
raise No_Such_Task;
end Id_Task;
function Position (Id : Task_Id) return Protected_Point_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Position);
function Velocity (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Velocity);
function Acceleration (Id : Task_Id) return Protected_Vector_3D.Monitor_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Acceleration);
function Controls (Id : Task_Id) return Vehicle_Controls_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Controls);
function Comms (Id : Task_Id) return Vehicle_Comms_P is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Comms);
function Charge (Id : Task_Id) return Charge_Info is
(Element (Swarm_State, Swarm_Monitor.Id_Task (Current_Task)).Charge);
function Process_abort return Barrier_Ptr is
(Element (Swarm_State, Swarm_Monitor.Id_Task).Process_abort);
--
--
--
procedure Append_Random_Swarm (No_Of_Swarm_Elements : Positive := Initial_No_of_Elements;
Centre : Positions := Initial_Swarm_Position;
Volume_Edge_Length : Real := Initual_Edge_Length) is
Random_Float : Generator;
begin
Reset (Random_Float);
Reserve_Capacity (Swarm_State, Length (Swarm_State) + Count_Type (No_Of_Swarm_Elements));
for i in 1 .. No_Of_Swarm_Elements loop
select
pragma Warnings (Off, "potentially blocking operation in protected operation");
delay Tolerated_Vehicle_Activation_Delay;
pragma Warnings (On, "potentially blocking operation in protected operation");
raise Vehicle_could_not_be_created;
then abort
declare
New_Element : Swarm_Element_State :=
(Position => Protected_Point_3D.Allocate
((Centre (x) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (y) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0,
Centre (z) + (Real (Random (Random_Float)) * Volume_Edge_Length) - Volume_Edge_Length / 2.0)),
Rotation => Protected_Rotation.Allocate (Zero_Rotation),
Velocity => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Acceleration => Protected_Vector_3D.Allocate (Zero_Vector_3D),
Charge => (Level => Full_Charge, Charge_Time => Protected_Time.Allocate (Clock), Charge_No => 0, Globes_Touched => No_Globes_Touched),
Neighbours => new Distance_Vectors.Vector,
Controls => new Vehicle_Controls,
Comms => new Vehicle_Comms,
Process => new Vehicle_Task,
Process_abort => new Barrier,
Process_Id => Null_Task_Id,
Vehicle_Id => Natural'Succ (Last_Vehicle_Id),
Last_Update => Clock);
begin
Last_Vehicle_Id := New_Element.Vehicle_Id;
pragma Warnings (Off, "potentially blocking operation in protected operation");
-- Freshly created vehicle tasks need to respond to this call.
select
New_Element.Process.all.Identify (New_Element.Vehicle_Id, New_Element.Process_Id);
or delay Tolerated_Identify_Call_Delay;
raise Task_did_not_repond_to_Identfiy_Call;
end select;
pragma Warnings (On, "potentially blocking operation in protected operation");
Append (Swarm_State, New_Element);
end;
end select;
end loop;
end Append_Random_Swarm;
--
--
--
procedure Remove_Vehicle (Element_Ix : Swarm_Element_Index) is
begin
if Length (Swarm_State) > 1 and then Element_Ix >= First_Index (Swarm_State) and then Element_Ix <= Last_Index (Swarm_State) then
declare
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Ix);
begin
Free_Process (This_Element.Process);
Free (This_Element.Process_abort);
Free_Neighbours (This_Element.Neighbours);
Free_Comms (This_Element.Comms);
Free_Controls (This_Element.Controls);
Protected_Time.Free (This_Element.Charge.Charge_Time);
Protected_Point_3D.Free (This_Element.Position);
Protected_Rotation.Free (This_Element.Rotation);
Protected_Vector_3D.Free (This_Element.Velocity);
Protected_Vector_3D.Free (This_Element.Acceleration);
Delete (Swarm_State, Element_Ix);
end;
end if;
end Remove_Vehicle;
--
--
--
function Centre_Of_Gravity return Vector_3D is
Acc_Positions : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Positions := Acc_Positions + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Position.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Positions);
end Centre_Of_Gravity;
--
--
--
function Mean_Velocity return Vector_3D is
Acc_Velocity : Vector_3D_LF := Zero_Vector_3D_LF;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read);
end loop;
return To_Vector_3D ((1.0 / Long_Float (Length (Swarm_State))) * Acc_Velocity);
end Mean_Velocity;
--
--
--
function Mean_Velocity return Real is
Acc_Velocity : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Acc_Velocity := Acc_Velocity + Real (abs (To_Vector_3D_LF (Element (Swarm_State, Element_Index).Velocity.all.Read)));
end loop;
return Real (Acc_Velocity / Real (Length (Swarm_State)));
end Mean_Velocity;
--
--
--
function Maximal_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Radius := Real'Max (Radius, Distance_from_CoG);
end;
end loop;
return Radius;
end Maximal_Radius;
--
--
--
function Mean_Radius return Real is
CoG : constant Vector_3D := Centre_Of_Gravity;
Acc_Radius : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
Distance_from_CoG : constant Real := abs (CoG - Element (Swarm_State, Element_Index).Position.all.Read);
begin
Acc_Radius := Acc_Radius + Distance_from_CoG;
end;
end loop;
return Real (Acc_Radius / Real (Length (Swarm_State)));
end Mean_Radius;
--
--
--
function Mean_Closest_Distance return Real is
Acc_Distance : Real := 0.0;
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
declare
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Neighbours : constant Distance_Vectors.Vector := This_Element.Neighbours.all;
begin
if Distance_Vectors.Length (Neighbours) > 0 then
declare
Closest_Distance : constant Real :=
Distance_Vectors.Element (Neighbours, Distance_Vectors.First_Index (Neighbours)).Distance;
begin
Acc_Distance := Acc_Distance + Closest_Distance;
end;
end if;
end;
end loop;
return Real (Acc_Distance / Real (Length (Swarm_State)));
end Mean_Closest_Distance;
--
end Swarm_Monitor;
--
--
--
procedure Remove_Vehicle_in_Stages (Element_Ix : Swarm_Element_Index) is
Tolerated_Termination_Time : constant Duration := To_Duration (Milliseconds (100));
begin
Element (Swarm_State, Element_Ix).Process_abort.all.Open;
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Warning: Vehicle task termination request ignored - attempting task abort now");
select
delay Tolerated_Termination_Time;
Put_Line (Current_Error, "Error: Vehicle task stuck in non-abortable code region - task abort failed");
then abort
Abort_Task (Element (Swarm_State, Element_Ix).Process_Id);
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
then abort
loop
exit when Is_Terminated (Element (Swarm_State, Element_Ix).Process_Id);
delay 0.0;
end loop;
end select;
Swarm_Monitor.Remove_Vehicle (Element_Ix);
end Remove_Vehicle_in_Stages;
procedure Remove_Vehicles (No_Of_Swarm_Elements : Positive := 1) is
begin
if Natural (Length (Swarm_State)) >= No_Of_Swarm_Elements then
for Element_Index in Last_Index (Swarm_State) - No_Of_Swarm_Elements + 1 .. Last_Index (Swarm_State) loop
Remove_Vehicle_in_Stages (Element_Index);
end loop;
end if;
end Remove_Vehicles;
--
--
--
procedure Sorted_Close_Distances (Close_Dist : in out Distance_Vectors.Vector;
Element_Index : Swarm_Element_Index;
Max_Distance : Distances) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
This_Position : constant Positions := This_Element.Position.all.Read;
begin
Distance_Vectors.Clear (Close_Dist);
Distance_Vectors.Reserve_Capacity (Close_Dist, Length (Swarm_State) - 1);
for Scan_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
if Element_Index /= Scan_Index then
declare
Test_Element : constant Swarm_Element_State := Element (Swarm_State, Scan_Index);
Test_Position : constant Positions := Test_Element.Position.all.Read;
Test_Direction : constant Vector_3D := This_Position - Test_Position;
Test_Distance : constant Distances := abs (Test_Direction);
begin
if Test_Distance <= Max_Distance then
Distance_Vectors.Append (Close_Dist, (Index => Scan_Index,
Distance => Test_Distance,
Position_Diff => Test_Direction,
Velocity_Diff => This_Element.Velocity.all.Read - Test_Element.Velocity.all.Read));
end if;
end;
end if;
end loop;
Sort_Distances.Sort (Close_Dist);
end Sorted_Close_Distances;
--
--
--
procedure Set_Acceleration (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Acceleration : Accelerations := Zero_Vector_3D;
begin
Sorted_Close_Distances (This_Element.Neighbours.all, Element_Index, Detection_Range);
for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
-- Uncontrolled vehicles
if This_Element.Controls.all.Read_Throttle = 0.0 then
-- Attraction and repulsion forces between vehicles
Acceleration := Acceleration + Inter_Swarm_Acceleration (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
-- Alignment forces
if Distance_Entry.Distance <= Velocity_Matching_Range then
Acceleration := Acceleration + Velocity_Matching (This_Element.Velocity.all.Read, Distance_Entry.Velocity_Diff);
end if;
-- Controlled vehicles
elsif Distance_Entry.Distance <= Unconditional_Repulse_Dist then
-- Unconditional repulsion for controlled vehicles
Acceleration := Acceleration + Inter_Swarm_Repulsion (Distance_Entry.Distance) * Norm (Distance_Entry.Position_Diff);
end if;
end;
end loop;
-- Controlled vehicles
if This_Element.Controls.all.Read_Throttle /= 0.0 then
-- Approach the set target
declare
Target_Vector : constant Vector_3D := This_Element.Controls.all.Read_Steering - This_Element.Position.all.Read;
Norm_Target_Vector : constant Vector_3D := Norm (Target_Vector);
Abs_Target_Vector : constant Real := abs (Target_Vector);
Abs_Velocity : constant Real := abs (This_Element.Velocity.all.Read);
Angle_Between_Target_and_Velocity : constant Real := Angle_Between (Target_Vector, This_Element.Velocity.all.Read);
begin
if Abs_Target_Vector < Target_Fetch_Range then
-- Target reached, switch to idle throttle
This_Element.Controls.all.Set_Throttle (Idle_Throttle);
else
-- Accelerate to constant speed towards target, dampen lateral velocities
Acceleration := Acceleration
+ (This_Element.Controls.all.Read_Throttle
* Approach_Acceleration (Abs_Velocity * Cos (Angle_Between_Target_and_Velocity))
* Norm_Target_Vector)
- Norm (This_Element.Velocity.all.Read) * (Intented_Framerate / 5.0) * Abs_Velocity * Sin (Angle_Between_Target_and_Velocity);
end if;
end;
end if;
-- Friction
This_Element.Acceleration.all.Write (Acceleration - Norm (This_Element.Velocity.all.Read) * (abs (This_Element.Velocity.all.Read) * Friction)**2);
Replace_Element (Swarm_State, Element_Index, This_Element);
end Set_Acceleration;
--
--
--
procedure Set_All_Accelerations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Set_Acceleration (Element_Index);
end loop;
end Set_All_Accelerations;
--
--
--
procedure Forward_Messages (Element_Index : Swarm_Element_Index) is
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Message_To_Be_Distributed : Inter_Vehicle_Messages;
begin
while This_Element.Comms.all.Has_Outgoing_Messages loop
This_Element.Comms.all.Fetch_Message (Message_To_Be_Distributed);
Check_Neighbours : for Distance_Index in Distance_Vectors.First_Index (This_Element.Neighbours.all) .. Distance_Vectors.Last_Index (This_Element.Neighbours.all) loop
declare
Distance_Entry : constant Distance_Entries := Distance_Vectors.Element (This_Element.Neighbours.all, Distance_Index);
begin
if Distance_Entry.Distance <= Comms_Range then
Element (Swarm_State, Distance_Entry.Index).Comms.all.Push_Message (Message_To_Be_Distributed);
else
exit Check_Neighbours;
end if;
end;
end loop Check_Neighbours;
end loop;
end Forward_Messages;
--
--
--
procedure Forward_All_Messages is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Forward_Messages (Element_Index);
end loop;
end Forward_All_Messages;
--
--
--
procedure Move_Element (Element_Index : Swarm_Element_Index) is
This_Element : Swarm_Element_State := Element (Swarm_State, Element_Index);
Interval : constant Real := Real'Min (Real (To_Duration (Clock - This_Element.Last_Update)), Max_Update_Interval);
begin
This_Element.Velocity.all.Write (This_Element.Velocity.all.Read + (Interval * This_Element.Acceleration.all.Read));
declare
Move_Start : constant Positions := This_Element.Position.all.Read;
Move_End : constant Positions := Move_Start + (Interval * This_Element.Velocity.all.Read);
begin
This_Element.Position.all.Write (Move_End);
This_Element.Charge.Level := Vehicle_Charges
(Real'Max (Real (Empty_Charge),
Real'Min (Real (Full_Charge),
Real (This_Element.Charge.Level)
- (Interval
* (Charging_Setup.Constant_Discharge_Rate_Per_Sec
+ Charging_Setup.Propulsion_Discharge_Rate_Per_Sec * abs (This_Element.Acceleration.all.Read))))));
for Globe_Ix in Globes'Range loop
declare
Globe_Pos : constant Positions := Globes (Globe_Ix).Position.all.Read;
Interratio : constant Real := (Globe_Pos - Move_Start) * ((Move_End - Move_Start) / (abs (Move_End - Move_Start)));
Intersection : constant Positions := Move_Start + Interratio * (Move_End - Move_Start);
Touching : constant Boolean := abs (Intersection - Globe_Pos) <= Energy_Globe_Detection and then Interratio >= 0.0 and then Interratio <= 1.0;
Slot_Passed : constant Boolean := Clock - This_Element.Charge.Charge_Time.all.Read > Charging_Setup.Max_Globe_Interval;
begin
if (not This_Element.Charge.Globes_Touched (Globe_Ix) or else Slot_Passed) and then Touching then
if Slot_Passed then
This_Element.Charge.Globes_Touched := No_Globes_Touched;
This_Element.Charge.Charge_No := 0;
end if;
This_Element.Charge.Charge_No := This_Element.Charge.Charge_No + 1;
This_Element.Charge.Globes_Touched (Globe_Ix) := True;
This_Element.Charge.Charge_Time.all.Write (Clock);
if This_Element.Charge.Charge_No = Charging_Setup.Globes_Required then
This_Element.Charge.Level := Full_Charge;
This_Element.Charge.Charge_No := 0;
This_Element.Charge.Globes_Touched := No_Globes_Touched;
end if;
end if;
end;
end loop;
end;
This_Element.Last_Update := Clock;
Replace_Element (Swarm_State, Element_Index, This_Element);
end Move_Element;
--
--
--
procedure Move_All_Elements is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Move_Element (Element_Index);
end loop;
end Move_All_Elements;
--
--
--
procedure Update_Rotation (Element_Index : Swarm_Element_Index) is
function Vector_Yaw (In_Vector : Vector_3D) return Real is
(if In_Vector (x) = 0.0 and then In_Vector (z) = 0.0
then 0.0
else Arctan (In_Vector (x), In_Vector (z)));
function Vector_Pitch (In_Vector : Vector_3D) return Real is
((Pi / 2.0) - Angle_Between (In_Vector, (0.0, 1.0, 0.0)));
This_Element : constant Swarm_Element_State := Element (Swarm_State, Element_Index);
Velocity : constant Vector_3D := This_Element.Velocity.all.Read;
Element_Yaw : constant Real := Vector_Yaw (Velocity);
Element_Pitch : constant Real := Vector_Pitch (Velocity);
Rotation : constant Quaternion_Rotation := To_Rotation (0.0, -Element_Pitch, Element_Yaw + Pi);
Norm_Acc : constant Vector_3D := Rotate (This_Element.Acceleration.all.Read, Rotation);
Lateral_Acc : constant Real := Norm_Acc (x) * abs (Velocity);
Element_Roll : constant Real :=
Real'Max (-Pi / 2.0,
Real'Min (Pi / 2.0,
Lateral_Acc * (Pi / 2.0) / Max_Assumed_Acceleration));
begin
This_Element.Rotation.all.Write (To_Rotation (Element_Roll, -Element_Pitch, -Element_Yaw + Pi));
Replace_Element (Swarm_State, Element_Index, This_Element);
end Update_Rotation;
---
---
---
procedure Update_All_Rotations is
begin
for Element_Index in First_Index (Swarm_State) .. Last_Index (Swarm_State) loop
Update_Rotation (Element_Index);
end loop;
end Update_All_Rotations;
--
--
--
procedure Remove_Empties is
begin
if Length (Swarm_State) > 1 then
declare
Element_Index : Swarm_Element_Index := First_Index (Swarm_State);
begin
while Element_Index <= Last_Index (Swarm_State) and then Length (Swarm_State) > 1 loop
if Element (Swarm_State, Element_Index).Charge.Level = Empty_Charge then
Remove_Vehicle_in_Stages (Element_Index);
else
Element_Index := Element_Index + 1;
end if;
end loop;
end;
end if;
end Remove_Empties;
end Swarm_Control;
|
[
{
"context": "-- Copyright (c) 2020 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998680949211121,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2020 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999318718910217,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/torrent-logs.ads | reznikmm/torrent | 4 | -- Copyright (c) 2020 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Torrent.Logs is
Enabled : Boolean := False;
procedure Initialize (Output : League.Strings.Universal_String);
procedure Print (Text : String);
end Torrent.Logs;
| 16588 | -- Copyright (c) 2020 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Torrent.Logs is
Enabled : Boolean := False;
procedure Initialize (Output : League.Strings.Universal_String);
procedure Print (Text : String);
end Torrent.Logs;
| true | -- Copyright (c) 2020 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Torrent.Logs is
Enabled : Boolean := False;
procedure Initialize (Output : League.Strings.Universal_String);
procedure Print (Text : String);
end Torrent.Logs;
|
[
{
"context": " --\n-- Copyright (C) 2018 Fabien Chouteau --\n-- ",
"end": 372,
"score": 0.9998418688774109,
"start": 357,
"tag": "NAME",
"value": "Fabien Chouteau"
}
] | src/tcg-tile_layers.adb | Fabien-Chouteau/tiled-code-gen | 1 | ------------------------------------------------------------------------------
-- --
-- tiled-code-gen --
-- --
-- Copyright (C) 2018 Fabien Chouteau --
-- --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- 1. Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- 2. Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- 3. Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Strings; use Ada.Strings;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Strings.Maps; use Ada.Strings.Maps;
with Ada.Strings.Maps.Constants;
with DOM.Core; use DOM.Core;
with DOM.Core.Nodes; use DOM.Core.Nodes;
with DOM.Core.Elements; use DOM.Core.Elements;
with TCG.Utils; use TCG.Utils;
with TCG.Tilesets; use TCG.Tilesets;
package body TCG.Tile_Layers is
function Create (N : Node) return Tile_Layer;
procedure Load_Data (L : Tile_Layer; N : Node)
with Pre => L /= No_Layer;
Whitespace : constant Ada.Strings.Maps.Character_Set :=
not Ada.Strings.Maps.Constants.Decimal_Digit_Set;
------------
-- Create --
------------
function Create (N : Node) return Tile_Layer is
Id : Natural;
Width : constant Natural := Item_As_Natural (N, "width");
Height : constant Natural := Item_As_Natural (N, "height");
Name : constant String := Item_As_String (N, "name");
L : constant Tile_Layer := new Layer_Data (Width, Height);
begin
if Item_Exists (N, "id") then
Id := Item_As_Natural (N, "id");
else
-- When there is not ID it means that there is only one layer
Id := 0;
end if;
L.Id := Tile_Layer_Id (Id);
L.Name := new String'(Name);
return L;
end Create;
---------------
-- Load_Data --
---------------
procedure Load_Data (L : Tile_Layer; N : Node) is
Data : constant String := Node_Value (First_Child (N));
Cursor : Integer := Data'First;
function Next_Tile return Map_Tile_Id;
---------------
-- Next_Tile --
---------------
function Next_Tile return Map_Tile_Id is
From : constant Integer := Cursor;
To : Integer := Cursor;
begin
while To < Data'Last and then Data (To) /= ',' loop
To := To + 1;
end loop;
Cursor := To + 1;
return Map_Tile_Id'Value
(Trim (Data (From .. To - 1), Whitespace, Whitespace));
end Next_Tile;
Encoding : constant String := Item_As_String (N, "encoding");
begin
if Encoding /= "csv" then
raise Program_Error with "Unsupported layer encoding: " & Encoding;
end if;
for Y in L.Map'Range (2) loop
for X in L.Map'Range (1) loop
L.Map (X, Y) := Next_Tile;
end loop;
end loop;
end Load_Data;
----------
-- Load --
----------
function Load (Root : Node) return Tile_Layer is
L : constant Tile_Layer := Create (Root);
List : Node_List;
begin
List := Get_Elements_By_Tag_Name (Root, "data");
if Length (List) > 1 then
raise Program_Error with "Too many data elements";
end if;
Load_Data (L, Item (List, 0));
Free (List);
return L;
end Load;
----------
-- Name --
----------
function Name (This : Tile_Layer) return String
is (if This.Name /= null then This.Name.all else "");
--------
-- Id --
--------
function Id (This : Tile_Layer) return Tile_Layer_Id
is (This.Id);
-----------
-- Width --
-----------
function Width (This : Tile_Layer) return Natural
is (This.Width);
------------
-- Height --
------------
function Height (This : Tile_Layer) return Natural
is (This.Height);
----------
-- Tile --
----------
function Tile
(This : Tile_Layer;
X, Y : Natural)
return TCG.Tilesets.Map_Tile_Id
is (This.Map (X, Y));
---------
-- Put --
---------
procedure Put (This : Tile_Layer) is
begin
Put_Line ("Layer: " & Name (This) & " Id:" & This.Id'Img);
for Y in This.Map'Range (2) loop
for X in This.Map'Range (1) loop
Put (This.Map (X, Y)'Img &
(if X = This.Map'Last (1) then "," else ", "));
end loop;
New_Line;
end loop;
end Put;
end TCG.Tile_Layers;
| 27199 | ------------------------------------------------------------------------------
-- --
-- tiled-code-gen --
-- --
-- Copyright (C) 2018 <NAME> --
-- --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- 1. Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- 2. Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- 3. Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Strings; use Ada.Strings;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Strings.Maps; use Ada.Strings.Maps;
with Ada.Strings.Maps.Constants;
with DOM.Core; use DOM.Core;
with DOM.Core.Nodes; use DOM.Core.Nodes;
with DOM.Core.Elements; use DOM.Core.Elements;
with TCG.Utils; use TCG.Utils;
with TCG.Tilesets; use TCG.Tilesets;
package body TCG.Tile_Layers is
function Create (N : Node) return Tile_Layer;
procedure Load_Data (L : Tile_Layer; N : Node)
with Pre => L /= No_Layer;
Whitespace : constant Ada.Strings.Maps.Character_Set :=
not Ada.Strings.Maps.Constants.Decimal_Digit_Set;
------------
-- Create --
------------
function Create (N : Node) return Tile_Layer is
Id : Natural;
Width : constant Natural := Item_As_Natural (N, "width");
Height : constant Natural := Item_As_Natural (N, "height");
Name : constant String := Item_As_String (N, "name");
L : constant Tile_Layer := new Layer_Data (Width, Height);
begin
if Item_Exists (N, "id") then
Id := Item_As_Natural (N, "id");
else
-- When there is not ID it means that there is only one layer
Id := 0;
end if;
L.Id := Tile_Layer_Id (Id);
L.Name := new String'(Name);
return L;
end Create;
---------------
-- Load_Data --
---------------
procedure Load_Data (L : Tile_Layer; N : Node) is
Data : constant String := Node_Value (First_Child (N));
Cursor : Integer := Data'First;
function Next_Tile return Map_Tile_Id;
---------------
-- Next_Tile --
---------------
function Next_Tile return Map_Tile_Id is
From : constant Integer := Cursor;
To : Integer := Cursor;
begin
while To < Data'Last and then Data (To) /= ',' loop
To := To + 1;
end loop;
Cursor := To + 1;
return Map_Tile_Id'Value
(Trim (Data (From .. To - 1), Whitespace, Whitespace));
end Next_Tile;
Encoding : constant String := Item_As_String (N, "encoding");
begin
if Encoding /= "csv" then
raise Program_Error with "Unsupported layer encoding: " & Encoding;
end if;
for Y in L.Map'Range (2) loop
for X in L.Map'Range (1) loop
L.Map (X, Y) := Next_Tile;
end loop;
end loop;
end Load_Data;
----------
-- Load --
----------
function Load (Root : Node) return Tile_Layer is
L : constant Tile_Layer := Create (Root);
List : Node_List;
begin
List := Get_Elements_By_Tag_Name (Root, "data");
if Length (List) > 1 then
raise Program_Error with "Too many data elements";
end if;
Load_Data (L, Item (List, 0));
Free (List);
return L;
end Load;
----------
-- Name --
----------
function Name (This : Tile_Layer) return String
is (if This.Name /= null then This.Name.all else "");
--------
-- Id --
--------
function Id (This : Tile_Layer) return Tile_Layer_Id
is (This.Id);
-----------
-- Width --
-----------
function Width (This : Tile_Layer) return Natural
is (This.Width);
------------
-- Height --
------------
function Height (This : Tile_Layer) return Natural
is (This.Height);
----------
-- Tile --
----------
function Tile
(This : Tile_Layer;
X, Y : Natural)
return TCG.Tilesets.Map_Tile_Id
is (This.Map (X, Y));
---------
-- Put --
---------
procedure Put (This : Tile_Layer) is
begin
Put_Line ("Layer: " & Name (This) & " Id:" & This.Id'Img);
for Y in This.Map'Range (2) loop
for X in This.Map'Range (1) loop
Put (This.Map (X, Y)'Img &
(if X = This.Map'Last (1) then "," else ", "));
end loop;
New_Line;
end loop;
end Put;
end TCG.Tile_Layers;
| true | ------------------------------------------------------------------------------
-- --
-- tiled-code-gen --
-- --
-- Copyright (C) 2018 PI:NAME:<NAME>END_PI --
-- --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- 1. Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- 2. Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- 3. Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Strings; use Ada.Strings;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Strings.Maps; use Ada.Strings.Maps;
with Ada.Strings.Maps.Constants;
with DOM.Core; use DOM.Core;
with DOM.Core.Nodes; use DOM.Core.Nodes;
with DOM.Core.Elements; use DOM.Core.Elements;
with TCG.Utils; use TCG.Utils;
with TCG.Tilesets; use TCG.Tilesets;
package body TCG.Tile_Layers is
function Create (N : Node) return Tile_Layer;
procedure Load_Data (L : Tile_Layer; N : Node)
with Pre => L /= No_Layer;
Whitespace : constant Ada.Strings.Maps.Character_Set :=
not Ada.Strings.Maps.Constants.Decimal_Digit_Set;
------------
-- Create --
------------
function Create (N : Node) return Tile_Layer is
Id : Natural;
Width : constant Natural := Item_As_Natural (N, "width");
Height : constant Natural := Item_As_Natural (N, "height");
Name : constant String := Item_As_String (N, "name");
L : constant Tile_Layer := new Layer_Data (Width, Height);
begin
if Item_Exists (N, "id") then
Id := Item_As_Natural (N, "id");
else
-- When there is not ID it means that there is only one layer
Id := 0;
end if;
L.Id := Tile_Layer_Id (Id);
L.Name := new String'(Name);
return L;
end Create;
---------------
-- Load_Data --
---------------
procedure Load_Data (L : Tile_Layer; N : Node) is
Data : constant String := Node_Value (First_Child (N));
Cursor : Integer := Data'First;
function Next_Tile return Map_Tile_Id;
---------------
-- Next_Tile --
---------------
function Next_Tile return Map_Tile_Id is
From : constant Integer := Cursor;
To : Integer := Cursor;
begin
while To < Data'Last and then Data (To) /= ',' loop
To := To + 1;
end loop;
Cursor := To + 1;
return Map_Tile_Id'Value
(Trim (Data (From .. To - 1), Whitespace, Whitespace));
end Next_Tile;
Encoding : constant String := Item_As_String (N, "encoding");
begin
if Encoding /= "csv" then
raise Program_Error with "Unsupported layer encoding: " & Encoding;
end if;
for Y in L.Map'Range (2) loop
for X in L.Map'Range (1) loop
L.Map (X, Y) := Next_Tile;
end loop;
end loop;
end Load_Data;
----------
-- Load --
----------
function Load (Root : Node) return Tile_Layer is
L : constant Tile_Layer := Create (Root);
List : Node_List;
begin
List := Get_Elements_By_Tag_Name (Root, "data");
if Length (List) > 1 then
raise Program_Error with "Too many data elements";
end if;
Load_Data (L, Item (List, 0));
Free (List);
return L;
end Load;
----------
-- Name --
----------
function Name (This : Tile_Layer) return String
is (if This.Name /= null then This.Name.all else "");
--------
-- Id --
--------
function Id (This : Tile_Layer) return Tile_Layer_Id
is (This.Id);
-----------
-- Width --
-----------
function Width (This : Tile_Layer) return Natural
is (This.Width);
------------
-- Height --
------------
function Height (This : Tile_Layer) return Natural
is (This.Height);
----------
-- Tile --
----------
function Tile
(This : Tile_Layer;
X, Y : Natural)
return TCG.Tilesets.Map_Tile_Id
is (This.Map (X, Y));
---------
-- Put --
---------
procedure Put (This : Tile_Layer) is
begin
Put_Line ("Layer: " & Name (This) & " Id:" & This.Id'Img);
for Y in This.Map'Range (2) loop
for X in This.Map'Range (1) loop
Put (This.Map (X, Y)'Img &
(if X = This.Map'Last (1) then "," else ", "));
end loop;
New_Line;
end loop;
end Put;
end TCG.Tile_Layers;
|
[
{
"context": "Generic system file monitor\n-- Copyright (C) 2017 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 168,
"score": 0.9998762011528015,
"start": 153,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2017 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 199,
"score": 0.999880313873291,
"start": 184,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "7 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 226,
"score": 0.9999271631240845,
"start": 201,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/helios-monitor-sysfile.ads | stcarrez/helios | 1 | -----------------------------------------------------------------------
-- helios-monitor-sysfile -- Generic system file monitor
-- Copyright (C) 2017 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
package Helios.Monitor.Sysfile is
type Agent_Type is new Helios.Monitor.Agent_Type with record
Path : Ada.Strings.Unbounded.Unbounded_String;
Value : Schemas.Definition_Type_Access;
end record;
-- Start the agent and build the definition tree.
overriding
procedure Start (Agent : in out Agent_Type;
Config : in Util.Properties.Manager);
-- Collect the values in the snapshot.
overriding
procedure Collect (Agent : in out Agent_Type;
Values : in out Datas.Snapshot_Type);
end Helios.Monitor.Sysfile;
| 10275 | -----------------------------------------------------------------------
-- helios-monitor-sysfile -- Generic system file monitor
-- Copyright (C) 2017 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
package Helios.Monitor.Sysfile is
type Agent_Type is new Helios.Monitor.Agent_Type with record
Path : Ada.Strings.Unbounded.Unbounded_String;
Value : Schemas.Definition_Type_Access;
end record;
-- Start the agent and build the definition tree.
overriding
procedure Start (Agent : in out Agent_Type;
Config : in Util.Properties.Manager);
-- Collect the values in the snapshot.
overriding
procedure Collect (Agent : in out Agent_Type;
Values : in out Datas.Snapshot_Type);
end Helios.Monitor.Sysfile;
| true | -----------------------------------------------------------------------
-- helios-monitor-sysfile -- Generic system file monitor
-- Copyright (C) 2017 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
package Helios.Monitor.Sysfile is
type Agent_Type is new Helios.Monitor.Agent_Type with record
Path : Ada.Strings.Unbounded.Unbounded_String;
Value : Schemas.Definition_Type_Access;
end record;
-- Start the agent and build the definition tree.
overriding
procedure Start (Agent : in out Agent_Type;
Config : in Util.Properties.Manager);
-- Collect the values in the snapshot.
overriding
procedure Collect (Agent : in out Agent_Type;
Values : in out Datas.Snapshot_Type);
end Helios.Monitor.Sysfile;
|
[
{
"context": "hts reserved.\n--\n-- This software was developed by John Self of the Arcadia project\n-- at the University of Ca",
"end": 133,
"score": 0.9998492002487183,
"start": 124,
"tag": "NAME",
"value": "John Self"
},
{
"context": "URPOSE.\n\n-- TITLE symbol table routines\n-- AUTHOR: John Self (UCI)\n-- DESCRIPTION implements only a simple sym",
"end": 978,
"score": 0.9998594522476196,
"start": 969,
"tag": "NAME",
"value": "John Self"
}
] | lib/aflexnat/sym.adb | alvaromb/Compilemon | 1 | -- Copyright (c) 1990 Regents of the University of California.
-- All rights reserved.
--
-- This software was developed by John Self of the Arcadia project
-- at the University of California, Irvine.
--
-- Redistribution and use in source and binary forms are permitted
-- provided that the above copyright notice and this paragraph are
-- duplicated in all such forms and that any documentation,
-- advertising materials, and other materials related to such
-- distribution and use acknowledge that the software was developed
-- by the University of California, Irvine. The name of the
-- University may not be used to endorse or promote products derived
-- from this software without specific prior written permission.
-- THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
-- IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
-- WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
-- TITLE symbol table routines
-- AUTHOR: John Self (UCI)
-- DESCRIPTION implements only a simple symbol table using open hashing
-- NOTES could be faster, but it isn't used much
-- $Header: /co/ua/self/arcadia/aflex/ada/src/RCS/symB.a,v 1.6 90/01/12 15:20:39 self Exp Locker: self $
with misc_defs, misc, nfa, text_io, int_io, tstring;
package body sym is
use MISC_DEFS;
use TSTRING;
-- addsym - add symbol and definitions to symbol table
--
-- true is returned if the symbol already exists, and the change not made.
procedure ADDSYM(SYM, STR_DEF : in VSTRING;
INT_DEF : in INTEGER;
TABLE : in out HASH_TABLE;
TABLE_SIZE : in INTEGER;
RESULT : out BOOLEAN) is
HASH_VAL : INTEGER := HASHFUNCT(SYM, TABLE_SIZE);
SYM_ENTRY : HASH_LINK := TABLE(HASH_VAL);
NEW_ENTRY, SUCCESSOR : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYM = SYM_ENTRY.NAME) then
-- entry already exists
RESULT := TRUE;
return;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
-- create new entry
NEW_ENTRY := new HASH_ENTRY;
SUCCESSOR := TABLE(HASH_VAL);
if ((SUCCESSOR /= null)) then
NEW_ENTRY.NEXT := SUCCESSOR;
SUCCESSOR.PREV := NEW_ENTRY;
else
NEW_ENTRY.NEXT := null;
end if;
NEW_ENTRY.PREV := null;
NEW_ENTRY.NAME := SYM;
NEW_ENTRY.STR_VAL := STR_DEF;
NEW_ENTRY.INT_VAL := INT_DEF;
TABLE(HASH_VAL) := NEW_ENTRY;
RESULT := FALSE;
return;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("symbol table memory allocation failed");
end ADDSYM;
-- cclinstal - save the text of a character class
procedure CCLINSTAL(CCLTXT : in VSTRING;
CCLNUM : in INTEGER) is
-- we don't bother checking the return status because we are not called
-- unless the symbol is new
DUMMY : BOOLEAN;
begin
ADDSYM(CCLTXT, NUL, CCLNUM, CCLTAB, CCL_HASH_SIZE, DUMMY);
end CCLINSTAL;
-- ccllookup - lookup the number associated with character class text
function CCLLOOKUP(CCLTXT : in VSTRING) return INTEGER is
begin
return FINDSYM(CCLTXT, CCLTAB, CCL_HASH_SIZE).INT_VAL;
end CCLLOOKUP;
-- findsym - find symbol in symbol table
function FINDSYM(SYMBOL : in VSTRING;
TABLE : in HASH_TABLE;
TABLE_SIZE : in INTEGER) return HASH_LINK is
SYM_ENTRY : HASH_LINK := TABLE(HASHFUNCT(SYMBOL, TABLE_SIZE));
EMPTY_ENTRY : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYMBOL = SYM_ENTRY.NAME) then
return SYM_ENTRY;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
EMPTY_ENTRY := new HASH_ENTRY;
EMPTY_ENTRY.all := (null, null, NUL, NUL, 0);
return EMPTY_ENTRY;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("dynamic memory failure in findsym()");
return EMPTY_ENTRY;
end FINDSYM;
-- hashfunct - compute the hash value for "str" and hash size "hash_size"
function HASHFUNCT(STR : in VSTRING;
HASH_SIZE : in INTEGER) return INTEGER is
HASHVAL, LOCSTR : INTEGER;
begin
HASHVAL := 0;
LOCSTR := TSTRING.FIRST;
while (LOCSTR <= TSTRING.LEN(STR)) loop
HASHVAL := ((HASHVAL*2) + CHARACTER'POS(CHAR(STR, LOCSTR))) mod HASH_SIZE
;
LOCSTR := LOCSTR + 1;
end loop;
return HASHVAL;
end HASHFUNCT;
--ndinstal - install a name definition
procedure NDINSTAL(ND, DEF : in VSTRING) is
RESULT : BOOLEAN;
begin
ADDSYM(ND, DEF, 0, NDTBL, NAME_TABLE_HASH_SIZE, RESULT);
if (RESULT) then
MISC.SYNERR("name defined twice");
end if;
end NDINSTAL;
-- ndlookup - lookup a name definition
function NDLOOKUP(ND : in VSTRING) return VSTRING is
begin
return FINDSYM(ND, NDTBL, NAME_TABLE_HASH_SIZE).STR_VAL;
end NDLOOKUP;
-- scinstal - make a start condition
--
-- NOTE
-- the start condition is Exclusive if xcluflg is true
procedure SCINSTAL(STR : in VSTRING;
XCLUFLG : in BOOLEAN) is
-- bit of a hack. We know how the default start-condition is
-- declared, and don't put out a define for it, because it
-- would come out as "#define 0 1"
-- actually, this is no longer the case. The default start-condition
-- is now called "INITIAL". But we keep the following for the sake
-- of future robustness.
RESULT : BOOLEAN;
begin
if (STR /= VSTR("0")) then
TSTRING.PUT(DEF_FILE, STR);
TEXT_IO.PUT(DEF_FILE, " : constant := ");
INT_IO.PUT(DEF_FILE, LASTSC, 1);
TEXT_IO.PUT_LINE(DEF_FILE, ";");
end if;
LASTSC := LASTSC + 1;
if (LASTSC >= CURRENT_MAX_SCS) then
CURRENT_MAX_SCS := CURRENT_MAX_SCS + MAX_SCS_INCREMENT;
NUM_REALLOCS := NUM_REALLOCS + 1;
REALLOCATE_INTEGER_ARRAY(SCSET, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(SCBOL, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCXCLU, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCEOF, CURRENT_MAX_SCS);
REALLOCATE_VSTRING_ARRAY(SCNAME, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(ACTVSC, CURRENT_MAX_SCS);
end if;
SCNAME(LASTSC) := STR;
ADDSYM(SCNAME(LASTSC), NUL, LASTSC, SCTBL, START_COND_HASH_SIZE, RESULT);
if (RESULT) then
MISC.AFLEXERROR("start condition " & STR & " declared twice");
end if;
SCSET(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCBOL(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCXCLU(LASTSC) := XCLUFLG;
SCEOF(LASTSC) := FALSE;
end SCINSTAL;
-- sclookup - lookup the number associated with a start condition
function SCLOOKUP(STR : in VSTRING) return INTEGER is
begin
return FINDSYM(STR, SCTBL, START_COND_HASH_SIZE).INT_VAL;
end SCLOOKUP;
end sym;
| 23454 | -- Copyright (c) 1990 Regents of the University of California.
-- All rights reserved.
--
-- This software was developed by <NAME> of the Arcadia project
-- at the University of California, Irvine.
--
-- Redistribution and use in source and binary forms are permitted
-- provided that the above copyright notice and this paragraph are
-- duplicated in all such forms and that any documentation,
-- advertising materials, and other materials related to such
-- distribution and use acknowledge that the software was developed
-- by the University of California, Irvine. The name of the
-- University may not be used to endorse or promote products derived
-- from this software without specific prior written permission.
-- THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
-- IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
-- WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
-- TITLE symbol table routines
-- AUTHOR: <NAME> (UCI)
-- DESCRIPTION implements only a simple symbol table using open hashing
-- NOTES could be faster, but it isn't used much
-- $Header: /co/ua/self/arcadia/aflex/ada/src/RCS/symB.a,v 1.6 90/01/12 15:20:39 self Exp Locker: self $
with misc_defs, misc, nfa, text_io, int_io, tstring;
package body sym is
use MISC_DEFS;
use TSTRING;
-- addsym - add symbol and definitions to symbol table
--
-- true is returned if the symbol already exists, and the change not made.
procedure ADDSYM(SYM, STR_DEF : in VSTRING;
INT_DEF : in INTEGER;
TABLE : in out HASH_TABLE;
TABLE_SIZE : in INTEGER;
RESULT : out BOOLEAN) is
HASH_VAL : INTEGER := HASHFUNCT(SYM, TABLE_SIZE);
SYM_ENTRY : HASH_LINK := TABLE(HASH_VAL);
NEW_ENTRY, SUCCESSOR : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYM = SYM_ENTRY.NAME) then
-- entry already exists
RESULT := TRUE;
return;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
-- create new entry
NEW_ENTRY := new HASH_ENTRY;
SUCCESSOR := TABLE(HASH_VAL);
if ((SUCCESSOR /= null)) then
NEW_ENTRY.NEXT := SUCCESSOR;
SUCCESSOR.PREV := NEW_ENTRY;
else
NEW_ENTRY.NEXT := null;
end if;
NEW_ENTRY.PREV := null;
NEW_ENTRY.NAME := SYM;
NEW_ENTRY.STR_VAL := STR_DEF;
NEW_ENTRY.INT_VAL := INT_DEF;
TABLE(HASH_VAL) := NEW_ENTRY;
RESULT := FALSE;
return;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("symbol table memory allocation failed");
end ADDSYM;
-- cclinstal - save the text of a character class
procedure CCLINSTAL(CCLTXT : in VSTRING;
CCLNUM : in INTEGER) is
-- we don't bother checking the return status because we are not called
-- unless the symbol is new
DUMMY : BOOLEAN;
begin
ADDSYM(CCLTXT, NUL, CCLNUM, CCLTAB, CCL_HASH_SIZE, DUMMY);
end CCLINSTAL;
-- ccllookup - lookup the number associated with character class text
function CCLLOOKUP(CCLTXT : in VSTRING) return INTEGER is
begin
return FINDSYM(CCLTXT, CCLTAB, CCL_HASH_SIZE).INT_VAL;
end CCLLOOKUP;
-- findsym - find symbol in symbol table
function FINDSYM(SYMBOL : in VSTRING;
TABLE : in HASH_TABLE;
TABLE_SIZE : in INTEGER) return HASH_LINK is
SYM_ENTRY : HASH_LINK := TABLE(HASHFUNCT(SYMBOL, TABLE_SIZE));
EMPTY_ENTRY : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYMBOL = SYM_ENTRY.NAME) then
return SYM_ENTRY;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
EMPTY_ENTRY := new HASH_ENTRY;
EMPTY_ENTRY.all := (null, null, NUL, NUL, 0);
return EMPTY_ENTRY;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("dynamic memory failure in findsym()");
return EMPTY_ENTRY;
end FINDSYM;
-- hashfunct - compute the hash value for "str" and hash size "hash_size"
function HASHFUNCT(STR : in VSTRING;
HASH_SIZE : in INTEGER) return INTEGER is
HASHVAL, LOCSTR : INTEGER;
begin
HASHVAL := 0;
LOCSTR := TSTRING.FIRST;
while (LOCSTR <= TSTRING.LEN(STR)) loop
HASHVAL := ((HASHVAL*2) + CHARACTER'POS(CHAR(STR, LOCSTR))) mod HASH_SIZE
;
LOCSTR := LOCSTR + 1;
end loop;
return HASHVAL;
end HASHFUNCT;
--ndinstal - install a name definition
procedure NDINSTAL(ND, DEF : in VSTRING) is
RESULT : BOOLEAN;
begin
ADDSYM(ND, DEF, 0, NDTBL, NAME_TABLE_HASH_SIZE, RESULT);
if (RESULT) then
MISC.SYNERR("name defined twice");
end if;
end NDINSTAL;
-- ndlookup - lookup a name definition
function NDLOOKUP(ND : in VSTRING) return VSTRING is
begin
return FINDSYM(ND, NDTBL, NAME_TABLE_HASH_SIZE).STR_VAL;
end NDLOOKUP;
-- scinstal - make a start condition
--
-- NOTE
-- the start condition is Exclusive if xcluflg is true
procedure SCINSTAL(STR : in VSTRING;
XCLUFLG : in BOOLEAN) is
-- bit of a hack. We know how the default start-condition is
-- declared, and don't put out a define for it, because it
-- would come out as "#define 0 1"
-- actually, this is no longer the case. The default start-condition
-- is now called "INITIAL". But we keep the following for the sake
-- of future robustness.
RESULT : BOOLEAN;
begin
if (STR /= VSTR("0")) then
TSTRING.PUT(DEF_FILE, STR);
TEXT_IO.PUT(DEF_FILE, " : constant := ");
INT_IO.PUT(DEF_FILE, LASTSC, 1);
TEXT_IO.PUT_LINE(DEF_FILE, ";");
end if;
LASTSC := LASTSC + 1;
if (LASTSC >= CURRENT_MAX_SCS) then
CURRENT_MAX_SCS := CURRENT_MAX_SCS + MAX_SCS_INCREMENT;
NUM_REALLOCS := NUM_REALLOCS + 1;
REALLOCATE_INTEGER_ARRAY(SCSET, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(SCBOL, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCXCLU, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCEOF, CURRENT_MAX_SCS);
REALLOCATE_VSTRING_ARRAY(SCNAME, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(ACTVSC, CURRENT_MAX_SCS);
end if;
SCNAME(LASTSC) := STR;
ADDSYM(SCNAME(LASTSC), NUL, LASTSC, SCTBL, START_COND_HASH_SIZE, RESULT);
if (RESULT) then
MISC.AFLEXERROR("start condition " & STR & " declared twice");
end if;
SCSET(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCBOL(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCXCLU(LASTSC) := XCLUFLG;
SCEOF(LASTSC) := FALSE;
end SCINSTAL;
-- sclookup - lookup the number associated with a start condition
function SCLOOKUP(STR : in VSTRING) return INTEGER is
begin
return FINDSYM(STR, SCTBL, START_COND_HASH_SIZE).INT_VAL;
end SCLOOKUP;
end sym;
| true | -- Copyright (c) 1990 Regents of the University of California.
-- All rights reserved.
--
-- This software was developed by PI:NAME:<NAME>END_PI of the Arcadia project
-- at the University of California, Irvine.
--
-- Redistribution and use in source and binary forms are permitted
-- provided that the above copyright notice and this paragraph are
-- duplicated in all such forms and that any documentation,
-- advertising materials, and other materials related to such
-- distribution and use acknowledge that the software was developed
-- by the University of California, Irvine. The name of the
-- University may not be used to endorse or promote products derived
-- from this software without specific prior written permission.
-- THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
-- IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
-- WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
-- TITLE symbol table routines
-- AUTHOR: PI:NAME:<NAME>END_PI (UCI)
-- DESCRIPTION implements only a simple symbol table using open hashing
-- NOTES could be faster, but it isn't used much
-- $Header: /co/ua/self/arcadia/aflex/ada/src/RCS/symB.a,v 1.6 90/01/12 15:20:39 self Exp Locker: self $
with misc_defs, misc, nfa, text_io, int_io, tstring;
package body sym is
use MISC_DEFS;
use TSTRING;
-- addsym - add symbol and definitions to symbol table
--
-- true is returned if the symbol already exists, and the change not made.
procedure ADDSYM(SYM, STR_DEF : in VSTRING;
INT_DEF : in INTEGER;
TABLE : in out HASH_TABLE;
TABLE_SIZE : in INTEGER;
RESULT : out BOOLEAN) is
HASH_VAL : INTEGER := HASHFUNCT(SYM, TABLE_SIZE);
SYM_ENTRY : HASH_LINK := TABLE(HASH_VAL);
NEW_ENTRY, SUCCESSOR : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYM = SYM_ENTRY.NAME) then
-- entry already exists
RESULT := TRUE;
return;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
-- create new entry
NEW_ENTRY := new HASH_ENTRY;
SUCCESSOR := TABLE(HASH_VAL);
if ((SUCCESSOR /= null)) then
NEW_ENTRY.NEXT := SUCCESSOR;
SUCCESSOR.PREV := NEW_ENTRY;
else
NEW_ENTRY.NEXT := null;
end if;
NEW_ENTRY.PREV := null;
NEW_ENTRY.NAME := SYM;
NEW_ENTRY.STR_VAL := STR_DEF;
NEW_ENTRY.INT_VAL := INT_DEF;
TABLE(HASH_VAL) := NEW_ENTRY;
RESULT := FALSE;
return;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("symbol table memory allocation failed");
end ADDSYM;
-- cclinstal - save the text of a character class
procedure CCLINSTAL(CCLTXT : in VSTRING;
CCLNUM : in INTEGER) is
-- we don't bother checking the return status because we are not called
-- unless the symbol is new
DUMMY : BOOLEAN;
begin
ADDSYM(CCLTXT, NUL, CCLNUM, CCLTAB, CCL_HASH_SIZE, DUMMY);
end CCLINSTAL;
-- ccllookup - lookup the number associated with character class text
function CCLLOOKUP(CCLTXT : in VSTRING) return INTEGER is
begin
return FINDSYM(CCLTXT, CCLTAB, CCL_HASH_SIZE).INT_VAL;
end CCLLOOKUP;
-- findsym - find symbol in symbol table
function FINDSYM(SYMBOL : in VSTRING;
TABLE : in HASH_TABLE;
TABLE_SIZE : in INTEGER) return HASH_LINK is
SYM_ENTRY : HASH_LINK := TABLE(HASHFUNCT(SYMBOL, TABLE_SIZE));
EMPTY_ENTRY : HASH_LINK;
begin
while (SYM_ENTRY /= null) loop
if (SYMBOL = SYM_ENTRY.NAME) then
return SYM_ENTRY;
end if;
SYM_ENTRY := SYM_ENTRY.NEXT;
end loop;
EMPTY_ENTRY := new HASH_ENTRY;
EMPTY_ENTRY.all := (null, null, NUL, NUL, 0);
return EMPTY_ENTRY;
exception
when STORAGE_ERROR =>
MISC.AFLEXFATAL("dynamic memory failure in findsym()");
return EMPTY_ENTRY;
end FINDSYM;
-- hashfunct - compute the hash value for "str" and hash size "hash_size"
function HASHFUNCT(STR : in VSTRING;
HASH_SIZE : in INTEGER) return INTEGER is
HASHVAL, LOCSTR : INTEGER;
begin
HASHVAL := 0;
LOCSTR := TSTRING.FIRST;
while (LOCSTR <= TSTRING.LEN(STR)) loop
HASHVAL := ((HASHVAL*2) + CHARACTER'POS(CHAR(STR, LOCSTR))) mod HASH_SIZE
;
LOCSTR := LOCSTR + 1;
end loop;
return HASHVAL;
end HASHFUNCT;
--ndinstal - install a name definition
procedure NDINSTAL(ND, DEF : in VSTRING) is
RESULT : BOOLEAN;
begin
ADDSYM(ND, DEF, 0, NDTBL, NAME_TABLE_HASH_SIZE, RESULT);
if (RESULT) then
MISC.SYNERR("name defined twice");
end if;
end NDINSTAL;
-- ndlookup - lookup a name definition
function NDLOOKUP(ND : in VSTRING) return VSTRING is
begin
return FINDSYM(ND, NDTBL, NAME_TABLE_HASH_SIZE).STR_VAL;
end NDLOOKUP;
-- scinstal - make a start condition
--
-- NOTE
-- the start condition is Exclusive if xcluflg is true
procedure SCINSTAL(STR : in VSTRING;
XCLUFLG : in BOOLEAN) is
-- bit of a hack. We know how the default start-condition is
-- declared, and don't put out a define for it, because it
-- would come out as "#define 0 1"
-- actually, this is no longer the case. The default start-condition
-- is now called "INITIAL". But we keep the following for the sake
-- of future robustness.
RESULT : BOOLEAN;
begin
if (STR /= VSTR("0")) then
TSTRING.PUT(DEF_FILE, STR);
TEXT_IO.PUT(DEF_FILE, " : constant := ");
INT_IO.PUT(DEF_FILE, LASTSC, 1);
TEXT_IO.PUT_LINE(DEF_FILE, ";");
end if;
LASTSC := LASTSC + 1;
if (LASTSC >= CURRENT_MAX_SCS) then
CURRENT_MAX_SCS := CURRENT_MAX_SCS + MAX_SCS_INCREMENT;
NUM_REALLOCS := NUM_REALLOCS + 1;
REALLOCATE_INTEGER_ARRAY(SCSET, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(SCBOL, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCXCLU, CURRENT_MAX_SCS);
REALLOCATE_BOOLEAN_ARRAY(SCEOF, CURRENT_MAX_SCS);
REALLOCATE_VSTRING_ARRAY(SCNAME, CURRENT_MAX_SCS);
REALLOCATE_INTEGER_ARRAY(ACTVSC, CURRENT_MAX_SCS);
end if;
SCNAME(LASTSC) := STR;
ADDSYM(SCNAME(LASTSC), NUL, LASTSC, SCTBL, START_COND_HASH_SIZE, RESULT);
if (RESULT) then
MISC.AFLEXERROR("start condition " & STR & " declared twice");
end if;
SCSET(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCBOL(LASTSC) := NFA.MKSTATE(SYM_EPSILON);
SCXCLU(LASTSC) := XCLUFLG;
SCEOF(LASTSC) := FALSE;
end SCINSTAL;
-- sclookup - lookup the number associated with a start condition
function SCLOOKUP(STR : in VSTRING) return INTEGER is
begin
return FINDSYM(STR, SCTBL, START_COND_HASH_SIZE).INT_VAL;
end SCLOOKUP;
end sym;
|
[
{
"context": "bingo-q_gtk-q_intl.adb\n--*\n--* AUTHOR: Javier Fuica Fernandez\n--*\n--*******************************************",
"end": 219,
"score": 0.9998159408569336,
"start": 197,
"tag": "NAME",
"value": "Javier Fuica Fernandez"
}
] | src/q_bingo-q_gtk-q_intl.adb | jfuica/bingada | 4 | --*****************************************************************************
--*
--* PROJECT: Bingada
--*
--* FILE: q_bingo-q_gtk-q_intl.adb
--*
--* AUTHOR: Javier Fuica Fernandez
--*
--*****************************************************************************
with Gtkada.Intl;
with Text_Io;
package body Q_Bingo.Q_Gtk.Q_Intl is
--==================================================================
--C_PATH : CONSTANT STRING := "/usr/local/share/locale";
procedure P_Initialise is
begin
if Gtkada.Intl.Getlocale = "C" then
Gtkada.Intl.Setlocale
(Category => Gtkada.Intl.Lc_Messages,Locale => "en_GB");
Text_Io.Put_Line ("DEFAULT LOCALE changed to : " & Gtkada.Intl.Getlocale);
else
Gtkada.Intl.Setlocale;
end if;
Gtkada.Intl.Bind_Text_Domain
(Domain => "bingada",
Dirname => "./messages");
Gtkada.Intl.Text_Domain ("bingada");
end P_Initialise;
--==================================================================
end Q_Bingo.Q_Gtk.Q_Intl;
| 6553 | --*****************************************************************************
--*
--* PROJECT: Bingada
--*
--* FILE: q_bingo-q_gtk-q_intl.adb
--*
--* AUTHOR: <NAME>
--*
--*****************************************************************************
with Gtkada.Intl;
with Text_Io;
package body Q_Bingo.Q_Gtk.Q_Intl is
--==================================================================
--C_PATH : CONSTANT STRING := "/usr/local/share/locale";
procedure P_Initialise is
begin
if Gtkada.Intl.Getlocale = "C" then
Gtkada.Intl.Setlocale
(Category => Gtkada.Intl.Lc_Messages,Locale => "en_GB");
Text_Io.Put_Line ("DEFAULT LOCALE changed to : " & Gtkada.Intl.Getlocale);
else
Gtkada.Intl.Setlocale;
end if;
Gtkada.Intl.Bind_Text_Domain
(Domain => "bingada",
Dirname => "./messages");
Gtkada.Intl.Text_Domain ("bingada");
end P_Initialise;
--==================================================================
end Q_Bingo.Q_Gtk.Q_Intl;
| true | --*****************************************************************************
--*
--* PROJECT: Bingada
--*
--* FILE: q_bingo-q_gtk-q_intl.adb
--*
--* AUTHOR: PI:NAME:<NAME>END_PI
--*
--*****************************************************************************
with Gtkada.Intl;
with Text_Io;
package body Q_Bingo.Q_Gtk.Q_Intl is
--==================================================================
--C_PATH : CONSTANT STRING := "/usr/local/share/locale";
procedure P_Initialise is
begin
if Gtkada.Intl.Getlocale = "C" then
Gtkada.Intl.Setlocale
(Category => Gtkada.Intl.Lc_Messages,Locale => "en_GB");
Text_Io.Put_Line ("DEFAULT LOCALE changed to : " & Gtkada.Intl.Getlocale);
else
Gtkada.Intl.Setlocale;
end if;
Gtkada.Intl.Bind_Text_Domain
(Domain => "bingada",
Dirname => "./messages");
Gtkada.Intl.Text_Domain ("bingada");
end P_Initialise;
--==================================================================
end Q_Bingo.Q_Gtk.Q_Intl;
|
[
{
"context": "========================\n--\n-- Copyright 2021 (C) Holger Rodriguez\n--\n-- SPDX-License-Identifier: BSD-3-Clause\n--\nw",
"end": 310,
"score": 0.999830961227417,
"start": 294,
"tag": "NAME",
"value": "Holger Rodriguez"
}
] | src/evaluate-leds.ads | hgrodriguez/embedded-dashboard-console | 0 | --===========================================================================
--
-- This package checks and evaluates the input received from the serial
-- line for commanding the LEDs
--
--===========================================================================
--
-- Copyright 2021 (C) Holger Rodriguez
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with Execute;
package Evaluate.LEDs is
--------------------------------------------------------------------------
-- LED section
-- The complete instruction is built as (all elements are Character):
-- <LED_Prefix><Block Code><Color of LED><State of LED>
-- LED_Prefix := L
-- This LED_Instruction is the part *after* the LED_Prefix
-- Block Code := (0) -- only one block available at the moment
-- Color of LED := (R, A, G, W, B)
-- State of LED := (0, 1, 2)
subtype LED_Instruction is String (1 .. 3);
--------------------------------------------------------------------------
-- Blocks of LEDs defined. At the moment there is only one block
--------------------------------------------------------------------------
type Blocks is (Zero);
--------------------------------------------------------------------------
-- Colors of the LEDs available
--------------------------------------------------------------------------
type Colors is (Red, Amber, Green, White, Blue);
--------------------------------------------------------------------------
-- Operations possible for the LEDs
--------------------------------------------------------------------------
type Operations is (Off, On, Toggle);
--------------------------------------------------------------------------
-- Checks the input received against the rules defined above
--------------------------------------------------------------------------
function Check_Input (Instruction : LED_Instruction)
return Execute.LED_Errors;
--------------------------------------------------------------------------
-- Evaluates the input received and returns the equivalent LED Command
--------------------------------------------------------------------------
function Evaluate (Instruction : LED_Instruction)
return Execute.LED_Commands;
end Evaluate.LEDs;
| 13095 | --===========================================================================
--
-- This package checks and evaluates the input received from the serial
-- line for commanding the LEDs
--
--===========================================================================
--
-- Copyright 2021 (C) <NAME>
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with Execute;
package Evaluate.LEDs is
--------------------------------------------------------------------------
-- LED section
-- The complete instruction is built as (all elements are Character):
-- <LED_Prefix><Block Code><Color of LED><State of LED>
-- LED_Prefix := L
-- This LED_Instruction is the part *after* the LED_Prefix
-- Block Code := (0) -- only one block available at the moment
-- Color of LED := (R, A, G, W, B)
-- State of LED := (0, 1, 2)
subtype LED_Instruction is String (1 .. 3);
--------------------------------------------------------------------------
-- Blocks of LEDs defined. At the moment there is only one block
--------------------------------------------------------------------------
type Blocks is (Zero);
--------------------------------------------------------------------------
-- Colors of the LEDs available
--------------------------------------------------------------------------
type Colors is (Red, Amber, Green, White, Blue);
--------------------------------------------------------------------------
-- Operations possible for the LEDs
--------------------------------------------------------------------------
type Operations is (Off, On, Toggle);
--------------------------------------------------------------------------
-- Checks the input received against the rules defined above
--------------------------------------------------------------------------
function Check_Input (Instruction : LED_Instruction)
return Execute.LED_Errors;
--------------------------------------------------------------------------
-- Evaluates the input received and returns the equivalent LED Command
--------------------------------------------------------------------------
function Evaluate (Instruction : LED_Instruction)
return Execute.LED_Commands;
end Evaluate.LEDs;
| true | --===========================================================================
--
-- This package checks and evaluates the input received from the serial
-- line for commanding the LEDs
--
--===========================================================================
--
-- Copyright 2021 (C) PI:NAME:<NAME>END_PI
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with Execute;
package Evaluate.LEDs is
--------------------------------------------------------------------------
-- LED section
-- The complete instruction is built as (all elements are Character):
-- <LED_Prefix><Block Code><Color of LED><State of LED>
-- LED_Prefix := L
-- This LED_Instruction is the part *after* the LED_Prefix
-- Block Code := (0) -- only one block available at the moment
-- Color of LED := (R, A, G, W, B)
-- State of LED := (0, 1, 2)
subtype LED_Instruction is String (1 .. 3);
--------------------------------------------------------------------------
-- Blocks of LEDs defined. At the moment there is only one block
--------------------------------------------------------------------------
type Blocks is (Zero);
--------------------------------------------------------------------------
-- Colors of the LEDs available
--------------------------------------------------------------------------
type Colors is (Red, Amber, Green, White, Blue);
--------------------------------------------------------------------------
-- Operations possible for the LEDs
--------------------------------------------------------------------------
type Operations is (Off, On, Toggle);
--------------------------------------------------------------------------
-- Checks the input received against the rules defined above
--------------------------------------------------------------------------
function Check_Input (Instruction : LED_Instruction)
return Execute.LED_Errors;
--------------------------------------------------------------------------
-- Evaluates the input received and returns the equivalent LED Command
--------------------------------------------------------------------------
function Evaluate (Instruction : LED_Instruction)
return Execute.LED_Commands;
end Evaluate.LEDs;
|
[
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.9998666048049927,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.9999309778213501,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | sources/jupyter/jupyter.ads | reznikmm/jupyter | 4 | -- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
package Jupyter is
pragma Pure;
end Jupyter;
| 6570 | -- SPDX-FileCopyrightText: 2020 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
package Jupyter is
pragma Pure;
end Jupyter;
| true | -- SPDX-FileCopyrightText: 2020 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
package Jupyter is
pragma Pure;
end Jupyter;
|
[
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998533129692078,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999313950538635,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/nodes/program-nodes-aspect_specifications.ads | optikos/oasis | 0 | -- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
with Program.Elements.Aspect_Specifications;
with Program.Element_Visitors;
package Program.Nodes.Aspect_Specifications is
pragma Preelaborate;
type Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Arrow_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access)
return Aspect_Specification;
type Implicit_Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Aspect_Specification
with Pre =>
Is_Part_Of_Implicit or Is_Part_Of_Inherited or Is_Part_Of_Instance;
private
type Base_Aspect_Specification is
abstract new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with record
Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
end record;
procedure Initialize
(Self : aliased in out Base_Aspect_Specification'Class);
overriding procedure Visit
(Self : not null access Base_Aspect_Specification;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class);
overriding function Aspect_Mark
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Aspect_Definition
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Is_Aspect_Specification_Element
(Self : Base_Aspect_Specification)
return Boolean;
overriding function Is_Definition_Element
(Self : Base_Aspect_Specification)
return Boolean;
type Aspect_Specification is
new Base_Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with record
Arrow_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Arrow_Token
(Self : Aspect_Specification)
return not null Program.Lexical_Elements.Lexical_Element_Access;
type Implicit_Aspect_Specification is
new Base_Aspect_Specification
with record
Is_Part_Of_Implicit : Boolean;
Is_Part_Of_Inherited : Boolean;
Is_Part_Of_Instance : Boolean;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Implicit_Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Instance
(Self : Implicit_Aspect_Specification)
return Boolean;
end Program.Nodes.Aspect_Specifications;
| 4403 | -- Copyright (c) 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
with Program.Elements.Aspect_Specifications;
with Program.Element_Visitors;
package Program.Nodes.Aspect_Specifications is
pragma Preelaborate;
type Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Arrow_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access)
return Aspect_Specification;
type Implicit_Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Aspect_Specification
with Pre =>
Is_Part_Of_Implicit or Is_Part_Of_Inherited or Is_Part_Of_Instance;
private
type Base_Aspect_Specification is
abstract new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with record
Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
end record;
procedure Initialize
(Self : aliased in out Base_Aspect_Specification'Class);
overriding procedure Visit
(Self : not null access Base_Aspect_Specification;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class);
overriding function Aspect_Mark
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Aspect_Definition
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Is_Aspect_Specification_Element
(Self : Base_Aspect_Specification)
return Boolean;
overriding function Is_Definition_Element
(Self : Base_Aspect_Specification)
return Boolean;
type Aspect_Specification is
new Base_Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with record
Arrow_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Arrow_Token
(Self : Aspect_Specification)
return not null Program.Lexical_Elements.Lexical_Element_Access;
type Implicit_Aspect_Specification is
new Base_Aspect_Specification
with record
Is_Part_Of_Implicit : Boolean;
Is_Part_Of_Inherited : Boolean;
Is_Part_Of_Instance : Boolean;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Implicit_Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Instance
(Self : Implicit_Aspect_Specification)
return Boolean;
end Program.Nodes.Aspect_Specifications;
| true | -- Copyright (c) 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
with Program.Elements.Aspect_Specifications;
with Program.Element_Visitors;
package Program.Nodes.Aspect_Specifications is
pragma Preelaborate;
type Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Arrow_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access)
return Aspect_Specification;
type Implicit_Aspect_Specification is
new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with private;
function Create
(Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Aspect_Specification
with Pre =>
Is_Part_Of_Implicit or Is_Part_Of_Inherited or Is_Part_Of_Instance;
private
type Base_Aspect_Specification is
abstract new Program.Nodes.Node
and Program.Elements.Aspect_Specifications.Aspect_Specification
with record
Aspect_Mark : not null Program.Elements.Expressions
.Expression_Access;
Aspect_Definition : not null Program.Elements.Expressions
.Expression_Access;
end record;
procedure Initialize
(Self : aliased in out Base_Aspect_Specification'Class);
overriding procedure Visit
(Self : not null access Base_Aspect_Specification;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class);
overriding function Aspect_Mark
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Aspect_Definition
(Self : Base_Aspect_Specification)
return not null Program.Elements.Expressions.Expression_Access;
overriding function Is_Aspect_Specification_Element
(Self : Base_Aspect_Specification)
return Boolean;
overriding function Is_Definition_Element
(Self : Base_Aspect_Specification)
return Boolean;
type Aspect_Specification is
new Base_Aspect_Specification
and Program.Elements.Aspect_Specifications.Aspect_Specification_Text
with record
Arrow_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Arrow_Token
(Self : Aspect_Specification)
return not null Program.Lexical_Elements.Lexical_Element_Access;
type Implicit_Aspect_Specification is
new Base_Aspect_Specification
with record
Is_Part_Of_Implicit : Boolean;
Is_Part_Of_Inherited : Boolean;
Is_Part_Of_Instance : Boolean;
end record;
overriding function To_Aspect_Specification_Text
(Self : aliased in out Implicit_Aspect_Specification)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Text_Access;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Aspect_Specification)
return Boolean;
overriding function Is_Part_Of_Instance
(Self : Implicit_Aspect_Specification)
return Boolean;
end Program.Nodes.Aspect_Specifications;
|
[
{
"context": "-- MIT License\n--\n-- Copyright (c) 2021 Glen Cornell <glen.m.cornell@gmail.com>\n--\n-- Permission is he",
"end": 52,
"score": 0.9998806118965149,
"start": 40,
"tag": "NAME",
"value": "Glen Cornell"
},
{
"context": "IT License\n--\n-- Copyright (c) 2021 Glen Cornell <glen.m.cornell@gmail.com>\n--\n-- Permission is hereby granted, free of char",
"end": 78,
"score": 0.9999338388442993,
"start": 54,
"tag": "EMAIL",
"value": "glen.m.cornell@gmail.com"
}
] | examples/can_utils/print_can_frame.ads | glencornell/ada-socketcan | 2 | -- MIT License
--
-- Copyright (c) 2021 Glen Cornell <glen.m.cornell@gmail.com>
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Sockets.Can_Frame;
procedure Print_Can_Frame (Frame : in Sockets.Can_Frame.Can_Frame; Prefix : in String := "");
-- Print the raw CAN frame to ada.text_io.current_output. The string
-- specified by the parameter "Prefix" is printed out on the same
-- line just before the can frame. Prefix can be anything that you
-- want, but it is recommended that you use the interface name from
-- which the frame was received. Output is in the format similar to
-- the candump utility. Examples:
--
-- vcan0 52 [5] 10 22 9A 69 E4
-- vcan0 4D6 [8] 56 3C 4F 78 23 19 B 4F
-- vcan0 6BD [8] 29 87 AA 2D 26 1B 33 1D
-- vcan0 E [8] 4B F 79 67 60 D0 C0 5
-- vcan0 269 [1] 4A
-- vcan0 DF [2] AF 2
-- vcan0 13E [4] 3A 93 5 58
| 28771 | -- MIT License
--
-- Copyright (c) 2021 <NAME> <<EMAIL>>
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Sockets.Can_Frame;
procedure Print_Can_Frame (Frame : in Sockets.Can_Frame.Can_Frame; Prefix : in String := "");
-- Print the raw CAN frame to ada.text_io.current_output. The string
-- specified by the parameter "Prefix" is printed out on the same
-- line just before the can frame. Prefix can be anything that you
-- want, but it is recommended that you use the interface name from
-- which the frame was received. Output is in the format similar to
-- the candump utility. Examples:
--
-- vcan0 52 [5] 10 22 9A 69 E4
-- vcan0 4D6 [8] 56 3C 4F 78 23 19 B 4F
-- vcan0 6BD [8] 29 87 AA 2D 26 1B 33 1D
-- vcan0 E [8] 4B F 79 67 60 D0 C0 5
-- vcan0 269 [1] 4A
-- vcan0 DF [2] AF 2
-- vcan0 13E [4] 3A 93 5 58
| true | -- MIT License
--
-- Copyright (c) 2021 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Sockets.Can_Frame;
procedure Print_Can_Frame (Frame : in Sockets.Can_Frame.Can_Frame; Prefix : in String := "");
-- Print the raw CAN frame to ada.text_io.current_output. The string
-- specified by the parameter "Prefix" is printed out on the same
-- line just before the can frame. Prefix can be anything that you
-- want, but it is recommended that you use the interface name from
-- which the frame was received. Output is in the format similar to
-- the candump utility. Examples:
--
-- vcan0 52 [5] 10 22 9A 69 E4
-- vcan0 4D6 [8] 56 3C 4F 78 23 19 B 4F
-- vcan0 6BD [8] 29 87 AA 2D 26 1B 33 1D
-- vcan0 E [8] 4B F 79 67 60 D0 C0 5
-- vcan0 269 [1] 4A
-- vcan0 DF [2] AF 2
-- vcan0 13E [4] 3A 93 5 58
|
[
{
"context": "--------------------------\n-- Copyright (c) 2019, Daniel King\n-- All rights reserved.\n--\n-- Redistribution an",
"end": 115,
"score": 0.9997732639312744,
"start": 104,
"tag": "NAME",
"value": "Daniel King"
}
] | src/common/keccak-generic_cshake.ads | damaki/libkeccak | 26 | -------------------------------------------------------------------------------
-- Copyright (c) 2019, Daniel King
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Types; use Keccak.Types;
with Keccak.Generic_XOF;
pragma Elaborate_All (Keccak.Generic_XOF);
-- @summary
-- Implements cSHAKE on top of any generic eXtedable Output Function (XOF).
--
-- @description
-- This API is used as follows:
--
-- 1 Initialise a new context by calling Init. Customization strings can be
-- optionally given to Init to provide domain separation between different
-- uses of cSHAKE.
--
-- 2 Call Update one or more times to input an arbitrary amount of data into cSHAKE.
--
-- 3 Call Extract one or more times to produce an arbitrary number of output bytes.
--
-- @group cSHAKE
generic
with package XOF is new Keccak.Generic_XOF (<>);
-- The extendable output function on which the CSHAKE instance is
-- constructed.
package Keccak.Generic_CSHAKE
is
type Context is private;
type States is (Updating, Ready_To_Extract, Extracting);
-- The possible states for the context.
--
-- @value Updating When in this state the context can be fed
-- with input data by calling the Update procedure.
--
-- @value Ready_To_Extract When in this state the Update procedure can
-- no longer be called (i.e. no more data can be input to the context),
-- and the context is ready to generate output data.
--
-- @value Extracting When in this state the context can produce output
-- bytes by calling the Extract procedure.
procedure Init (Ctx : out Context;
Customization : in String := "";
Function_Name : in String := "")
with Global => null,
Depends => (Ctx => (Customization, Function_Name)),
Pre => Customization /= "" or Function_Name /= "",
Post => State_Of (Ctx) = Updating;
-- Initialize the CSHAKE context.
--
-- Note that the Customization and Function_Name strings are optional, but
-- at least one must be a non-empty string. If your use case needs both
-- strings to be empty then SHAKE should be used instead, or
-- Keccak.XOF if a a differently customized version of SHAKE is required.
--
-- In cases where many CSHAKE computations are performed with the same
-- customization and function name strings it is possible to initialize
-- a context once with the desired parameters, then copy the context as
-- many times as necessary for the different computations. The following
-- example creates two contexts initialised to the same value:
--
-- declare
-- Ctx1 : Context;
-- Ctx2 : Context;
-- begin
-- Init (Ctx1, "Example", "");
--
-- Ctx2 := Ctx1;
-- end;
--
-- @param Ctx The context to initialize.
--
-- @param Customization An optional customization string to provide domain
-- separation from different usages of CSHAKE.
--
-- @param Function_Name An optional name for the function for which CSHAKE
-- is being used. This is intended to be used only for NIST-defined
-- constructions based on CSHAKE. For other non-NIST usages this string
-- should be the empty string.
procedure Update (Ctx : in out Context;
Message : in Byte_Array)
with Global => null,
Inline,
Depends => (Ctx =>+ Message),
Pre => State_Of (Ctx) = Updating,
Post => State_Of (Ctx) = Updating;
-- Process bytes with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
-- It can be called multiple times to process a large amount of data.
--
-- @param Ctx The CSHAKE context.
--
-- @param Message The data to process with CSHAKE.
procedure Update (Ctx : in out Context;
Message : in Byte_Array;
Bit_Length : in Natural)
with Global => null,
Depends => (Ctx =>+ (Message, Bit_Length)),
Pre => (State_Of (Ctx) = Updating
and then (Message'Length < Natural'Last / 8)
and then Bit_Length <= Message'Length * 8),
Contract_Cases => (Bit_Length mod 8 = 0 => State_Of (Ctx) = Updating,
others => State_Of (Ctx) = Ready_To_Extract);
-- Process bits with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
--
-- This procedure may be called multiple times to process long messages,
-- as long as the Bit_Length is a multiple of 8 for all calls except the
-- last call, which may use any Bit_Length value.
procedure Extract (Ctx : in out Context;
Digest : out Byte_Array)
with Global => null,
Depends => ((Ctx, Digest) => (Ctx, Digest)),
Post => State_Of (Ctx) = Extracting;
-- Produce output bytes.
--
-- Note that after Extract has been called it is no longer possible to
-- process data using Update.
--
-- This function can be called multiple times to produce an arbitrary
-- amount of output bytes.
--
-- @param Ctx The CSHAKE context.
--
-- @param Digest The output bytes are written to this byte array. The
-- length of this array determines the number of bytes to produce.
function State_Of (Ctx : in Context) return States
with Global => null;
-- Get the current state of a context.
function Rate return Positive
with Global => null,
Post => Rate'Result mod 8 = 0;
-- Get the rate parameter (in bits) of the CSHAKE instance.
--
-- The rate is defined as the underlying state size minus the capacity
-- parameter. E.g. for CSHAKE128 the state size is 1600 bits (the state
-- is based on Keccak[1600]), and the Capacity is 256 bits, which results
-- in a rate of 1600 - 256 = 1344 bits (168 bytes).
private
use type XOF.States;
type Context is record
XOF_Ctx : XOF.Context;
end record;
function State_Of (Ctx : in Context) return States
is (case XOF.State_Of (Ctx.XOF_Ctx) is
when XOF.Updating => Updating,
when XOF.Ready_To_Extract => Ready_To_Extract,
when XOF.Extracting => Extracting);
function Rate return Positive
is (XOF.Rate);
end Keccak.Generic_CSHAKE;
| 11687 | -------------------------------------------------------------------------------
-- Copyright (c) 2019, <NAME>
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Types; use Keccak.Types;
with Keccak.Generic_XOF;
pragma Elaborate_All (Keccak.Generic_XOF);
-- @summary
-- Implements cSHAKE on top of any generic eXtedable Output Function (XOF).
--
-- @description
-- This API is used as follows:
--
-- 1 Initialise a new context by calling Init. Customization strings can be
-- optionally given to Init to provide domain separation between different
-- uses of cSHAKE.
--
-- 2 Call Update one or more times to input an arbitrary amount of data into cSHAKE.
--
-- 3 Call Extract one or more times to produce an arbitrary number of output bytes.
--
-- @group cSHAKE
generic
with package XOF is new Keccak.Generic_XOF (<>);
-- The extendable output function on which the CSHAKE instance is
-- constructed.
package Keccak.Generic_CSHAKE
is
type Context is private;
type States is (Updating, Ready_To_Extract, Extracting);
-- The possible states for the context.
--
-- @value Updating When in this state the context can be fed
-- with input data by calling the Update procedure.
--
-- @value Ready_To_Extract When in this state the Update procedure can
-- no longer be called (i.e. no more data can be input to the context),
-- and the context is ready to generate output data.
--
-- @value Extracting When in this state the context can produce output
-- bytes by calling the Extract procedure.
procedure Init (Ctx : out Context;
Customization : in String := "";
Function_Name : in String := "")
with Global => null,
Depends => (Ctx => (Customization, Function_Name)),
Pre => Customization /= "" or Function_Name /= "",
Post => State_Of (Ctx) = Updating;
-- Initialize the CSHAKE context.
--
-- Note that the Customization and Function_Name strings are optional, but
-- at least one must be a non-empty string. If your use case needs both
-- strings to be empty then SHAKE should be used instead, or
-- Keccak.XOF if a a differently customized version of SHAKE is required.
--
-- In cases where many CSHAKE computations are performed with the same
-- customization and function name strings it is possible to initialize
-- a context once with the desired parameters, then copy the context as
-- many times as necessary for the different computations. The following
-- example creates two contexts initialised to the same value:
--
-- declare
-- Ctx1 : Context;
-- Ctx2 : Context;
-- begin
-- Init (Ctx1, "Example", "");
--
-- Ctx2 := Ctx1;
-- end;
--
-- @param Ctx The context to initialize.
--
-- @param Customization An optional customization string to provide domain
-- separation from different usages of CSHAKE.
--
-- @param Function_Name An optional name for the function for which CSHAKE
-- is being used. This is intended to be used only for NIST-defined
-- constructions based on CSHAKE. For other non-NIST usages this string
-- should be the empty string.
procedure Update (Ctx : in out Context;
Message : in Byte_Array)
with Global => null,
Inline,
Depends => (Ctx =>+ Message),
Pre => State_Of (Ctx) = Updating,
Post => State_Of (Ctx) = Updating;
-- Process bytes with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
-- It can be called multiple times to process a large amount of data.
--
-- @param Ctx The CSHAKE context.
--
-- @param Message The data to process with CSHAKE.
procedure Update (Ctx : in out Context;
Message : in Byte_Array;
Bit_Length : in Natural)
with Global => null,
Depends => (Ctx =>+ (Message, Bit_Length)),
Pre => (State_Of (Ctx) = Updating
and then (Message'Length < Natural'Last / 8)
and then Bit_Length <= Message'Length * 8),
Contract_Cases => (Bit_Length mod 8 = 0 => State_Of (Ctx) = Updating,
others => State_Of (Ctx) = Ready_To_Extract);
-- Process bits with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
--
-- This procedure may be called multiple times to process long messages,
-- as long as the Bit_Length is a multiple of 8 for all calls except the
-- last call, which may use any Bit_Length value.
procedure Extract (Ctx : in out Context;
Digest : out Byte_Array)
with Global => null,
Depends => ((Ctx, Digest) => (Ctx, Digest)),
Post => State_Of (Ctx) = Extracting;
-- Produce output bytes.
--
-- Note that after Extract has been called it is no longer possible to
-- process data using Update.
--
-- This function can be called multiple times to produce an arbitrary
-- amount of output bytes.
--
-- @param Ctx The CSHAKE context.
--
-- @param Digest The output bytes are written to this byte array. The
-- length of this array determines the number of bytes to produce.
function State_Of (Ctx : in Context) return States
with Global => null;
-- Get the current state of a context.
function Rate return Positive
with Global => null,
Post => Rate'Result mod 8 = 0;
-- Get the rate parameter (in bits) of the CSHAKE instance.
--
-- The rate is defined as the underlying state size minus the capacity
-- parameter. E.g. for CSHAKE128 the state size is 1600 bits (the state
-- is based on Keccak[1600]), and the Capacity is 256 bits, which results
-- in a rate of 1600 - 256 = 1344 bits (168 bytes).
private
use type XOF.States;
type Context is record
XOF_Ctx : XOF.Context;
end record;
function State_Of (Ctx : in Context) return States
is (case XOF.State_Of (Ctx.XOF_Ctx) is
when XOF.Updating => Updating,
when XOF.Ready_To_Extract => Ready_To_Extract,
when XOF.Extracting => Extracting);
function Rate return Positive
is (XOF.Rate);
end Keccak.Generic_CSHAKE;
| true | -------------------------------------------------------------------------------
-- Copyright (c) 2019, PI:NAME:<NAME>END_PI
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Types; use Keccak.Types;
with Keccak.Generic_XOF;
pragma Elaborate_All (Keccak.Generic_XOF);
-- @summary
-- Implements cSHAKE on top of any generic eXtedable Output Function (XOF).
--
-- @description
-- This API is used as follows:
--
-- 1 Initialise a new context by calling Init. Customization strings can be
-- optionally given to Init to provide domain separation between different
-- uses of cSHAKE.
--
-- 2 Call Update one or more times to input an arbitrary amount of data into cSHAKE.
--
-- 3 Call Extract one or more times to produce an arbitrary number of output bytes.
--
-- @group cSHAKE
generic
with package XOF is new Keccak.Generic_XOF (<>);
-- The extendable output function on which the CSHAKE instance is
-- constructed.
package Keccak.Generic_CSHAKE
is
type Context is private;
type States is (Updating, Ready_To_Extract, Extracting);
-- The possible states for the context.
--
-- @value Updating When in this state the context can be fed
-- with input data by calling the Update procedure.
--
-- @value Ready_To_Extract When in this state the Update procedure can
-- no longer be called (i.e. no more data can be input to the context),
-- and the context is ready to generate output data.
--
-- @value Extracting When in this state the context can produce output
-- bytes by calling the Extract procedure.
procedure Init (Ctx : out Context;
Customization : in String := "";
Function_Name : in String := "")
with Global => null,
Depends => (Ctx => (Customization, Function_Name)),
Pre => Customization /= "" or Function_Name /= "",
Post => State_Of (Ctx) = Updating;
-- Initialize the CSHAKE context.
--
-- Note that the Customization and Function_Name strings are optional, but
-- at least one must be a non-empty string. If your use case needs both
-- strings to be empty then SHAKE should be used instead, or
-- Keccak.XOF if a a differently customized version of SHAKE is required.
--
-- In cases where many CSHAKE computations are performed with the same
-- customization and function name strings it is possible to initialize
-- a context once with the desired parameters, then copy the context as
-- many times as necessary for the different computations. The following
-- example creates two contexts initialised to the same value:
--
-- declare
-- Ctx1 : Context;
-- Ctx2 : Context;
-- begin
-- Init (Ctx1, "Example", "");
--
-- Ctx2 := Ctx1;
-- end;
--
-- @param Ctx The context to initialize.
--
-- @param Customization An optional customization string to provide domain
-- separation from different usages of CSHAKE.
--
-- @param Function_Name An optional name for the function for which CSHAKE
-- is being used. This is intended to be used only for NIST-defined
-- constructions based on CSHAKE. For other non-NIST usages this string
-- should be the empty string.
procedure Update (Ctx : in out Context;
Message : in Byte_Array)
with Global => null,
Inline,
Depends => (Ctx =>+ Message),
Pre => State_Of (Ctx) = Updating,
Post => State_Of (Ctx) = Updating;
-- Process bytes with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
-- It can be called multiple times to process a large amount of data.
--
-- @param Ctx The CSHAKE context.
--
-- @param Message The data to process with CSHAKE.
procedure Update (Ctx : in out Context;
Message : in Byte_Array;
Bit_Length : in Natural)
with Global => null,
Depends => (Ctx =>+ (Message, Bit_Length)),
Pre => (State_Of (Ctx) = Updating
and then (Message'Length < Natural'Last / 8)
and then Bit_Length <= Message'Length * 8),
Contract_Cases => (Bit_Length mod 8 = 0 => State_Of (Ctx) = Updating,
others => State_Of (Ctx) = Ready_To_Extract);
-- Process bits with CSHAKE.
--
-- This procedure can only be called when the Ctx is in the Updating state.
--
-- This procedure may be called multiple times to process long messages,
-- as long as the Bit_Length is a multiple of 8 for all calls except the
-- last call, which may use any Bit_Length value.
procedure Extract (Ctx : in out Context;
Digest : out Byte_Array)
with Global => null,
Depends => ((Ctx, Digest) => (Ctx, Digest)),
Post => State_Of (Ctx) = Extracting;
-- Produce output bytes.
--
-- Note that after Extract has been called it is no longer possible to
-- process data using Update.
--
-- This function can be called multiple times to produce an arbitrary
-- amount of output bytes.
--
-- @param Ctx The CSHAKE context.
--
-- @param Digest The output bytes are written to this byte array. The
-- length of this array determines the number of bytes to produce.
function State_Of (Ctx : in Context) return States
with Global => null;
-- Get the current state of a context.
function Rate return Positive
with Global => null,
Post => Rate'Result mod 8 = 0;
-- Get the rate parameter (in bits) of the CSHAKE instance.
--
-- The rate is defined as the underlying state size minus the capacity
-- parameter. E.g. for CSHAKE128 the state size is 1600 bits (the state
-- is based on Keccak[1600]), and the Capacity is 256 bits, which results
-- in a rate of 1600 - 256 = 1344 bits (168 bytes).
private
use type XOF.States;
type Context is record
XOF_Ctx : XOF.Context;
end record;
function State_Of (Ctx : in Context) return States
is (case XOF.State_Of (Ctx.XOF_Ctx) is
when XOF.Updating => Updating,
when XOF.Ready_To_Extract => Ready_To_Extract,
when XOF.Extracting => Extracting);
function Rate return Positive
is (XOF.Rate);
end Keccak.Generic_CSHAKE;
|
[
{
"context": "-- part of AdaYaml, (c) 2017 Felix Krause\n-- released under the terms of the MIT license, ",
"end": 42,
"score": 0.9998412132263184,
"start": 30,
"tag": "NAME",
"value": "Felix Krause"
}
] | src/annotation_processor/implementation/yaml-transformator-annotation-concatenation.adb | robdaemon/AdaYaml | 32 | -- part of AdaYaml, (c) 2017 Felix Krause
-- released under the terms of the MIT license, see the file "copying.txt"
with Ada.Unchecked_Deallocation;
package body Yaml.Transformator.Annotation.Concatenation is
procedure Put (Object : in out Instance; E : Event) is
begin
Object.State.all (Object, E);
end Put;
function Has_Next (Object : Instance) return Boolean is
(Object.Current_Exists);
function Next (Object : in out Instance) return Event is
begin
if not Object.Current_Exists then
raise Constraint_Error with "no event to retrieve";
end if;
return Ret : constant Event := Object.Current do
if Object.Current_Aliased.Exists then
Object.Current := Object.Current_Aliased.Value.Next;
case Object.Current.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.Current_Exists := False;
Object.Current_Aliased.Clear;
end if;
when others => null;
end case;
else
Object.Current_Exists := False;
end if;
end return;
end Next;
function New_Concatenation (Pool : Text.Pool.Reference;
Node_Context : Node_Context_Type;
Processor_Context : Events.Context.Reference;
Swallows_Previous : out Boolean)
return not null Pointer is
pragma Unreferenced (Node_Context);
begin
Swallows_Previous := False;
return new Instance'(Transformator.Instance with Pool => Pool,
Context => Processor_Context, others => <>);
end New_Concatenation;
procedure Initial (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_Start then
raise Stream_Error with
"unexpected token (expected annotation start): " & E.Kind'Img;
end if;
Object.Node_Properties := E.Annotation_Properties;
Object.Current.Start_Position := E.Start_Position;
Object.State := After_Annotation_Start'Access;
end Initial;
procedure After_Annotation_Start (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_End then
raise Annotation_Error with
"@@concat does not take any parameters.";
end if;
Object.State := After_Annotation_End'Access;
end After_Annotation_Start;
procedure After_Annotation_End (Object : in out Instance; E : Event) is
begin
if E.Kind /= Sequence_Start then
raise Annotation_Error with
"@@concat must be applied on a sequence.";
end if;
Object.State := After_List_Start'Access;
end After_Annotation_End;
procedure After_List_Start (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create (Object.Pool));
Object.Builder.Append (E.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties => Default_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
case Referred.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create
(Object.Pool));
Object.Builder.Append (Referred.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties =>
Object.Node_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := After_Sequence'Access;
Object.Current_Aliased := Stream.Optional;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end;
end;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end After_List_Start;
procedure In_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
Object.Current := E;
Object.Current_Exists := True;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.State := After_Sequence'Access;
else
Object.Current := E;
Object.Current_Exists := True;
end if;
when others =>
Object.Current := E;
Object.Current_Exists := True;
end case;
end In_Sequence;
procedure After_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := 1;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
if Referred.Kind = Sequence_Start then
Object.Current := Stream.Value.Next;
if Object.Current.Kind /= Sequence_End then
Object.Depth :=
(if Object.Current.Kind = Sequence_Start then
2 else 1);
Object.Current_Exists := True;
Object.Current_Aliased := Stream.Optional;
end if;
else
raise Annotation_Error with
"illegal element in sequence, expected another sequence" &
Referred.Kind'Img;
end if;
end;
end;
when Sequence_End =>
Object.Current := E;
Object.Current_Exists := True;
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in sequence, expected another sequence: " &
E.Kind'Img;
end case;
end After_Sequence;
procedure After_String (Object : in out Instance; E : Event) is
procedure Free is new Ada.Unchecked_Deallocation
(Text.Builder.Reference, Builder_Pointer);
begin
case E.Kind is
when Scalar =>
Object.Builder.Append (E.Content.Value);
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred_Event : constant Event := Stream.Value.Next;
begin
if Referred_Event.Kind /= Scalar then
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end if;
Object.Builder.Append (Referred_Event.Content.Value);
end;
end;
when Sequence_End =>
Object.Current := (Kind => Scalar, Scalar_Style => Any,
Scalar_Properties => Object.Node_Properties,
Start_Position => Object.Current.Start_Position,
End_Position => E.End_Position,
Content => Object.Builder.Lock);
Object.Current_Exists := True;
Free (Object.Builder);
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end case;
end After_String;
procedure After_List_End (Object : in out Instance; E : Event) is
begin
raise Constraint_Error with
"unexpected input to @@concat (already finished)";
end After_List_End;
begin
Map.Include ("concat", New_Concatenation'Access);
end Yaml.Transformator.Annotation.Concatenation;
| 24840 | -- part of AdaYaml, (c) 2017 <NAME>
-- released under the terms of the MIT license, see the file "copying.txt"
with Ada.Unchecked_Deallocation;
package body Yaml.Transformator.Annotation.Concatenation is
procedure Put (Object : in out Instance; E : Event) is
begin
Object.State.all (Object, E);
end Put;
function Has_Next (Object : Instance) return Boolean is
(Object.Current_Exists);
function Next (Object : in out Instance) return Event is
begin
if not Object.Current_Exists then
raise Constraint_Error with "no event to retrieve";
end if;
return Ret : constant Event := Object.Current do
if Object.Current_Aliased.Exists then
Object.Current := Object.Current_Aliased.Value.Next;
case Object.Current.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.Current_Exists := False;
Object.Current_Aliased.Clear;
end if;
when others => null;
end case;
else
Object.Current_Exists := False;
end if;
end return;
end Next;
function New_Concatenation (Pool : Text.Pool.Reference;
Node_Context : Node_Context_Type;
Processor_Context : Events.Context.Reference;
Swallows_Previous : out Boolean)
return not null Pointer is
pragma Unreferenced (Node_Context);
begin
Swallows_Previous := False;
return new Instance'(Transformator.Instance with Pool => Pool,
Context => Processor_Context, others => <>);
end New_Concatenation;
procedure Initial (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_Start then
raise Stream_Error with
"unexpected token (expected annotation start): " & E.Kind'Img;
end if;
Object.Node_Properties := E.Annotation_Properties;
Object.Current.Start_Position := E.Start_Position;
Object.State := After_Annotation_Start'Access;
end Initial;
procedure After_Annotation_Start (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_End then
raise Annotation_Error with
"@@concat does not take any parameters.";
end if;
Object.State := After_Annotation_End'Access;
end After_Annotation_Start;
procedure After_Annotation_End (Object : in out Instance; E : Event) is
begin
if E.Kind /= Sequence_Start then
raise Annotation_Error with
"@@concat must be applied on a sequence.";
end if;
Object.State := After_List_Start'Access;
end After_Annotation_End;
procedure After_List_Start (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create (Object.Pool));
Object.Builder.Append (E.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties => Default_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
case Referred.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create
(Object.Pool));
Object.Builder.Append (Referred.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties =>
Object.Node_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := After_Sequence'Access;
Object.Current_Aliased := Stream.Optional;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end;
end;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end After_List_Start;
procedure In_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
Object.Current := E;
Object.Current_Exists := True;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.State := After_Sequence'Access;
else
Object.Current := E;
Object.Current_Exists := True;
end if;
when others =>
Object.Current := E;
Object.Current_Exists := True;
end case;
end In_Sequence;
procedure After_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := 1;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
if Referred.Kind = Sequence_Start then
Object.Current := Stream.Value.Next;
if Object.Current.Kind /= Sequence_End then
Object.Depth :=
(if Object.Current.Kind = Sequence_Start then
2 else 1);
Object.Current_Exists := True;
Object.Current_Aliased := Stream.Optional;
end if;
else
raise Annotation_Error with
"illegal element in sequence, expected another sequence" &
Referred.Kind'Img;
end if;
end;
end;
when Sequence_End =>
Object.Current := E;
Object.Current_Exists := True;
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in sequence, expected another sequence: " &
E.Kind'Img;
end case;
end After_Sequence;
procedure After_String (Object : in out Instance; E : Event) is
procedure Free is new Ada.Unchecked_Deallocation
(Text.Builder.Reference, Builder_Pointer);
begin
case E.Kind is
when Scalar =>
Object.Builder.Append (E.Content.Value);
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred_Event : constant Event := Stream.Value.Next;
begin
if Referred_Event.Kind /= Scalar then
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end if;
Object.Builder.Append (Referred_Event.Content.Value);
end;
end;
when Sequence_End =>
Object.Current := (Kind => Scalar, Scalar_Style => Any,
Scalar_Properties => Object.Node_Properties,
Start_Position => Object.Current.Start_Position,
End_Position => E.End_Position,
Content => Object.Builder.Lock);
Object.Current_Exists := True;
Free (Object.Builder);
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end case;
end After_String;
procedure After_List_End (Object : in out Instance; E : Event) is
begin
raise Constraint_Error with
"unexpected input to @@concat (already finished)";
end After_List_End;
begin
Map.Include ("concat", New_Concatenation'Access);
end Yaml.Transformator.Annotation.Concatenation;
| true | -- part of AdaYaml, (c) 2017 PI:NAME:<NAME>END_PI
-- released under the terms of the MIT license, see the file "copying.txt"
with Ada.Unchecked_Deallocation;
package body Yaml.Transformator.Annotation.Concatenation is
procedure Put (Object : in out Instance; E : Event) is
begin
Object.State.all (Object, E);
end Put;
function Has_Next (Object : Instance) return Boolean is
(Object.Current_Exists);
function Next (Object : in out Instance) return Event is
begin
if not Object.Current_Exists then
raise Constraint_Error with "no event to retrieve";
end if;
return Ret : constant Event := Object.Current do
if Object.Current_Aliased.Exists then
Object.Current := Object.Current_Aliased.Value.Next;
case Object.Current.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.Current_Exists := False;
Object.Current_Aliased.Clear;
end if;
when others => null;
end case;
else
Object.Current_Exists := False;
end if;
end return;
end Next;
function New_Concatenation (Pool : Text.Pool.Reference;
Node_Context : Node_Context_Type;
Processor_Context : Events.Context.Reference;
Swallows_Previous : out Boolean)
return not null Pointer is
pragma Unreferenced (Node_Context);
begin
Swallows_Previous := False;
return new Instance'(Transformator.Instance with Pool => Pool,
Context => Processor_Context, others => <>);
end New_Concatenation;
procedure Initial (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_Start then
raise Stream_Error with
"unexpected token (expected annotation start): " & E.Kind'Img;
end if;
Object.Node_Properties := E.Annotation_Properties;
Object.Current.Start_Position := E.Start_Position;
Object.State := After_Annotation_Start'Access;
end Initial;
procedure After_Annotation_Start (Object : in out Instance; E : Event) is
begin
if E.Kind /= Annotation_End then
raise Annotation_Error with
"@@concat does not take any parameters.";
end if;
Object.State := After_Annotation_End'Access;
end After_Annotation_Start;
procedure After_Annotation_End (Object : in out Instance; E : Event) is
begin
if E.Kind /= Sequence_Start then
raise Annotation_Error with
"@@concat must be applied on a sequence.";
end if;
Object.State := After_List_Start'Access;
end After_Annotation_End;
procedure After_List_Start (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create (Object.Pool));
Object.Builder.Append (E.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties => Default_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
case Referred.Kind is
when Scalar =>
Object.Builder :=
new Text.Builder.Reference'(Text.Builder.Create
(Object.Pool));
Object.Builder.Append (Referred.Content.Value);
Object.State := After_String'Access;
when Sequence_Start =>
Object.Depth := 1;
Object.Current := Event'(Kind => Sequence_Start,
Collection_Style => Any,
Collection_Properties =>
Object.Node_Properties,
others => <>);
Object.Current_Exists := True;
Object.State := After_Sequence'Access;
Object.Current_Aliased := Stream.Optional;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end;
end;
when others =>
raise Annotation_Error with
"@@concat requires a list of scalars or sequences";
end case;
end After_List_Start;
procedure In_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := Object.Depth + 1;
Object.Current := E;
Object.Current_Exists := True;
when Sequence_End =>
Object.Depth := Object.Depth - 1;
if Object.Depth = 0 then
Object.State := After_Sequence'Access;
else
Object.Current := E;
Object.Current_Exists := True;
end if;
when others =>
Object.Current := E;
Object.Current_Exists := True;
end case;
end In_Sequence;
procedure After_Sequence (Object : in out Instance; E : Event) is
begin
case E.Kind is
when Sequence_Start =>
Object.Depth := 1;
Object.State := In_Sequence'Access;
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred : constant Event := Stream.Value.Next;
begin
if Referred.Kind = Sequence_Start then
Object.Current := Stream.Value.Next;
if Object.Current.Kind /= Sequence_End then
Object.Depth :=
(if Object.Current.Kind = Sequence_Start then
2 else 1);
Object.Current_Exists := True;
Object.Current_Aliased := Stream.Optional;
end if;
else
raise Annotation_Error with
"illegal element in sequence, expected another sequence" &
Referred.Kind'Img;
end if;
end;
end;
when Sequence_End =>
Object.Current := E;
Object.Current_Exists := True;
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in sequence, expected another sequence: " &
E.Kind'Img;
end case;
end After_Sequence;
procedure After_String (Object : in out Instance; E : Event) is
procedure Free is new Ada.Unchecked_Deallocation
(Text.Builder.Reference, Builder_Pointer);
begin
case E.Kind is
when Scalar =>
Object.Builder.Append (E.Content.Value);
when Alias =>
declare
use type Events.Context.Cursor;
use type Text.Reference;
Position : constant Events.Context.Cursor :=
Events.Context.Position (Object.Context, E.Target);
begin
if Position = Events.Context.No_Element then
raise Annotation_Error with "Unresolvable alias: *" &
E.Target;
end if;
declare
Stream : constant Events.Store.Stream_Reference :=
Events.Context.Retrieve (Position);
Referred_Event : constant Event := Stream.Value.Next;
begin
if Referred_Event.Kind /= Scalar then
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end if;
Object.Builder.Append (Referred_Event.Content.Value);
end;
end;
when Sequence_End =>
Object.Current := (Kind => Scalar, Scalar_Style => Any,
Scalar_Properties => Object.Node_Properties,
Start_Position => Object.Current.Start_Position,
End_Position => E.End_Position,
Content => Object.Builder.Lock);
Object.Current_Exists := True;
Free (Object.Builder);
Object.State := After_List_End'Access;
when others =>
raise Annotation_Error with
"illegal element in concatenation sequence, expected another scalar: " &
E.Kind'Img;
end case;
end After_String;
procedure After_List_End (Object : in out Instance; E : Event) is
begin
raise Constraint_Error with
"unexpected input to @@concat (already finished)";
end After_List_End;
begin
Map.Include ("concat", New_Concatenation'Access);
end Yaml.Transformator.Annotation.Concatenation;
|
[
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.9998605251312256,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.999930739402771,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/nodes/program-nodes-case_statements.adb | reznikmm/gela | 0 | -- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Case_Statements is
function Create
(Case_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Is_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
End_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Case_Token_2 : not null Program.Lexical_Elements
.Lexical_Element_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Case_Statement is
begin
return Result : Case_Statement :=
(Case_Token => Case_Token,
Selecting_Expression => Selecting_Expression, Is_Token => Is_Token,
Paths => Paths, End_Token => End_Token, Case_Token_2 => Case_Token_2,
Semicolon_Token => Semicolon_Token, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Case_Statement is
begin
return Result : Implicit_Case_Statement :=
(Selecting_Expression => Selecting_Expression, Paths => Paths,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Selecting_Expression
(Self : Base_Case_Statement)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Selecting_Expression;
end Selecting_Expression;
overriding function Paths
(Self : Base_Case_Statement)
return not null Program.Elements.Case_Paths.Case_Path_Vector_Access is
begin
return Self.Paths;
end Paths;
overriding function Case_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token;
end Case_Token;
overriding function Is_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Is_Token;
end Is_Token;
overriding function End_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.End_Token;
end End_Token;
overriding function Case_Token_2
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token_2;
end Case_Token_2;
overriding function Semicolon_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize (Self : in out Base_Case_Statement'Class) is
begin
Set_Enclosing_Element (Self.Selecting_Expression, Self'Unchecked_Access);
for Item in Self.Paths.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Case_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Case_Statement;
overriding function Is_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Statement;
overriding procedure Visit
(Self : not null access Base_Case_Statement;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Case_Statement (Self);
end Visit;
overriding function To_Case_Statement_Text
(Self : in out Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
begin
return Self'Unchecked_Access;
end To_Case_Statement_Text;
overriding function To_Case_Statement_Text
(Self : in out Implicit_Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Case_Statement_Text;
end Program.Nodes.Case_Statements;
| 27996 | -- SPDX-FileCopyrightText: 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Case_Statements is
function Create
(Case_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Is_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
End_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Case_Token_2 : not null Program.Lexical_Elements
.Lexical_Element_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Case_Statement is
begin
return Result : Case_Statement :=
(Case_Token => Case_Token,
Selecting_Expression => Selecting_Expression, Is_Token => Is_Token,
Paths => Paths, End_Token => End_Token, Case_Token_2 => Case_Token_2,
Semicolon_Token => Semicolon_Token, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Case_Statement is
begin
return Result : Implicit_Case_Statement :=
(Selecting_Expression => Selecting_Expression, Paths => Paths,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Selecting_Expression
(Self : Base_Case_Statement)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Selecting_Expression;
end Selecting_Expression;
overriding function Paths
(Self : Base_Case_Statement)
return not null Program.Elements.Case_Paths.Case_Path_Vector_Access is
begin
return Self.Paths;
end Paths;
overriding function Case_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token;
end Case_Token;
overriding function Is_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Is_Token;
end Is_Token;
overriding function End_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.End_Token;
end End_Token;
overriding function Case_Token_2
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token_2;
end Case_Token_2;
overriding function Semicolon_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize (Self : in out Base_Case_Statement'Class) is
begin
Set_Enclosing_Element (Self.Selecting_Expression, Self'Unchecked_Access);
for Item in Self.Paths.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Case_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Case_Statement;
overriding function Is_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Statement;
overriding procedure Visit
(Self : not null access Base_Case_Statement;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Case_Statement (Self);
end Visit;
overriding function To_Case_Statement_Text
(Self : in out Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
begin
return Self'Unchecked_Access;
end To_Case_Statement_Text;
overriding function To_Case_Statement_Text
(Self : in out Implicit_Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Case_Statement_Text;
end Program.Nodes.Case_Statements;
| true | -- SPDX-FileCopyrightText: 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Case_Statements is
function Create
(Case_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Is_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
End_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Case_Token_2 : not null Program.Lexical_Elements
.Lexical_Element_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Case_Statement is
begin
return Result : Case_Statement :=
(Case_Token => Case_Token,
Selecting_Expression => Selecting_Expression, Is_Token => Is_Token,
Paths => Paths, End_Token => End_Token, Case_Token_2 => Case_Token_2,
Semicolon_Token => Semicolon_Token, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Selecting_Expression : not null Program.Elements.Expressions
.Expression_Access;
Paths : not null Program.Elements.Case_Paths
.Case_Path_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Case_Statement is
begin
return Result : Implicit_Case_Statement :=
(Selecting_Expression => Selecting_Expression, Paths => Paths,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Selecting_Expression
(Self : Base_Case_Statement)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Selecting_Expression;
end Selecting_Expression;
overriding function Paths
(Self : Base_Case_Statement)
return not null Program.Elements.Case_Paths.Case_Path_Vector_Access is
begin
return Self.Paths;
end Paths;
overriding function Case_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token;
end Case_Token;
overriding function Is_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Is_Token;
end Is_Token;
overriding function End_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.End_Token;
end End_Token;
overriding function Case_Token_2
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Case_Token_2;
end Case_Token_2;
overriding function Semicolon_Token
(Self : Case_Statement)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Case_Statement)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize (Self : in out Base_Case_Statement'Class) is
begin
Set_Enclosing_Element (Self.Selecting_Expression, Self'Unchecked_Access);
for Item in Self.Paths.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Case_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Case_Statement;
overriding function Is_Statement
(Self : Base_Case_Statement)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Statement;
overriding procedure Visit
(Self : not null access Base_Case_Statement;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Case_Statement (Self);
end Visit;
overriding function To_Case_Statement_Text
(Self : in out Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
begin
return Self'Unchecked_Access;
end To_Case_Statement_Text;
overriding function To_Case_Statement_Text
(Self : in out Implicit_Case_Statement)
return Program.Elements.Case_Statements.Case_Statement_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Case_Statement_Text;
end Program.Nodes.Case_Statements;
|
[
{
"context": "---------------------------\n-- Copyright (c) 2014, Natacha Porté --\n-- ",
"end": 115,
"score": 0.9998552799224854,
"start": 102,
"tag": "NAME",
"value": "Natacha Porté"
}
] | tools/hmac-pinentry.ads | faelys/natools | 0 | ------------------------------------------------------------------------------
-- Copyright (c) 2014, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- HMAC.Pinentry encapsulates communication with `pinentry` utility from --
-- GnuPG project. --
-- Depending on communication features available, the package might not be --
-- functional on all targets. A client should use Is_Available function to --
-- ensure the underlying implentation is indeed operational. --
------------------------------------------------------------------------------
package HMAC.Pinentry is
Backend_Error : exception;
function Get_Key (Command : String) return String;
-- Run the given Command and communicate with it using pinentry protocol
-- and return a secret String or raise Backend_Error.
function Is_Available return Boolean;
-- Check whether Get_Key can actually work
end HMAC.Pinentry;
| 6920 | ------------------------------------------------------------------------------
-- Copyright (c) 2014, <NAME> --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- HMAC.Pinentry encapsulates communication with `pinentry` utility from --
-- GnuPG project. --
-- Depending on communication features available, the package might not be --
-- functional on all targets. A client should use Is_Available function to --
-- ensure the underlying implentation is indeed operational. --
------------------------------------------------------------------------------
package HMAC.Pinentry is
Backend_Error : exception;
function Get_Key (Command : String) return String;
-- Run the given Command and communicate with it using pinentry protocol
-- and return a secret String or raise Backend_Error.
function Is_Available return Boolean;
-- Check whether Get_Key can actually work
end HMAC.Pinentry;
| true | ------------------------------------------------------------------------------
-- Copyright (c) 2014, PI:NAME:<NAME>END_PI --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- HMAC.Pinentry encapsulates communication with `pinentry` utility from --
-- GnuPG project. --
-- Depending on communication features available, the package might not be --
-- functional on all targets. A client should use Is_Available function to --
-- ensure the underlying implentation is indeed operational. --
------------------------------------------------------------------------------
package HMAC.Pinentry is
Backend_Error : exception;
function Get_Key (Command : String) return String;
-- Run the given Command and communicate with it using pinentry protocol
-- and return a secret String or raise Backend_Error.
function Is_Available return Boolean;
-- Check whether Get_Key can actually work
end HMAC.Pinentry;
|
[
{
"context": "t Multimedia Library\n-- // Copyright (C) 2007-2009 Laurent Gomila (laurent.gom@gmail.com)\n-- //\n-- // This software",
"end": 162,
"score": 0.9998880624771118,
"start": 148,
"tag": "NAME",
"value": "Laurent Gomila"
},
{
"context": "ary\n-- // Copyright (C) 2007-2009 Laurent Gomila (laurent.gom@gmail.com)\n-- //\n-- // This software is provided 'as-is', w",
"end": 185,
"score": 0.9999303817749023,
"start": 164,
"tag": "EMAIL",
"value": "laurent.gom@gmail.com"
}
] | include/sf-audio-soundstream.ads | danva994/ASFML-1.6 | 1 | -- ////////////////////////////////////////////////////////////
-- //
-- // SFML - Simple and Fast Multimedia Library
-- // Copyright (C) 2007-2009 Laurent Gomila (laurent.gom@gmail.com)
-- //
-- // This software is provided 'as-is', without any express or implied warranty.
-- // In no event will the authors be held liable for any damages arising from the use of this software.
-- //
-- // Permission is granted to anyone to use this software for any purpose,
-- // including commercial applications, and to alter it and redistribute it freely,
-- // subject to the following restrictions:
-- //
-- // 1. The origin of this software must not be misrepresented;
-- // you must not claim that you wrote the original software.
-- // If you use this software in a product, an acknowledgment
-- // in the product documentation would be appreciated but is not required.
-- //
-- // 2. Altered source versions must be plainly marked as such,
-- // and must not be misrepresented as being the original software.
-- //
-- // 3. This notice may not be removed or altered from any source distribution.
-- //
-- ////////////////////////////////////////////////////////////
-- ////////////////////////////////////////////////////////////
-- // Headers
-- ////////////////////////////////////////////////////////////
with Sf.Config;
with Sf.Audio.SoundStatus;
with Sf.Audio.Types;
package Sf.Audio.SoundStream is
use Sf.Config;
use Sf.Audio.SoundStatus;
use Sf.Audio.Types;
-- ////////////////////////////////////////////////////////////
-- /// sfSoundStreamChunk defines the data to fill by the
-- /// OnGetData callback
-- ////////////////////////////////////////////////////////////
type sfSoundStreamChunk is record
Samples : sfInt16_Ptr; -- ///< Pointer to the audio samples
NbSamples : aliased sfUint32; -- ///< Number of samples pointed by Samples
end record;
type sfSoundStreamStartCallback is access function (Arg0 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to start a sound stream
type sfSoundStreamGetDataCallback is access function (Arg0 : access sfSoundStreamChunk; Arg1 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to get a sound stream data
-- ////////////////////////////////////////////////////////////
-- /// Construct a new sound stream
-- ///
-- /// \param OnStart : Function called when the stream starts (can be NULL)
-- /// \param OnGetData : Function called when the stream needs more data (can't be NULL)
-- /// \param ChannelsCount : Number of channels to use (1 = mono, 2 = stereo)
-- /// \param SampleRate : Sample rate of the sound (44100 = CD quality)
-- /// \param UserData : Data to pass to the callback functions
-- ///
-- /// \return A new sfSoundStream object (NULL if failed)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_Create
(OnStart : sfSoundStreamStartCallback;
OnGetData : sfSoundStreamGetDataCallback;
ChannelsCount : sfUint32;
SampleRate : sfUint32;
UserData : sfVoid_Ptr)
return sfSoundStream_Ptr;
-- ////////////////////////////////////////////////////////////
-- /// Destroy an existing sound stream
-- ///
-- /// \param SoundStream : Sound stream to delete
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Destroy (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Start playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to play
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Play (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Pause a sound stream
-- ///
-- /// \param SoundStream : Sound stream to pause
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Pause (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Stop playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to stop
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Stop (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Get the status of a sound stream (stopped, paused, playing)
-- ///
-- /// \param SoundStream : Sound stream to get the status from
-- ///
-- /// \return Current status of the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetStatus (SoundStream : sfSoundStream_Ptr) return sfSoundStatus;
-- ////////////////////////////////////////////////////////////
-- /// Return the number of channels of a sound stream
-- /// (1 = mono, 2 = stereo)
-- ///
-- /// \param SoundStream : Sound stream to get the channels count from
-- ///
-- /// \return Number of channels
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetChannelsCount (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Get the sample rate of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the sample rate from
-- ///
-- /// \return Stream frequency (number of samples per second)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetSampleRate (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Set the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Pitch : New pitch
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPitch (SoundStream : sfSoundStream_Ptr; Pitch : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Volume : Volume (in range [0, 100])
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetVolume (SoundStream : sfSoundStream_Ptr; Volume : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : Float);
-- ////////////////////////////////////////////////////////////
-- /// Make the sound stream's position relative to the listener's
-- /// position, or absolute.
-- /// The default value is false (absolute)
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Relative : True to set the position relative, false to set it absolute
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetRelativeToListener (SoundStream : sfSoundStream_Ptr; Relative : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Set the minimum distance - closer than this distance,
-- /// the listener will hear the sound stream at its maximum volume.
-- /// The default minimum distance is 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param MinDistance : New minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetMinDistance (SoundStream : sfSoundStream_Ptr; MinDistance : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the attenuation factor - the higher the attenuation, the
-- /// more the sound stream will be attenuated with distance from listener.
-- /// The default attenuation factor 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Attenuation : New attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetAttenuation (SoundStream : sfSoundStream_Ptr; Attenuation : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set a stream loop state
-- ///
-- /// \param SoundStream : Stream to set the loop state
-- /// \param Loop : sfTrue to play in loop, sfFalse to play once
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetLoop (SoundStream : sfSoundStream_Ptr; Enable : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Get the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the pitch from
-- ///
-- /// \return Pitch value
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPitch (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the volume from
-- ///
-- /// \return Volume value (in range [1, 100])
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetVolume (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_GetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : access Float);
-- ////////////////////////////////////////////////////////////
-- /// Tell if the sound stream's position is relative to the listener's
-- /// position, or if it's absolute
-- ///
-- /// \param SoundStream : Sound stream to check
-- ///
-- /// \return sfTrue if the position is relative, sfFalse if it's absolute
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_IsRelativeToListener (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the minimum distance of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the minimum distance from
-- ///
-- /// \return Minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetMinDistance (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the attenuation factor of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the attenuation factor from
-- ///
-- /// \return Attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetAttenuation (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Tell whether or not a stream is looping
-- ///
-- /// \param SoundStream : Soundstream to get the loop state from
-- ///
-- /// \return sfTrue if the stream is looping, sfFalse otherwise
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetLoop (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the current playing position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- ///
-- /// \return Current playing position, expressed in seconds
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPlayingOffset (SoundStream : sfSoundStream_Ptr) return Float;
private
pragma Convention (C, sfSoundStreamStartCallback);
pragma Convention (C, sfSoundStreamGetDataCallback);
pragma Convention (C_Pass_By_Copy, sfSoundStreamChunk);
pragma Import (C, sfSoundStream_Create, "sfSoundStream_Create");
pragma Import (C, sfSoundStream_Destroy, "sfSoundStream_Destroy");
pragma Import (C, sfSoundStream_Play, "sfSoundStream_Play");
pragma Import (C, sfSoundStream_Pause, "sfSoundStream_Pause");
pragma Import (C, sfSoundStream_Stop, "sfSoundStream_Stop");
pragma Import (C, sfSoundStream_GetStatus, "sfSoundStream_GetStatus");
pragma Import (C, sfSoundStream_GetChannelsCount, "sfSoundStream_GetChannelsCount");
pragma Import (C, sfSoundStream_GetSampleRate, "sfSoundStream_GetSampleRate");
pragma Import (C, sfSoundStream_SetPitch, "sfSoundStream_SetPitch");
pragma Import (C, sfSoundStream_SetVolume, "sfSoundStream_SetVolume");
pragma Import (C, sfSoundStream_SetPosition, "sfSoundStream_SetPosition");
pragma Import (C, sfSoundStream_SetRelativeToListener, "sfSoundStream_SetRelativeToListener");
pragma Import (C, sfSoundStream_SetMinDistance, "sfSoundStream_SetMinDistance");
pragma Import (C, sfSoundStream_SetAttenuation, "sfSoundStream_SetAttenuation");
pragma Import (C, sfSoundStream_SetLoop, "sfSoundStream_SetLoop");
pragma Import (C, sfSoundStream_GetPitch, "sfSoundStream_GetPitch");
pragma Import (C, sfSoundStream_GetVolume, "sfSoundStream_GetVolume");
pragma Import (C, sfSoundStream_GetPosition, "sfSoundStream_GetPosition");
pragma Import (C, sfSoundStream_IsRelativeToListener, "sfSoundStream_IsRelativeToListener");
pragma Import (C, sfSoundStream_GetMinDistance, "sfSoundStream_GetMinDistance");
pragma Import (C, sfSoundStream_GetAttenuation, "sfSoundStream_GetAttenuation");
pragma Import (C, sfSoundStream_GetLoop, "sfSoundStream_GetLoop");
pragma Import (C, sfSoundStream_GetPlayingOffset, "sfSoundStream_GetPlayingOffset");
end Sf.Audio.SoundStream;
| 14322 | -- ////////////////////////////////////////////////////////////
-- //
-- // SFML - Simple and Fast Multimedia Library
-- // Copyright (C) 2007-2009 <NAME> (<EMAIL>)
-- //
-- // This software is provided 'as-is', without any express or implied warranty.
-- // In no event will the authors be held liable for any damages arising from the use of this software.
-- //
-- // Permission is granted to anyone to use this software for any purpose,
-- // including commercial applications, and to alter it and redistribute it freely,
-- // subject to the following restrictions:
-- //
-- // 1. The origin of this software must not be misrepresented;
-- // you must not claim that you wrote the original software.
-- // If you use this software in a product, an acknowledgment
-- // in the product documentation would be appreciated but is not required.
-- //
-- // 2. Altered source versions must be plainly marked as such,
-- // and must not be misrepresented as being the original software.
-- //
-- // 3. This notice may not be removed or altered from any source distribution.
-- //
-- ////////////////////////////////////////////////////////////
-- ////////////////////////////////////////////////////////////
-- // Headers
-- ////////////////////////////////////////////////////////////
with Sf.Config;
with Sf.Audio.SoundStatus;
with Sf.Audio.Types;
package Sf.Audio.SoundStream is
use Sf.Config;
use Sf.Audio.SoundStatus;
use Sf.Audio.Types;
-- ////////////////////////////////////////////////////////////
-- /// sfSoundStreamChunk defines the data to fill by the
-- /// OnGetData callback
-- ////////////////////////////////////////////////////////////
type sfSoundStreamChunk is record
Samples : sfInt16_Ptr; -- ///< Pointer to the audio samples
NbSamples : aliased sfUint32; -- ///< Number of samples pointed by Samples
end record;
type sfSoundStreamStartCallback is access function (Arg0 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to start a sound stream
type sfSoundStreamGetDataCallback is access function (Arg0 : access sfSoundStreamChunk; Arg1 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to get a sound stream data
-- ////////////////////////////////////////////////////////////
-- /// Construct a new sound stream
-- ///
-- /// \param OnStart : Function called when the stream starts (can be NULL)
-- /// \param OnGetData : Function called when the stream needs more data (can't be NULL)
-- /// \param ChannelsCount : Number of channels to use (1 = mono, 2 = stereo)
-- /// \param SampleRate : Sample rate of the sound (44100 = CD quality)
-- /// \param UserData : Data to pass to the callback functions
-- ///
-- /// \return A new sfSoundStream object (NULL if failed)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_Create
(OnStart : sfSoundStreamStartCallback;
OnGetData : sfSoundStreamGetDataCallback;
ChannelsCount : sfUint32;
SampleRate : sfUint32;
UserData : sfVoid_Ptr)
return sfSoundStream_Ptr;
-- ////////////////////////////////////////////////////////////
-- /// Destroy an existing sound stream
-- ///
-- /// \param SoundStream : Sound stream to delete
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Destroy (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Start playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to play
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Play (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Pause a sound stream
-- ///
-- /// \param SoundStream : Sound stream to pause
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Pause (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Stop playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to stop
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Stop (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Get the status of a sound stream (stopped, paused, playing)
-- ///
-- /// \param SoundStream : Sound stream to get the status from
-- ///
-- /// \return Current status of the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetStatus (SoundStream : sfSoundStream_Ptr) return sfSoundStatus;
-- ////////////////////////////////////////////////////////////
-- /// Return the number of channels of a sound stream
-- /// (1 = mono, 2 = stereo)
-- ///
-- /// \param SoundStream : Sound stream to get the channels count from
-- ///
-- /// \return Number of channels
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetChannelsCount (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Get the sample rate of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the sample rate from
-- ///
-- /// \return Stream frequency (number of samples per second)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetSampleRate (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Set the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Pitch : New pitch
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPitch (SoundStream : sfSoundStream_Ptr; Pitch : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Volume : Volume (in range [0, 100])
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetVolume (SoundStream : sfSoundStream_Ptr; Volume : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : Float);
-- ////////////////////////////////////////////////////////////
-- /// Make the sound stream's position relative to the listener's
-- /// position, or absolute.
-- /// The default value is false (absolute)
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Relative : True to set the position relative, false to set it absolute
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetRelativeToListener (SoundStream : sfSoundStream_Ptr; Relative : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Set the minimum distance - closer than this distance,
-- /// the listener will hear the sound stream at its maximum volume.
-- /// The default minimum distance is 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param MinDistance : New minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetMinDistance (SoundStream : sfSoundStream_Ptr; MinDistance : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the attenuation factor - the higher the attenuation, the
-- /// more the sound stream will be attenuated with distance from listener.
-- /// The default attenuation factor 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Attenuation : New attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetAttenuation (SoundStream : sfSoundStream_Ptr; Attenuation : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set a stream loop state
-- ///
-- /// \param SoundStream : Stream to set the loop state
-- /// \param Loop : sfTrue to play in loop, sfFalse to play once
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetLoop (SoundStream : sfSoundStream_Ptr; Enable : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Get the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the pitch from
-- ///
-- /// \return Pitch value
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPitch (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the volume from
-- ///
-- /// \return Volume value (in range [1, 100])
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetVolume (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_GetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : access Float);
-- ////////////////////////////////////////////////////////////
-- /// Tell if the sound stream's position is relative to the listener's
-- /// position, or if it's absolute
-- ///
-- /// \param SoundStream : Sound stream to check
-- ///
-- /// \return sfTrue if the position is relative, sfFalse if it's absolute
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_IsRelativeToListener (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the minimum distance of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the minimum distance from
-- ///
-- /// \return Minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetMinDistance (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the attenuation factor of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the attenuation factor from
-- ///
-- /// \return Attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetAttenuation (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Tell whether or not a stream is looping
-- ///
-- /// \param SoundStream : Soundstream to get the loop state from
-- ///
-- /// \return sfTrue if the stream is looping, sfFalse otherwise
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetLoop (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the current playing position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- ///
-- /// \return Current playing position, expressed in seconds
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPlayingOffset (SoundStream : sfSoundStream_Ptr) return Float;
private
pragma Convention (C, sfSoundStreamStartCallback);
pragma Convention (C, sfSoundStreamGetDataCallback);
pragma Convention (C_Pass_By_Copy, sfSoundStreamChunk);
pragma Import (C, sfSoundStream_Create, "sfSoundStream_Create");
pragma Import (C, sfSoundStream_Destroy, "sfSoundStream_Destroy");
pragma Import (C, sfSoundStream_Play, "sfSoundStream_Play");
pragma Import (C, sfSoundStream_Pause, "sfSoundStream_Pause");
pragma Import (C, sfSoundStream_Stop, "sfSoundStream_Stop");
pragma Import (C, sfSoundStream_GetStatus, "sfSoundStream_GetStatus");
pragma Import (C, sfSoundStream_GetChannelsCount, "sfSoundStream_GetChannelsCount");
pragma Import (C, sfSoundStream_GetSampleRate, "sfSoundStream_GetSampleRate");
pragma Import (C, sfSoundStream_SetPitch, "sfSoundStream_SetPitch");
pragma Import (C, sfSoundStream_SetVolume, "sfSoundStream_SetVolume");
pragma Import (C, sfSoundStream_SetPosition, "sfSoundStream_SetPosition");
pragma Import (C, sfSoundStream_SetRelativeToListener, "sfSoundStream_SetRelativeToListener");
pragma Import (C, sfSoundStream_SetMinDistance, "sfSoundStream_SetMinDistance");
pragma Import (C, sfSoundStream_SetAttenuation, "sfSoundStream_SetAttenuation");
pragma Import (C, sfSoundStream_SetLoop, "sfSoundStream_SetLoop");
pragma Import (C, sfSoundStream_GetPitch, "sfSoundStream_GetPitch");
pragma Import (C, sfSoundStream_GetVolume, "sfSoundStream_GetVolume");
pragma Import (C, sfSoundStream_GetPosition, "sfSoundStream_GetPosition");
pragma Import (C, sfSoundStream_IsRelativeToListener, "sfSoundStream_IsRelativeToListener");
pragma Import (C, sfSoundStream_GetMinDistance, "sfSoundStream_GetMinDistance");
pragma Import (C, sfSoundStream_GetAttenuation, "sfSoundStream_GetAttenuation");
pragma Import (C, sfSoundStream_GetLoop, "sfSoundStream_GetLoop");
pragma Import (C, sfSoundStream_GetPlayingOffset, "sfSoundStream_GetPlayingOffset");
end Sf.Audio.SoundStream;
| true | -- ////////////////////////////////////////////////////////////
-- //
-- // SFML - Simple and Fast Multimedia Library
-- // Copyright (C) 2007-2009 PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
-- //
-- // This software is provided 'as-is', without any express or implied warranty.
-- // In no event will the authors be held liable for any damages arising from the use of this software.
-- //
-- // Permission is granted to anyone to use this software for any purpose,
-- // including commercial applications, and to alter it and redistribute it freely,
-- // subject to the following restrictions:
-- //
-- // 1. The origin of this software must not be misrepresented;
-- // you must not claim that you wrote the original software.
-- // If you use this software in a product, an acknowledgment
-- // in the product documentation would be appreciated but is not required.
-- //
-- // 2. Altered source versions must be plainly marked as such,
-- // and must not be misrepresented as being the original software.
-- //
-- // 3. This notice may not be removed or altered from any source distribution.
-- //
-- ////////////////////////////////////////////////////////////
-- ////////////////////////////////////////////////////////////
-- // Headers
-- ////////////////////////////////////////////////////////////
with Sf.Config;
with Sf.Audio.SoundStatus;
with Sf.Audio.Types;
package Sf.Audio.SoundStream is
use Sf.Config;
use Sf.Audio.SoundStatus;
use Sf.Audio.Types;
-- ////////////////////////////////////////////////////////////
-- /// sfSoundStreamChunk defines the data to fill by the
-- /// OnGetData callback
-- ////////////////////////////////////////////////////////////
type sfSoundStreamChunk is record
Samples : sfInt16_Ptr; -- ///< Pointer to the audio samples
NbSamples : aliased sfUint32; -- ///< Number of samples pointed by Samples
end record;
type sfSoundStreamStartCallback is access function (Arg0 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to start a sound stream
type sfSoundStreamGetDataCallback is access function (Arg0 : access sfSoundStreamChunk; Arg1 : sfVoid_Ptr) return sfBool; -- ///< Type of the callback used to get a sound stream data
-- ////////////////////////////////////////////////////////////
-- /// Construct a new sound stream
-- ///
-- /// \param OnStart : Function called when the stream starts (can be NULL)
-- /// \param OnGetData : Function called when the stream needs more data (can't be NULL)
-- /// \param ChannelsCount : Number of channels to use (1 = mono, 2 = stereo)
-- /// \param SampleRate : Sample rate of the sound (44100 = CD quality)
-- /// \param UserData : Data to pass to the callback functions
-- ///
-- /// \return A new sfSoundStream object (NULL if failed)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_Create
(OnStart : sfSoundStreamStartCallback;
OnGetData : sfSoundStreamGetDataCallback;
ChannelsCount : sfUint32;
SampleRate : sfUint32;
UserData : sfVoid_Ptr)
return sfSoundStream_Ptr;
-- ////////////////////////////////////////////////////////////
-- /// Destroy an existing sound stream
-- ///
-- /// \param SoundStream : Sound stream to delete
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Destroy (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Start playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to play
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Play (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Pause a sound stream
-- ///
-- /// \param SoundStream : Sound stream to pause
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Pause (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Stop playing a sound stream
-- ///
-- /// \param SoundStream : Sound stream to stop
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_Stop (SoundStream : sfSoundStream_Ptr);
-- ////////////////////////////////////////////////////////////
-- /// Get the status of a sound stream (stopped, paused, playing)
-- ///
-- /// \param SoundStream : Sound stream to get the status from
-- ///
-- /// \return Current status of the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetStatus (SoundStream : sfSoundStream_Ptr) return sfSoundStatus;
-- ////////////////////////////////////////////////////////////
-- /// Return the number of channels of a sound stream
-- /// (1 = mono, 2 = stereo)
-- ///
-- /// \param SoundStream : Sound stream to get the channels count from
-- ///
-- /// \return Number of channels
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetChannelsCount (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Get the sample rate of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the sample rate from
-- ///
-- /// \return Stream frequency (number of samples per second)
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetSampleRate (SoundStream : sfSoundStream_Ptr) return sfUint32;
-- ////////////////////////////////////////////////////////////
-- /// Set the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Pitch : New pitch
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPitch (SoundStream : sfSoundStream_Ptr; Pitch : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Volume : Volume (in range [0, 100])
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetVolume (SoundStream : sfSoundStream_Ptr; Volume : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : Float);
-- ////////////////////////////////////////////////////////////
-- /// Make the sound stream's position relative to the listener's
-- /// position, or absolute.
-- /// The default value is false (absolute)
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Relative : True to set the position relative, false to set it absolute
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetRelativeToListener (SoundStream : sfSoundStream_Ptr; Relative : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Set the minimum distance - closer than this distance,
-- /// the listener will hear the sound stream at its maximum volume.
-- /// The default minimum distance is 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param MinDistance : New minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetMinDistance (SoundStream : sfSoundStream_Ptr; MinDistance : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set the attenuation factor - the higher the attenuation, the
-- /// more the sound stream will be attenuated with distance from listener.
-- /// The default attenuation factor 1.0
-- ///
-- /// \param SoundStream : Sound stream to modify
-- /// \param Attenuation : New attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetAttenuation (SoundStream : sfSoundStream_Ptr; Attenuation : Float);
-- ////////////////////////////////////////////////////////////
-- /// Set a stream loop state
-- ///
-- /// \param SoundStream : Stream to set the loop state
-- /// \param Loop : sfTrue to play in loop, sfFalse to play once
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_SetLoop (SoundStream : sfSoundStream_Ptr; Enable : sfBool);
-- ////////////////////////////////////////////////////////////
-- /// Get the pitch of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the pitch from
-- ///
-- /// \return Pitch value
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPitch (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the volume of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the volume from
-- ///
-- /// \return Volume value (in range [1, 100])
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetVolume (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- /// \param X : X position of the sound stream in the world
-- /// \param Y : Y position of the sound stream in the world
-- /// \param Z : Z position of the sound stream in the world
-- ///
-- ////////////////////////////////////////////////////////////
procedure sfSoundStream_GetPosition (SoundStream : sfSoundStream_Ptr; X, Y, Z : access Float);
-- ////////////////////////////////////////////////////////////
-- /// Tell if the sound stream's position is relative to the listener's
-- /// position, or if it's absolute
-- ///
-- /// \param SoundStream : Sound stream to check
-- ///
-- /// \return sfTrue if the position is relative, sfFalse if it's absolute
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_IsRelativeToListener (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the minimum distance of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the minimum distance from
-- ///
-- /// \return Minimum distance for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetMinDistance (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Get the attenuation factor of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the attenuation factor from
-- ///
-- /// \return Attenuation factor for the sound stream
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetAttenuation (SoundStream : sfSoundStream_Ptr) return Float;
-- ////////////////////////////////////////////////////////////
-- /// Tell whether or not a stream is looping
-- ///
-- /// \param SoundStream : Soundstream to get the loop state from
-- ///
-- /// \return sfTrue if the stream is looping, sfFalse otherwise
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetLoop (SoundStream : sfSoundStream_Ptr) return sfBool;
-- ////////////////////////////////////////////////////////////
-- /// Get the current playing position of a sound stream
-- ///
-- /// \param SoundStream : Sound stream to get the position from
-- ///
-- /// \return Current playing position, expressed in seconds
-- ///
-- ////////////////////////////////////////////////////////////
function sfSoundStream_GetPlayingOffset (SoundStream : sfSoundStream_Ptr) return Float;
private
pragma Convention (C, sfSoundStreamStartCallback);
pragma Convention (C, sfSoundStreamGetDataCallback);
pragma Convention (C_Pass_By_Copy, sfSoundStreamChunk);
pragma Import (C, sfSoundStream_Create, "sfSoundStream_Create");
pragma Import (C, sfSoundStream_Destroy, "sfSoundStream_Destroy");
pragma Import (C, sfSoundStream_Play, "sfSoundStream_Play");
pragma Import (C, sfSoundStream_Pause, "sfSoundStream_Pause");
pragma Import (C, sfSoundStream_Stop, "sfSoundStream_Stop");
pragma Import (C, sfSoundStream_GetStatus, "sfSoundStream_GetStatus");
pragma Import (C, sfSoundStream_GetChannelsCount, "sfSoundStream_GetChannelsCount");
pragma Import (C, sfSoundStream_GetSampleRate, "sfSoundStream_GetSampleRate");
pragma Import (C, sfSoundStream_SetPitch, "sfSoundStream_SetPitch");
pragma Import (C, sfSoundStream_SetVolume, "sfSoundStream_SetVolume");
pragma Import (C, sfSoundStream_SetPosition, "sfSoundStream_SetPosition");
pragma Import (C, sfSoundStream_SetRelativeToListener, "sfSoundStream_SetRelativeToListener");
pragma Import (C, sfSoundStream_SetMinDistance, "sfSoundStream_SetMinDistance");
pragma Import (C, sfSoundStream_SetAttenuation, "sfSoundStream_SetAttenuation");
pragma Import (C, sfSoundStream_SetLoop, "sfSoundStream_SetLoop");
pragma Import (C, sfSoundStream_GetPitch, "sfSoundStream_GetPitch");
pragma Import (C, sfSoundStream_GetVolume, "sfSoundStream_GetVolume");
pragma Import (C, sfSoundStream_GetPosition, "sfSoundStream_GetPosition");
pragma Import (C, sfSoundStream_IsRelativeToListener, "sfSoundStream_IsRelativeToListener");
pragma Import (C, sfSoundStream_GetMinDistance, "sfSoundStream_GetMinDistance");
pragma Import (C, sfSoundStream_GetAttenuation, "sfSoundStream_GetAttenuation");
pragma Import (C, sfSoundStream_GetLoop, "sfSoundStream_GetLoop");
pragma Import (C, sfSoundStream_GetPlayingOffset, "sfSoundStream_GetPlayingOffset");
end Sf.Audio.SoundStream;
|
[
{
"context": " Copyright (C) 2011, 2012, 2013, 2014, 2016, 2017 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 169,
"score": 0.9998652338981628,
"start": 154,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "3, 2014, 2016, 2017 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 200,
"score": 0.9998899698257446,
"start": 185,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "7 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 227,
"score": 0.9999269247055054,
"start": 202,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | awa/src/awa-services-contexts.adb | fuzzysloth/ada-awa | 81 | -----------------------------------------------------------------------
-- awa-services -- Services
-- Copyright (C) 2011, 2012, 2013, 2014, 2016, 2017 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Task_Attributes;
with Security.Contexts;
package body AWA.Services.Contexts is
use type ADO.Sessions.Connection_Status;
use type AWA.Users.Principals.Principal_Access;
package Task_Context is new Ada.Task_Attributes
(Service_Context_Access, null);
-- ------------------------------
-- Get the application associated with the current service operation.
-- ------------------------------
function Get_Application (Ctx : in Service_Context)
return AWA.Applications.Application_Access is
begin
return Ctx.Application;
end Get_Application;
-- ------------------------------
-- Get the current database connection for reading.
-- ------------------------------
function Get_Session (Ctx : in Service_Context_Access) return ADO.Sessions.Session is
begin
-- If a master database session was created, use it.
if Ctx.Master.Get_Status = ADO.Sessions.OPEN then
return ADO.Sessions.Session (Ctx.Master);
elsif Ctx.Slave.Get_Status /= ADO.Sessions.OPEN then
Ctx.Slave := Ctx.Application.Get_Session;
end if;
return Ctx.Slave;
end Get_Session;
-- ------------------------------
-- Get the current database connection for reading and writing.
-- ------------------------------
function Get_Master_Session (Ctx : in Service_Context_Access)
return ADO.Sessions.Master_Session is
begin
if Ctx.Master.Get_Status /= ADO.Sessions.OPEN then
Ctx.Master := Ctx.Application.Get_Master_Session;
end if;
return Ctx.Master;
end Get_Master_Session;
-- ------------------------------
-- Get the current user invoking the service operation.
-- Returns a null user if there is none.
-- ------------------------------
function Get_User (Ctx : in Service_Context) return AWA.Users.Models.User_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_User;
else
return Ctx.Principal.Get_User;
end if;
end Get_User;
-- ------------------------------
-- Get the current user identifier invoking the service operation.
-- Returns NO_IDENTIFIER if there is none.
-- ------------------------------
function Get_User_Identifier (Ctx : in Service_Context) return ADO.Identifier is
begin
if Ctx.Principal = null then
return ADO.NO_IDENTIFIER;
else
return Ctx.Principal.Get_User_Identifier;
end if;
end Get_User_Identifier;
-- ------------------------------
-- Get the current user session from the user invoking the service operation.
-- Returns a null session if there is none.
-- ------------------------------
function Get_User_Session (Ctx : in Service_Context) return AWA.Users.Models.Session_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_Session;
else
return Ctx.Principal.Get_Session;
end if;
end Get_User_Session;
-- ------------------------------
-- Starts a transaction.
-- ------------------------------
procedure Start (Ctx : in out Service_Context) is
begin
if Ctx.Transaction = 0 and then not Ctx.Active_Transaction then
Ctx.Master.Begin_Transaction;
Ctx.Active_Transaction := True;
end if;
Ctx.Transaction := Ctx.Transaction + 1;
end Start;
-- ------------------------------
-- Commits the current transaction. The database transaction is really committed by the
-- last <b>Commit</b> called.
-- ------------------------------
procedure Commit (Ctx : in out Service_Context) is
begin
Ctx.Transaction := Ctx.Transaction - 1;
if Ctx.Transaction = 0 and then Ctx.Active_Transaction then
Ctx.Master.Commit;
Ctx.Active_Transaction := False;
end if;
end Commit;
-- ------------------------------
-- Rollback the current transaction. The database transaction is rollback at the first
-- call to <b>Rollback</b>.
-- ------------------------------
procedure Rollback (Ctx : in out Service_Context) is
begin
null;
end Rollback;
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
pragma Unreferenced (Ctx, Name);
begin
return Util.Beans.Objects.Null_Object;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
null;
end Set_Session_Attribute;
-- ------------------------------
-- Set the current application and user context.
-- ------------------------------
procedure Set_Context (Ctx : in out Service_Context;
Application : in AWA.Applications.Application_Access;
Principal : in AWA.Users.Principals.Principal_Access) is
begin
Ctx.Application := Application;
Ctx.Principal := Principal;
end Set_Context;
-- ------------------------------
-- Initializes the service context.
-- ------------------------------
overriding
procedure Initialize (Ctx : in out Service_Context) is
use type AWA.Applications.Application_Access;
begin
Ctx.Previous := Task_Context.Value;
Task_Context.Set_Value (Ctx'Unchecked_Access);
if Ctx.Previous /= null and then Ctx.Application = null then
Ctx.Application := Ctx.Previous.Application;
end if;
end Initialize;
-- ------------------------------
-- Finalize the service context, rollback non-committed transaction, releases any object.
-- ------------------------------
overriding
procedure Finalize (Ctx : in out Service_Context) is
begin
-- When the service context is released, we must not have any active transaction.
-- This means we are leaving the service in an abnormal way such as when an
-- exception is raised. If this is the case, rollback the transaction.
if Ctx.Active_Transaction then
Ctx.Master.Rollback;
end if;
Task_Context.Set_Value (Ctx.Previous);
end Finalize;
-- ------------------------------
-- Get the current service context.
-- Returns null if the current thread is not associated with any service context.
-- ------------------------------
function Current return Service_Context_Access is
begin
return Task_Context.Value;
end Current;
-- ------------------------------
-- Run the process procedure on behalf of the specific user and session.
-- This operation changes temporarily the identity of the current user principal and
-- executes the <tt>Process</tt> procedure.
-- ------------------------------
procedure Run_As (User : in AWA.Users.Models.User_Ref;
Session : in AWA.Users.Models.Session_Ref) is
Ctx : Service_Context;
Sec : Security.Contexts.Security_Context;
Principal : aliased AWA.Users.Principals.Principal
:= AWA.Users.Principals.Create (User, Session);
begin
Ctx.Principal := Principal'Unchecked_Access;
Sec.Set_Context (Ctx.Application.Get_Security_Manager, Principal'Unchecked_Access);
Process;
end Run_As;
end AWA.Services.Contexts;
| 4597 | -----------------------------------------------------------------------
-- awa-services -- Services
-- Copyright (C) 2011, 2012, 2013, 2014, 2016, 2017 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Task_Attributes;
with Security.Contexts;
package body AWA.Services.Contexts is
use type ADO.Sessions.Connection_Status;
use type AWA.Users.Principals.Principal_Access;
package Task_Context is new Ada.Task_Attributes
(Service_Context_Access, null);
-- ------------------------------
-- Get the application associated with the current service operation.
-- ------------------------------
function Get_Application (Ctx : in Service_Context)
return AWA.Applications.Application_Access is
begin
return Ctx.Application;
end Get_Application;
-- ------------------------------
-- Get the current database connection for reading.
-- ------------------------------
function Get_Session (Ctx : in Service_Context_Access) return ADO.Sessions.Session is
begin
-- If a master database session was created, use it.
if Ctx.Master.Get_Status = ADO.Sessions.OPEN then
return ADO.Sessions.Session (Ctx.Master);
elsif Ctx.Slave.Get_Status /= ADO.Sessions.OPEN then
Ctx.Slave := Ctx.Application.Get_Session;
end if;
return Ctx.Slave;
end Get_Session;
-- ------------------------------
-- Get the current database connection for reading and writing.
-- ------------------------------
function Get_Master_Session (Ctx : in Service_Context_Access)
return ADO.Sessions.Master_Session is
begin
if Ctx.Master.Get_Status /= ADO.Sessions.OPEN then
Ctx.Master := Ctx.Application.Get_Master_Session;
end if;
return Ctx.Master;
end Get_Master_Session;
-- ------------------------------
-- Get the current user invoking the service operation.
-- Returns a null user if there is none.
-- ------------------------------
function Get_User (Ctx : in Service_Context) return AWA.Users.Models.User_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_User;
else
return Ctx.Principal.Get_User;
end if;
end Get_User;
-- ------------------------------
-- Get the current user identifier invoking the service operation.
-- Returns NO_IDENTIFIER if there is none.
-- ------------------------------
function Get_User_Identifier (Ctx : in Service_Context) return ADO.Identifier is
begin
if Ctx.Principal = null then
return ADO.NO_IDENTIFIER;
else
return Ctx.Principal.Get_User_Identifier;
end if;
end Get_User_Identifier;
-- ------------------------------
-- Get the current user session from the user invoking the service operation.
-- Returns a null session if there is none.
-- ------------------------------
function Get_User_Session (Ctx : in Service_Context) return AWA.Users.Models.Session_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_Session;
else
return Ctx.Principal.Get_Session;
end if;
end Get_User_Session;
-- ------------------------------
-- Starts a transaction.
-- ------------------------------
procedure Start (Ctx : in out Service_Context) is
begin
if Ctx.Transaction = 0 and then not Ctx.Active_Transaction then
Ctx.Master.Begin_Transaction;
Ctx.Active_Transaction := True;
end if;
Ctx.Transaction := Ctx.Transaction + 1;
end Start;
-- ------------------------------
-- Commits the current transaction. The database transaction is really committed by the
-- last <b>Commit</b> called.
-- ------------------------------
procedure Commit (Ctx : in out Service_Context) is
begin
Ctx.Transaction := Ctx.Transaction - 1;
if Ctx.Transaction = 0 and then Ctx.Active_Transaction then
Ctx.Master.Commit;
Ctx.Active_Transaction := False;
end if;
end Commit;
-- ------------------------------
-- Rollback the current transaction. The database transaction is rollback at the first
-- call to <b>Rollback</b>.
-- ------------------------------
procedure Rollback (Ctx : in out Service_Context) is
begin
null;
end Rollback;
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
pragma Unreferenced (Ctx, Name);
begin
return Util.Beans.Objects.Null_Object;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
null;
end Set_Session_Attribute;
-- ------------------------------
-- Set the current application and user context.
-- ------------------------------
procedure Set_Context (Ctx : in out Service_Context;
Application : in AWA.Applications.Application_Access;
Principal : in AWA.Users.Principals.Principal_Access) is
begin
Ctx.Application := Application;
Ctx.Principal := Principal;
end Set_Context;
-- ------------------------------
-- Initializes the service context.
-- ------------------------------
overriding
procedure Initialize (Ctx : in out Service_Context) is
use type AWA.Applications.Application_Access;
begin
Ctx.Previous := Task_Context.Value;
Task_Context.Set_Value (Ctx'Unchecked_Access);
if Ctx.Previous /= null and then Ctx.Application = null then
Ctx.Application := Ctx.Previous.Application;
end if;
end Initialize;
-- ------------------------------
-- Finalize the service context, rollback non-committed transaction, releases any object.
-- ------------------------------
overriding
procedure Finalize (Ctx : in out Service_Context) is
begin
-- When the service context is released, we must not have any active transaction.
-- This means we are leaving the service in an abnormal way such as when an
-- exception is raised. If this is the case, rollback the transaction.
if Ctx.Active_Transaction then
Ctx.Master.Rollback;
end if;
Task_Context.Set_Value (Ctx.Previous);
end Finalize;
-- ------------------------------
-- Get the current service context.
-- Returns null if the current thread is not associated with any service context.
-- ------------------------------
function Current return Service_Context_Access is
begin
return Task_Context.Value;
end Current;
-- ------------------------------
-- Run the process procedure on behalf of the specific user and session.
-- This operation changes temporarily the identity of the current user principal and
-- executes the <tt>Process</tt> procedure.
-- ------------------------------
procedure Run_As (User : in AWA.Users.Models.User_Ref;
Session : in AWA.Users.Models.Session_Ref) is
Ctx : Service_Context;
Sec : Security.Contexts.Security_Context;
Principal : aliased AWA.Users.Principals.Principal
:= AWA.Users.Principals.Create (User, Session);
begin
Ctx.Principal := Principal'Unchecked_Access;
Sec.Set_Context (Ctx.Application.Get_Security_Manager, Principal'Unchecked_Access);
Process;
end Run_As;
end AWA.Services.Contexts;
| true | -----------------------------------------------------------------------
-- awa-services -- Services
-- Copyright (C) 2011, 2012, 2013, 2014, 2016, 2017 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Task_Attributes;
with Security.Contexts;
package body AWA.Services.Contexts is
use type ADO.Sessions.Connection_Status;
use type AWA.Users.Principals.Principal_Access;
package Task_Context is new Ada.Task_Attributes
(Service_Context_Access, null);
-- ------------------------------
-- Get the application associated with the current service operation.
-- ------------------------------
function Get_Application (Ctx : in Service_Context)
return AWA.Applications.Application_Access is
begin
return Ctx.Application;
end Get_Application;
-- ------------------------------
-- Get the current database connection for reading.
-- ------------------------------
function Get_Session (Ctx : in Service_Context_Access) return ADO.Sessions.Session is
begin
-- If a master database session was created, use it.
if Ctx.Master.Get_Status = ADO.Sessions.OPEN then
return ADO.Sessions.Session (Ctx.Master);
elsif Ctx.Slave.Get_Status /= ADO.Sessions.OPEN then
Ctx.Slave := Ctx.Application.Get_Session;
end if;
return Ctx.Slave;
end Get_Session;
-- ------------------------------
-- Get the current database connection for reading and writing.
-- ------------------------------
function Get_Master_Session (Ctx : in Service_Context_Access)
return ADO.Sessions.Master_Session is
begin
if Ctx.Master.Get_Status /= ADO.Sessions.OPEN then
Ctx.Master := Ctx.Application.Get_Master_Session;
end if;
return Ctx.Master;
end Get_Master_Session;
-- ------------------------------
-- Get the current user invoking the service operation.
-- Returns a null user if there is none.
-- ------------------------------
function Get_User (Ctx : in Service_Context) return AWA.Users.Models.User_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_User;
else
return Ctx.Principal.Get_User;
end if;
end Get_User;
-- ------------------------------
-- Get the current user identifier invoking the service operation.
-- Returns NO_IDENTIFIER if there is none.
-- ------------------------------
function Get_User_Identifier (Ctx : in Service_Context) return ADO.Identifier is
begin
if Ctx.Principal = null then
return ADO.NO_IDENTIFIER;
else
return Ctx.Principal.Get_User_Identifier;
end if;
end Get_User_Identifier;
-- ------------------------------
-- Get the current user session from the user invoking the service operation.
-- Returns a null session if there is none.
-- ------------------------------
function Get_User_Session (Ctx : in Service_Context) return AWA.Users.Models.Session_Ref is
begin
if Ctx.Principal = null then
return AWA.Users.Models.Null_Session;
else
return Ctx.Principal.Get_Session;
end if;
end Get_User_Session;
-- ------------------------------
-- Starts a transaction.
-- ------------------------------
procedure Start (Ctx : in out Service_Context) is
begin
if Ctx.Transaction = 0 and then not Ctx.Active_Transaction then
Ctx.Master.Begin_Transaction;
Ctx.Active_Transaction := True;
end if;
Ctx.Transaction := Ctx.Transaction + 1;
end Start;
-- ------------------------------
-- Commits the current transaction. The database transaction is really committed by the
-- last <b>Commit</b> called.
-- ------------------------------
procedure Commit (Ctx : in out Service_Context) is
begin
Ctx.Transaction := Ctx.Transaction - 1;
if Ctx.Transaction = 0 and then Ctx.Active_Transaction then
Ctx.Master.Commit;
Ctx.Active_Transaction := False;
end if;
end Commit;
-- ------------------------------
-- Rollback the current transaction. The database transaction is rollback at the first
-- call to <b>Rollback</b>.
-- ------------------------------
procedure Rollback (Ctx : in out Service_Context) is
begin
null;
end Rollback;
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
pragma Unreferenced (Ctx, Name);
begin
return Util.Beans.Objects.Null_Object;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
null;
end Set_Session_Attribute;
-- ------------------------------
-- Set the current application and user context.
-- ------------------------------
procedure Set_Context (Ctx : in out Service_Context;
Application : in AWA.Applications.Application_Access;
Principal : in AWA.Users.Principals.Principal_Access) is
begin
Ctx.Application := Application;
Ctx.Principal := Principal;
end Set_Context;
-- ------------------------------
-- Initializes the service context.
-- ------------------------------
overriding
procedure Initialize (Ctx : in out Service_Context) is
use type AWA.Applications.Application_Access;
begin
Ctx.Previous := Task_Context.Value;
Task_Context.Set_Value (Ctx'Unchecked_Access);
if Ctx.Previous /= null and then Ctx.Application = null then
Ctx.Application := Ctx.Previous.Application;
end if;
end Initialize;
-- ------------------------------
-- Finalize the service context, rollback non-committed transaction, releases any object.
-- ------------------------------
overriding
procedure Finalize (Ctx : in out Service_Context) is
begin
-- When the service context is released, we must not have any active transaction.
-- This means we are leaving the service in an abnormal way such as when an
-- exception is raised. If this is the case, rollback the transaction.
if Ctx.Active_Transaction then
Ctx.Master.Rollback;
end if;
Task_Context.Set_Value (Ctx.Previous);
end Finalize;
-- ------------------------------
-- Get the current service context.
-- Returns null if the current thread is not associated with any service context.
-- ------------------------------
function Current return Service_Context_Access is
begin
return Task_Context.Value;
end Current;
-- ------------------------------
-- Run the process procedure on behalf of the specific user and session.
-- This operation changes temporarily the identity of the current user principal and
-- executes the <tt>Process</tt> procedure.
-- ------------------------------
procedure Run_As (User : in AWA.Users.Models.User_Ref;
Session : in AWA.Users.Models.Session_Ref) is
Ctx : Service_Context;
Sec : Security.Contexts.Security_Context;
Principal : aliased AWA.Users.Principals.Principal
:= AWA.Users.Principals.Create (User, Session);
begin
Ctx.Principal := Principal'Unchecked_Access;
Sec.Set_Context (Ctx.Application.Get_Security_Manager, Principal'Unchecked_Access);
Process;
end Run_As;
end AWA.Services.Contexts;
|
[
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- Al",
"end": 824,
"score": 0.9998862743377686,
"start": 811,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 844,
"score": 0.9999313354492188,
"start": 826,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/sql/matreshka-internals-sql_parameter_rewriters.adb | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
package body Matreshka.Internals.SQL_Parameter_Rewriters is
-------------
-- Rewrite --
-------------
procedure Rewrite
(Self : Abstract_Parameter_Rewriter'Class;
Source : League.Strings.Universal_String;
Rewritten : out League.Strings.Universal_String;
Parameters : out SQL_Parameter_Sets.Parameter_Set)
is
Placeholder : League.Strings.Universal_String;
Number : Positive := 1;
Index : Positive := 1;
First : Positive;
begin
Rewritten.Clear;
Parameters.Clear;
while Index <= Source.Length loop
case Source.Element (Index).To_Wide_Wide_Character is
when ':' =>
-- Parameter placeholder.
First := Index;
Index := Index + 1;
-- First character must be ID_Start.
if Index <= Source.Length
and then Source.Element (Index).Is_ID_Start
then
Index := Index + 1;
-- And others are ID_Continue.
while Index <= Source.Length loop
exit when not Source.Element (Index).Is_ID_Continue;
Index := Index + 1;
end loop;
Index := Index - 1;
-- Replace generic parameter placeholder by database
-- specific one.
Self.Database_Placeholder
(Source.Slice (First, Index).To_Casefold,
Number,
Placeholder,
Parameters);
Rewritten.Append (Placeholder);
Number := Number + 1;
else
raise Program_Error;
end if;
when ''' =>
-- String literal.
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
-- Copy all characters till end of statement or single
-- apostrophe character (two sequential apostrophe characters
-- is escape sequence in SQL) is reached.
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character = '''
and (Index = Source.Length
or else Source.Element
(Index + 1).To_Wide_Wide_Character /= ''');
Index := Index + 1;
end loop;
when '-' =>
Rewritten.Append (Source.Element (Index));
-- Comment starts from to minus signs and ends by end of line.
if Index < Source.Length
and then Source.Element (Index + 1).To_Wide_Wide_Character
= '-'
then
Index := Index + 1;
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.CR
or Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.LF;
Index := Index + 1;
end loop;
end if;
when others =>
Rewritten.Append (Source.Element (Index));
end case;
Index := Index + 1;
end loop;
end Rewrite;
end Matreshka.Internals.SQL_Parameter_Rewriters;
| 3425 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
package body Matreshka.Internals.SQL_Parameter_Rewriters is
-------------
-- Rewrite --
-------------
procedure Rewrite
(Self : Abstract_Parameter_Rewriter'Class;
Source : League.Strings.Universal_String;
Rewritten : out League.Strings.Universal_String;
Parameters : out SQL_Parameter_Sets.Parameter_Set)
is
Placeholder : League.Strings.Universal_String;
Number : Positive := 1;
Index : Positive := 1;
First : Positive;
begin
Rewritten.Clear;
Parameters.Clear;
while Index <= Source.Length loop
case Source.Element (Index).To_Wide_Wide_Character is
when ':' =>
-- Parameter placeholder.
First := Index;
Index := Index + 1;
-- First character must be ID_Start.
if Index <= Source.Length
and then Source.Element (Index).Is_ID_Start
then
Index := Index + 1;
-- And others are ID_Continue.
while Index <= Source.Length loop
exit when not Source.Element (Index).Is_ID_Continue;
Index := Index + 1;
end loop;
Index := Index - 1;
-- Replace generic parameter placeholder by database
-- specific one.
Self.Database_Placeholder
(Source.Slice (First, Index).To_Casefold,
Number,
Placeholder,
Parameters);
Rewritten.Append (Placeholder);
Number := Number + 1;
else
raise Program_Error;
end if;
when ''' =>
-- String literal.
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
-- Copy all characters till end of statement or single
-- apostrophe character (two sequential apostrophe characters
-- is escape sequence in SQL) is reached.
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character = '''
and (Index = Source.Length
or else Source.Element
(Index + 1).To_Wide_Wide_Character /= ''');
Index := Index + 1;
end loop;
when '-' =>
Rewritten.Append (Source.Element (Index));
-- Comment starts from to minus signs and ends by end of line.
if Index < Source.Length
and then Source.Element (Index + 1).To_Wide_Wide_Character
= '-'
then
Index := Index + 1;
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.CR
or Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.LF;
Index := Index + 1;
end loop;
end if;
when others =>
Rewritten.Append (Source.Element (Index));
end case;
Index := Index + 1;
end loop;
end Rewrite;
end Matreshka.Internals.SQL_Parameter_Rewriters;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
package body Matreshka.Internals.SQL_Parameter_Rewriters is
-------------
-- Rewrite --
-------------
procedure Rewrite
(Self : Abstract_Parameter_Rewriter'Class;
Source : League.Strings.Universal_String;
Rewritten : out League.Strings.Universal_String;
Parameters : out SQL_Parameter_Sets.Parameter_Set)
is
Placeholder : League.Strings.Universal_String;
Number : Positive := 1;
Index : Positive := 1;
First : Positive;
begin
Rewritten.Clear;
Parameters.Clear;
while Index <= Source.Length loop
case Source.Element (Index).To_Wide_Wide_Character is
when ':' =>
-- Parameter placeholder.
First := Index;
Index := Index + 1;
-- First character must be ID_Start.
if Index <= Source.Length
and then Source.Element (Index).Is_ID_Start
then
Index := Index + 1;
-- And others are ID_Continue.
while Index <= Source.Length loop
exit when not Source.Element (Index).Is_ID_Continue;
Index := Index + 1;
end loop;
Index := Index - 1;
-- Replace generic parameter placeholder by database
-- specific one.
Self.Database_Placeholder
(Source.Slice (First, Index).To_Casefold,
Number,
Placeholder,
Parameters);
Rewritten.Append (Placeholder);
Number := Number + 1;
else
raise Program_Error;
end if;
when ''' =>
-- String literal.
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
-- Copy all characters till end of statement or single
-- apostrophe character (two sequential apostrophe characters
-- is escape sequence in SQL) is reached.
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character = '''
and (Index = Source.Length
or else Source.Element
(Index + 1).To_Wide_Wide_Character /= ''');
Index := Index + 1;
end loop;
when '-' =>
Rewritten.Append (Source.Element (Index));
-- Comment starts from to minus signs and ends by end of line.
if Index < Source.Length
and then Source.Element (Index + 1).To_Wide_Wide_Character
= '-'
then
Index := Index + 1;
Rewritten.Append (Source.Element (Index));
Index := Index + 1;
while Index <= Source.Length loop
Rewritten.Append (Source.Element (Index));
exit when Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.CR
or Source.Element (Index).To_Wide_Wide_Character
= Ada.Characters.Wide_Wide_Latin_1.LF;
Index := Index + 1;
end loop;
end if;
when others =>
Rewritten.Append (Source.Element (Index));
end case;
Index := Index + 1;
end loop;
end Rewrite;
end Matreshka.Internals.SQL_Parameter_Rewriters;
|
[
{
"context": "e-Identifier: MIT\n--\n-- Copyright (c) 2016 - 2018 Gautier de Montmollin\n-- SWITZERLAND\n--\n-- The copyright holder is on",
"end": 87,
"score": 0.9998792409896851,
"start": 66,
"tag": "NAME",
"value": "Gautier de Montmollin"
},
{
"context": " OS-, CPU- and compiler- independent.\n\n-- Author: lode.vandevenne [*] gmail [*] com (Lode Vandevenne)\n-- Author: j",
"end": 1960,
"score": 0.9970441460609436,
"start": 1945,
"tag": "USERNAME",
"value": "lode.vandevenne"
},
{
"context": ".\n\n-- Author: lode.vandevenne [*] gmail [*] com (Lode Vandevenne)\n-- Author: jyrki.alakuijala [*] gmai",
"end": 1984,
"score": 0.9459430575370789,
"start": 1980,
"tag": "NAME",
"value": "Lode"
},
{
"context": "ne [*] gmail [*] com (Lode Vandevenne)\n-- Author: jyrki.alakuijala [*] gmail [*] com (Jyrki Alakuijala)\n-",
"end": 2014,
"score": 0.9993265271186829,
"start": 2009,
"tag": "USERNAME",
"value": "jyrki"
},
{
"context": " gmail [*] com (Lode Vandevenne)\n-- Author: jyrki.alakuijala [*] gmail [*] com (Jyrki Alakuijala)\n--\n-- Bound",
"end": 2025,
"score": 0.9556508660316467,
"start": 2015,
"tag": "EMAIL",
"value": "alakuijala"
},
{
"context": ")\n-- Author: jyrki.alakuijala [*] gmail [*] com (Jyrki Alakuijala)\n--\n-- Bounded package merge algorithm, based on",
"end": 2061,
"score": 0.9998886585235596,
"start": 2045,
"tag": "NAME",
"value": "Jyrki Alakuijala"
},
{
"context": "onomical Algorithm for Length-Limited Coding\n-- Jyrki Katajainen, Alistair Moffat, Andrew Turpin\".\n--\n-- Translat",
"end": 2215,
"score": 0.9998726844787598,
"start": 2199,
"tag": "NAME",
"value": "Jyrki Katajainen"
},
{
"context": " for Length-Limited Coding\n-- Jyrki Katajainen, Alistair Moffat, Andrew Turpin\".\n--\n-- Translated by G. de Montm",
"end": 2232,
"score": 0.9998800754547119,
"start": 2217,
"tag": "NAME",
"value": "Alistair Moffat"
},
{
"context": "ed Coding\n-- Jyrki Katajainen, Alistair Moffat, Andrew Turpin\".\n--\n-- Translated by G. de Montmollin to Ada fr",
"end": 2247,
"score": 0.9998452067375183,
"start": 2234,
"tag": "NAME",
"value": "Andrew Turpin"
},
{
"context": "stair Moffat, Andrew Turpin\".\n--\n-- Translated by G. de Montmollin to Ada from katajainen.c (Zopfli project), 7-Feb-",
"end": 2287,
"score": 0.9998882412910461,
"start": 2271,
"tag": "NAME",
"value": "G. de Montmollin"
}
] | dcf/src/dcf-length_limited_huffman_code_lengths.ads | onox/dcf-ada | 5 | -- SPDX-License-Identifier: MIT
--
-- Copyright (c) 2016 - 2018 Gautier de Montmollin
-- SWITZERLAND
--
-- The copyright holder is only the maintainer of the Ada version;
-- authors of the C code and those of the algorithm are cited below.
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in
-- all copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-- THE SOFTWARE.
-- Length_limited_Huffman_code_lengths
-- -----------------------------------
--
-- This algorithm builds optimal Huffman codes for a given alphabet
-- and occurrence counts (frequencies) of this alphabet. These occurrences
-- are supposed to have been counted in a message to be sent in a
-- compressed form using the Huffman codes. As output, only the bit lengths
-- of the Huffman codes are given; the Huffman codes themselves are built
-- with these bit lengths when the message actually needs to be sent.
--
-- Pure Ada 95+ code, 100% portable: OS-, CPU- and compiler- independent.
-- Author: lode.vandevenne [*] gmail [*] com (Lode Vandevenne)
-- Author: jyrki.alakuijala [*] gmail [*] com (Jyrki Alakuijala)
--
-- Bounded package merge algorithm, based on the paper
-- "A Fast and Space-Economical Algorithm for Length-Limited Coding
-- Jyrki Katajainen, Alistair Moffat, Andrew Turpin".
--
-- Translated by G. de Montmollin to Ada from katajainen.c (Zopfli project), 7-Feb-2016
-- Translation notes in procedure's body.
private generic
type Alphabet is (<>); -- Any discrete type
-- Count_Type is an integer type large enough for counting
-- and indexing. See body for actual bounds.
type Count_Type is range <>;
type Count_Array is array (Alphabet) of Count_Type;
type Length_Array is array (Alphabet) of Natural;
Max_Bits : Positive; -- Length limit in Huffman codes
procedure DCF.Length_Limited_Huffman_Code_Lengths
(Frequencies : in Count_Array;
Bit_Lengths : out Length_Array);
pragma Preelaborate (DCF.Length_Limited_Huffman_Code_Lengths);
| 15272 | -- SPDX-License-Identifier: MIT
--
-- Copyright (c) 2016 - 2018 <NAME>
-- SWITZERLAND
--
-- The copyright holder is only the maintainer of the Ada version;
-- authors of the C code and those of the algorithm are cited below.
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in
-- all copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-- THE SOFTWARE.
-- Length_limited_Huffman_code_lengths
-- -----------------------------------
--
-- This algorithm builds optimal Huffman codes for a given alphabet
-- and occurrence counts (frequencies) of this alphabet. These occurrences
-- are supposed to have been counted in a message to be sent in a
-- compressed form using the Huffman codes. As output, only the bit lengths
-- of the Huffman codes are given; the Huffman codes themselves are built
-- with these bit lengths when the message actually needs to be sent.
--
-- Pure Ada 95+ code, 100% portable: OS-, CPU- and compiler- independent.
-- Author: lode.vandevenne [*] gmail [*] com (<NAME> Vandevenne)
-- Author: jyrki.<EMAIL> [*] gmail [*] com (<NAME>)
--
-- Bounded package merge algorithm, based on the paper
-- "A Fast and Space-Economical Algorithm for Length-Limited Coding
-- <NAME>, <NAME>, <NAME>".
--
-- Translated by <NAME> to Ada from katajainen.c (Zopfli project), 7-Feb-2016
-- Translation notes in procedure's body.
private generic
type Alphabet is (<>); -- Any discrete type
-- Count_Type is an integer type large enough for counting
-- and indexing. See body for actual bounds.
type Count_Type is range <>;
type Count_Array is array (Alphabet) of Count_Type;
type Length_Array is array (Alphabet) of Natural;
Max_Bits : Positive; -- Length limit in Huffman codes
procedure DCF.Length_Limited_Huffman_Code_Lengths
(Frequencies : in Count_Array;
Bit_Lengths : out Length_Array);
pragma Preelaborate (DCF.Length_Limited_Huffman_Code_Lengths);
| true | -- SPDX-License-Identifier: MIT
--
-- Copyright (c) 2016 - 2018 PI:NAME:<NAME>END_PI
-- SWITZERLAND
--
-- The copyright holder is only the maintainer of the Ada version;
-- authors of the C code and those of the algorithm are cited below.
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in
-- all copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-- THE SOFTWARE.
-- Length_limited_Huffman_code_lengths
-- -----------------------------------
--
-- This algorithm builds optimal Huffman codes for a given alphabet
-- and occurrence counts (frequencies) of this alphabet. These occurrences
-- are supposed to have been counted in a message to be sent in a
-- compressed form using the Huffman codes. As output, only the bit lengths
-- of the Huffman codes are given; the Huffman codes themselves are built
-- with these bit lengths when the message actually needs to be sent.
--
-- Pure Ada 95+ code, 100% portable: OS-, CPU- and compiler- independent.
-- Author: lode.vandevenne [*] gmail [*] com (PI:NAME:<NAME>END_PI Vandevenne)
-- Author: jyrki.PI:EMAIL:<EMAIL>END_PI [*] gmail [*] com (PI:NAME:<NAME>END_PI)
--
-- Bounded package merge algorithm, based on the paper
-- "A Fast and Space-Economical Algorithm for Length-Limited Coding
-- PI:NAME:<NAME>END_PI, PI:NAME:<NAME>END_PI, PI:NAME:<NAME>END_PI".
--
-- Translated by PI:NAME:<NAME>END_PI to Ada from katajainen.c (Zopfli project), 7-Feb-2016
-- Translation notes in procedure's body.
private generic
type Alphabet is (<>); -- Any discrete type
-- Count_Type is an integer type large enough for counting
-- and indexing. See body for actual bounds.
type Count_Type is range <>;
type Count_Array is array (Alphabet) of Count_Type;
type Length_Array is array (Alphabet) of Natural;
Max_Bits : Positive; -- Length limit in Huffman codes
procedure DCF.Length_Limited_Huffman_Code_Lengths
(Frequencies : in Count_Array;
Bit_Lengths : out Length_Array);
pragma Preelaborate (DCF.Length_Limited_Huffman_Code_Lengths);
|
[
{
"context": "-- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 40,
"score": 0.9998437762260437,
"start": 28,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 60,
"score": 0.9999312162399292,
"start": 42,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | testsuite/tests-lexers.ads | reznikmm/increment | 5 | -- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Incr.Lexers.Batch_Lexers.Generic_Lexers;
with Matreshka.Internals.Unicode;
package Tests.Lexers is
package Tables is
use Incr.Lexers.Batch_Lexers;
function To_Class (Value : Matreshka.Internals.Unicode.Code_Point)
return Character_Class;
pragma Inline (To_Class);
function Switch (S : State; Class : Character_Class) return State;
pragma Inline (Switch);
function Rule (S : State) return Rule_Index;
pragma Inline (Rule);
First_Final : constant State := 1;
Last_Looping : constant State := 2;
Error_State : constant State := 5;
subtype Looping_State is State range 0 .. Last_Looping;
subtype Final_State is State range First_Final .. Error_State - 1;
end Tables;
package Test_Lexers is new Incr.Lexers.Batch_Lexers.Generic_Lexers
(To_Class => Tables.To_Class,
Switch => Tables.Switch,
Rule => Tables.Rule,
First_Final => Tables.First_Final,
Last_Looping => Tables.Last_Looping,
Error_State => Tables.Error_State);
end Tests.Lexers;
| 21909 | -- Copyright (c) 2015-2017 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Incr.Lexers.Batch_Lexers.Generic_Lexers;
with Matreshka.Internals.Unicode;
package Tests.Lexers is
package Tables is
use Incr.Lexers.Batch_Lexers;
function To_Class (Value : Matreshka.Internals.Unicode.Code_Point)
return Character_Class;
pragma Inline (To_Class);
function Switch (S : State; Class : Character_Class) return State;
pragma Inline (Switch);
function Rule (S : State) return Rule_Index;
pragma Inline (Rule);
First_Final : constant State := 1;
Last_Looping : constant State := 2;
Error_State : constant State := 5;
subtype Looping_State is State range 0 .. Last_Looping;
subtype Final_State is State range First_Final .. Error_State - 1;
end Tables;
package Test_Lexers is new Incr.Lexers.Batch_Lexers.Generic_Lexers
(To_Class => Tables.To_Class,
Switch => Tables.Switch,
Rule => Tables.Rule,
First_Final => Tables.First_Final,
Last_Looping => Tables.Last_Looping,
Error_State => Tables.Error_State);
end Tests.Lexers;
| true | -- Copyright (c) 2015-2017 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Incr.Lexers.Batch_Lexers.Generic_Lexers;
with Matreshka.Internals.Unicode;
package Tests.Lexers is
package Tables is
use Incr.Lexers.Batch_Lexers;
function To_Class (Value : Matreshka.Internals.Unicode.Code_Point)
return Character_Class;
pragma Inline (To_Class);
function Switch (S : State; Class : Character_Class) return State;
pragma Inline (Switch);
function Rule (S : State) return Rule_Index;
pragma Inline (Rule);
First_Final : constant State := 1;
Last_Looping : constant State := 2;
Error_State : constant State := 5;
subtype Looping_State is State range 0 .. Last_Looping;
subtype Final_State is State range First_Final .. Error_State - 1;
end Tables;
package Test_Lexers is new Incr.Lexers.Batch_Lexers.Generic_Lexers
(To_Class => Tables.To_Class,
Switch => Tables.Switch,
Rule => Tables.Rule,
First_Final => Tables.First_Final,
Last_Looping => Tables.Last_Looping,
Error_State => Tables.Error_State);
end Tests.Lexers;
|
[
{
"context": " slot selection\n-- Copyright (C) 2014, 2015, 2021 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 193,
"score": 0.9998797178268433,
"start": 178,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "C) 2014, 2015, 2021 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 224,
"score": 0.9998819231987,
"start": 209,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "1 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 251,
"score": 0.9999297857284546,
"start": 226,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | mat/src/mat-expressions.ads | stcarrez/mat | 7 | -----------------------------------------------------------------------
-- mat-expressions -- Expressions for event and memory slot selection
-- Copyright (C) 2014, 2015, 2021 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with Ada.Finalization;
private with Util.Concurrent.Counters;
with MAT.Types;
with MAT.Memory;
with MAT.Events;
package MAT.Expressions is
type Resolver_Type is limited interface;
type Resolver_Type_Access is access all Resolver_Type'Class;
-- Find the region that matches the given name.
function Find_Region (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol in the symbol table and return the start and end address.
function Find_Symbol (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol region in the symbol table that contains the given address
-- and return the start and end address of that region.
function Find_Symbol (Resolver : in Resolver_Type;
Addr : in MAT.Types.Target_Addr)
return MAT.Memory.Region_Info is abstract;
-- Get the start time for the tick reference.
function Get_Start_Time (Resolver : in Resolver_Type)
return MAT.Types.Target_Tick_Ref is abstract;
type Context_Type is record
Addr : MAT.Types.Target_Addr;
Allocation : MAT.Memory.Allocation;
end record;
type Inside_Type is (INSIDE_REGION,
INSIDE_DIRECT_REGION,
INSIDE_FUNCTION,
INSIDE_DIRECT_FUNCTION);
type Expression_Type is tagged private;
-- Create a NOT expression node.
function Create_Not (Expr : in Expression_Type) return Expression_Type;
-- Create a AND expression node.
function Create_And (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create a OR expression node.
function Create_Or (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create an INSIDE expression node.
function Create_Inside (Name : in Ada.Strings.Unbounded.Unbounded_String;
Kind : in Inside_Type) return Expression_Type;
function Create_Inside (Addr : in MAT.Types.Uint64;
Kind : in Inside_Type) return Expression_Type;
-- Create an size range expression node.
function Create_Size (Min : in MAT.Types.Target_Size;
Max : in MAT.Types.Target_Size) return Expression_Type;
-- Create an addr range expression node.
function Create_Addr (Min : in MAT.Types.Target_Addr;
Max : in MAT.Types.Target_Addr) return Expression_Type;
-- Create an time range expression node.
function Create_Time (Min : in MAT.Types.Target_Tick_Ref;
Max : in MAT.Types.Target_Tick_Ref) return Expression_Type;
-- Create an event ID range expression node.
function Create_Event (Min : in MAT.Events.Event_Id_Type;
Max : in MAT.Events.Event_Id_Type) return Expression_Type;
-- Create a thread ID range expression node.
function Create_Thread (Min : in MAT.Types.Target_Thread_Ref;
Max : in MAT.Types.Target_Thread_Ref) return Expression_Type;
-- Create a event type expression check.
function Create_Event_Type (Event_Kind : in MAT.Events.Probe_Index_Type)
return Expression_Type;
-- Create an expression node to keep allocation events which don't have any associated free.
function Create_No_Free return Expression_Type;
-- Evaluate the expression to check if the memory slot described by the
-- context is selected. Returns True if the memory slot is selected.
function Is_Selected (Node : in Expression_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Expression_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
-- Parse the string and return the expression tree.
function Parse (Expr : in String;
Resolver : in Resolver_Type_Access) return Expression_Type;
-- Empty expression.
EMPTY : constant Expression_Type;
type yystype is record
low : MAT.Types.Uint64 := 0;
high : MAT.Types.Uint64 := 0;
bval : Boolean := False;
name : Ada.Strings.Unbounded.Unbounded_String;
expr : Expression_Type;
end record;
private
type Kind_Type is (N_NOT, N_OR, N_AND, N_TRUE, N_FALSE,
N_IN_FILE, N_IN_FILE_DIRECT, N_INSIDE,
N_CALL_ADDR, N_CALL_ADDR_DIRECT,
N_IN_FUNC, N_IN_FUNC_DIRECT,
N_RANGE_SIZE, N_RANGE_ADDR,
N_RANGE_TIME, N_EVENT, N_HAS_ADDR,
N_CONDITION, N_THREAD, N_TYPE, N_NO_FREE);
type Node_Type;
type Node_Type_Access is access all Node_Type;
type Node_Type (Kind : Kind_Type) is record
Ref_Counter : Util.Concurrent.Counters.Counter;
case Kind is
when N_NOT =>
Expr : Node_Type_Access;
when N_OR | N_AND =>
Left, Right : Node_Type_Access;
when N_INSIDE | N_IN_FILE | N_IN_FILE_DIRECT =>
Name : Ada.Strings.Unbounded.Unbounded_String;
Inside : Inside_Type;
when N_RANGE_SIZE =>
Min_Size : MAT.Types.Target_Size;
Max_Size : MAT.Types.Target_Size;
when N_RANGE_ADDR | N_CALL_ADDR | N_CALL_ADDR_DIRECT | N_HAS_ADDR
| N_IN_FUNC | N_IN_FUNC_DIRECT =>
Min_Addr : MAT.Types.Target_Addr;
Max_Addr : MAT.Types.Target_Addr;
when N_RANGE_TIME =>
Min_Time : MAT.Types.Target_Tick_Ref;
Max_Time : MAT.Types.Target_Tick_Ref;
when N_THREAD =>
Min_Thread : MAT.Types.Target_Thread_Ref;
Max_Thread : MAT.Types.Target_Thread_Ref;
when N_EVENT =>
Min_Event : MAT.Events.Event_Id_Type;
Max_Event : MAT.Events.Event_Id_Type;
when N_TYPE =>
Event_Kind : MAT.Events.Probe_Index_Type;
when others =>
null;
end case;
end record;
-- Evaluate the node against the context. Returns True if the node expression
-- selects the memory slot defined by the context.
function Is_Selected (Node : in Node_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Node_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
type Expression_Type is new Ada.Finalization.Controlled with record
Node : Node_Type_Access;
end record;
-- Release the reference and destroy the expression tree if it was the last reference.
overriding
procedure Finalize (Obj : in out Expression_Type);
-- Update the reference after an assignment.
overriding
procedure Adjust (Obj : in out Expression_Type);
-- Empty expression.
EMPTY : constant Expression_Type := Expression_Type'(Ada.Finalization.Controlled with
Node => null);
end MAT.Expressions;
| 26113 | -----------------------------------------------------------------------
-- mat-expressions -- Expressions for event and memory slot selection
-- Copyright (C) 2014, 2015, 2021 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with Ada.Finalization;
private with Util.Concurrent.Counters;
with MAT.Types;
with MAT.Memory;
with MAT.Events;
package MAT.Expressions is
type Resolver_Type is limited interface;
type Resolver_Type_Access is access all Resolver_Type'Class;
-- Find the region that matches the given name.
function Find_Region (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol in the symbol table and return the start and end address.
function Find_Symbol (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol region in the symbol table that contains the given address
-- and return the start and end address of that region.
function Find_Symbol (Resolver : in Resolver_Type;
Addr : in MAT.Types.Target_Addr)
return MAT.Memory.Region_Info is abstract;
-- Get the start time for the tick reference.
function Get_Start_Time (Resolver : in Resolver_Type)
return MAT.Types.Target_Tick_Ref is abstract;
type Context_Type is record
Addr : MAT.Types.Target_Addr;
Allocation : MAT.Memory.Allocation;
end record;
type Inside_Type is (INSIDE_REGION,
INSIDE_DIRECT_REGION,
INSIDE_FUNCTION,
INSIDE_DIRECT_FUNCTION);
type Expression_Type is tagged private;
-- Create a NOT expression node.
function Create_Not (Expr : in Expression_Type) return Expression_Type;
-- Create a AND expression node.
function Create_And (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create a OR expression node.
function Create_Or (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create an INSIDE expression node.
function Create_Inside (Name : in Ada.Strings.Unbounded.Unbounded_String;
Kind : in Inside_Type) return Expression_Type;
function Create_Inside (Addr : in MAT.Types.Uint64;
Kind : in Inside_Type) return Expression_Type;
-- Create an size range expression node.
function Create_Size (Min : in MAT.Types.Target_Size;
Max : in MAT.Types.Target_Size) return Expression_Type;
-- Create an addr range expression node.
function Create_Addr (Min : in MAT.Types.Target_Addr;
Max : in MAT.Types.Target_Addr) return Expression_Type;
-- Create an time range expression node.
function Create_Time (Min : in MAT.Types.Target_Tick_Ref;
Max : in MAT.Types.Target_Tick_Ref) return Expression_Type;
-- Create an event ID range expression node.
function Create_Event (Min : in MAT.Events.Event_Id_Type;
Max : in MAT.Events.Event_Id_Type) return Expression_Type;
-- Create a thread ID range expression node.
function Create_Thread (Min : in MAT.Types.Target_Thread_Ref;
Max : in MAT.Types.Target_Thread_Ref) return Expression_Type;
-- Create a event type expression check.
function Create_Event_Type (Event_Kind : in MAT.Events.Probe_Index_Type)
return Expression_Type;
-- Create an expression node to keep allocation events which don't have any associated free.
function Create_No_Free return Expression_Type;
-- Evaluate the expression to check if the memory slot described by the
-- context is selected. Returns True if the memory slot is selected.
function Is_Selected (Node : in Expression_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Expression_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
-- Parse the string and return the expression tree.
function Parse (Expr : in String;
Resolver : in Resolver_Type_Access) return Expression_Type;
-- Empty expression.
EMPTY : constant Expression_Type;
type yystype is record
low : MAT.Types.Uint64 := 0;
high : MAT.Types.Uint64 := 0;
bval : Boolean := False;
name : Ada.Strings.Unbounded.Unbounded_String;
expr : Expression_Type;
end record;
private
type Kind_Type is (N_NOT, N_OR, N_AND, N_TRUE, N_FALSE,
N_IN_FILE, N_IN_FILE_DIRECT, N_INSIDE,
N_CALL_ADDR, N_CALL_ADDR_DIRECT,
N_IN_FUNC, N_IN_FUNC_DIRECT,
N_RANGE_SIZE, N_RANGE_ADDR,
N_RANGE_TIME, N_EVENT, N_HAS_ADDR,
N_CONDITION, N_THREAD, N_TYPE, N_NO_FREE);
type Node_Type;
type Node_Type_Access is access all Node_Type;
type Node_Type (Kind : Kind_Type) is record
Ref_Counter : Util.Concurrent.Counters.Counter;
case Kind is
when N_NOT =>
Expr : Node_Type_Access;
when N_OR | N_AND =>
Left, Right : Node_Type_Access;
when N_INSIDE | N_IN_FILE | N_IN_FILE_DIRECT =>
Name : Ada.Strings.Unbounded.Unbounded_String;
Inside : Inside_Type;
when N_RANGE_SIZE =>
Min_Size : MAT.Types.Target_Size;
Max_Size : MAT.Types.Target_Size;
when N_RANGE_ADDR | N_CALL_ADDR | N_CALL_ADDR_DIRECT | N_HAS_ADDR
| N_IN_FUNC | N_IN_FUNC_DIRECT =>
Min_Addr : MAT.Types.Target_Addr;
Max_Addr : MAT.Types.Target_Addr;
when N_RANGE_TIME =>
Min_Time : MAT.Types.Target_Tick_Ref;
Max_Time : MAT.Types.Target_Tick_Ref;
when N_THREAD =>
Min_Thread : MAT.Types.Target_Thread_Ref;
Max_Thread : MAT.Types.Target_Thread_Ref;
when N_EVENT =>
Min_Event : MAT.Events.Event_Id_Type;
Max_Event : MAT.Events.Event_Id_Type;
when N_TYPE =>
Event_Kind : MAT.Events.Probe_Index_Type;
when others =>
null;
end case;
end record;
-- Evaluate the node against the context. Returns True if the node expression
-- selects the memory slot defined by the context.
function Is_Selected (Node : in Node_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Node_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
type Expression_Type is new Ada.Finalization.Controlled with record
Node : Node_Type_Access;
end record;
-- Release the reference and destroy the expression tree if it was the last reference.
overriding
procedure Finalize (Obj : in out Expression_Type);
-- Update the reference after an assignment.
overriding
procedure Adjust (Obj : in out Expression_Type);
-- Empty expression.
EMPTY : constant Expression_Type := Expression_Type'(Ada.Finalization.Controlled with
Node => null);
end MAT.Expressions;
| true | -----------------------------------------------------------------------
-- mat-expressions -- Expressions for event and memory slot selection
-- Copyright (C) 2014, 2015, 2021 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with Ada.Finalization;
private with Util.Concurrent.Counters;
with MAT.Types;
with MAT.Memory;
with MAT.Events;
package MAT.Expressions is
type Resolver_Type is limited interface;
type Resolver_Type_Access is access all Resolver_Type'Class;
-- Find the region that matches the given name.
function Find_Region (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol in the symbol table and return the start and end address.
function Find_Symbol (Resolver : in Resolver_Type;
Name : in String) return MAT.Memory.Region_Info is abstract;
-- Find the symbol region in the symbol table that contains the given address
-- and return the start and end address of that region.
function Find_Symbol (Resolver : in Resolver_Type;
Addr : in MAT.Types.Target_Addr)
return MAT.Memory.Region_Info is abstract;
-- Get the start time for the tick reference.
function Get_Start_Time (Resolver : in Resolver_Type)
return MAT.Types.Target_Tick_Ref is abstract;
type Context_Type is record
Addr : MAT.Types.Target_Addr;
Allocation : MAT.Memory.Allocation;
end record;
type Inside_Type is (INSIDE_REGION,
INSIDE_DIRECT_REGION,
INSIDE_FUNCTION,
INSIDE_DIRECT_FUNCTION);
type Expression_Type is tagged private;
-- Create a NOT expression node.
function Create_Not (Expr : in Expression_Type) return Expression_Type;
-- Create a AND expression node.
function Create_And (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create a OR expression node.
function Create_Or (Left : in Expression_Type;
Right : in Expression_Type) return Expression_Type;
-- Create an INSIDE expression node.
function Create_Inside (Name : in Ada.Strings.Unbounded.Unbounded_String;
Kind : in Inside_Type) return Expression_Type;
function Create_Inside (Addr : in MAT.Types.Uint64;
Kind : in Inside_Type) return Expression_Type;
-- Create an size range expression node.
function Create_Size (Min : in MAT.Types.Target_Size;
Max : in MAT.Types.Target_Size) return Expression_Type;
-- Create an addr range expression node.
function Create_Addr (Min : in MAT.Types.Target_Addr;
Max : in MAT.Types.Target_Addr) return Expression_Type;
-- Create an time range expression node.
function Create_Time (Min : in MAT.Types.Target_Tick_Ref;
Max : in MAT.Types.Target_Tick_Ref) return Expression_Type;
-- Create an event ID range expression node.
function Create_Event (Min : in MAT.Events.Event_Id_Type;
Max : in MAT.Events.Event_Id_Type) return Expression_Type;
-- Create a thread ID range expression node.
function Create_Thread (Min : in MAT.Types.Target_Thread_Ref;
Max : in MAT.Types.Target_Thread_Ref) return Expression_Type;
-- Create a event type expression check.
function Create_Event_Type (Event_Kind : in MAT.Events.Probe_Index_Type)
return Expression_Type;
-- Create an expression node to keep allocation events which don't have any associated free.
function Create_No_Free return Expression_Type;
-- Evaluate the expression to check if the memory slot described by the
-- context is selected. Returns True if the memory slot is selected.
function Is_Selected (Node : in Expression_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Expression_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
-- Parse the string and return the expression tree.
function Parse (Expr : in String;
Resolver : in Resolver_Type_Access) return Expression_Type;
-- Empty expression.
EMPTY : constant Expression_Type;
type yystype is record
low : MAT.Types.Uint64 := 0;
high : MAT.Types.Uint64 := 0;
bval : Boolean := False;
name : Ada.Strings.Unbounded.Unbounded_String;
expr : Expression_Type;
end record;
private
type Kind_Type is (N_NOT, N_OR, N_AND, N_TRUE, N_FALSE,
N_IN_FILE, N_IN_FILE_DIRECT, N_INSIDE,
N_CALL_ADDR, N_CALL_ADDR_DIRECT,
N_IN_FUNC, N_IN_FUNC_DIRECT,
N_RANGE_SIZE, N_RANGE_ADDR,
N_RANGE_TIME, N_EVENT, N_HAS_ADDR,
N_CONDITION, N_THREAD, N_TYPE, N_NO_FREE);
type Node_Type;
type Node_Type_Access is access all Node_Type;
type Node_Type (Kind : Kind_Type) is record
Ref_Counter : Util.Concurrent.Counters.Counter;
case Kind is
when N_NOT =>
Expr : Node_Type_Access;
when N_OR | N_AND =>
Left, Right : Node_Type_Access;
when N_INSIDE | N_IN_FILE | N_IN_FILE_DIRECT =>
Name : Ada.Strings.Unbounded.Unbounded_String;
Inside : Inside_Type;
when N_RANGE_SIZE =>
Min_Size : MAT.Types.Target_Size;
Max_Size : MAT.Types.Target_Size;
when N_RANGE_ADDR | N_CALL_ADDR | N_CALL_ADDR_DIRECT | N_HAS_ADDR
| N_IN_FUNC | N_IN_FUNC_DIRECT =>
Min_Addr : MAT.Types.Target_Addr;
Max_Addr : MAT.Types.Target_Addr;
when N_RANGE_TIME =>
Min_Time : MAT.Types.Target_Tick_Ref;
Max_Time : MAT.Types.Target_Tick_Ref;
when N_THREAD =>
Min_Thread : MAT.Types.Target_Thread_Ref;
Max_Thread : MAT.Types.Target_Thread_Ref;
when N_EVENT =>
Min_Event : MAT.Events.Event_Id_Type;
Max_Event : MAT.Events.Event_Id_Type;
when N_TYPE =>
Event_Kind : MAT.Events.Probe_Index_Type;
when others =>
null;
end case;
end record;
-- Evaluate the node against the context. Returns True if the node expression
-- selects the memory slot defined by the context.
function Is_Selected (Node : in Node_Type;
Addr : in MAT.Types.Target_Addr;
Allocation : in MAT.Memory.Allocation) return Boolean;
-- Evaluate the expression to check if the event described by the
-- context is selected. Returns True if the event is selected.
function Is_Selected (Node : in Node_Type;
Event : in MAT.Events.Target_Event_Type) return Boolean;
type Expression_Type is new Ada.Finalization.Controlled with record
Node : Node_Type_Access;
end record;
-- Release the reference and destroy the expression tree if it was the last reference.
overriding
procedure Finalize (Obj : in out Expression_Type);
-- Update the reference after an assignment.
overriding
procedure Adjust (Obj : in out Expression_Type);
-- Empty expression.
EMPTY : constant Expression_Type := Expression_Type'(Ada.Finalization.Controlled with
Node => null);
end MAT.Expressions;
|
[
{
"context": "---------------------\n-- Copyright (c) 2013-2020, Luke A. Guest\n--\n-- This software is provided 'as-is', without",
"end": 159,
"score": 0.9996889233589172,
"start": 146,
"tag": "NAME",
"value": "Luke A. Guest"
}
] | src/sdl-video-rectangles.ads | Fabien-Chouteau/sdlada | 1 | --------------------------------------------------------------------------------------------------------------------
-- Copyright (c) 2013-2020, Luke A. Guest
--
-- This software is provided 'as-is', without any express or implied
-- warranty. In no event will the authors be held liable for any damages
-- arising from the use of this software.
--
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it
-- freely, subject to the following restrictions:
--
-- 1. The origin of this software must not be misrepresented; you must not
-- claim that you wrote the original software. If you use this software
-- in a product, an acknowledgment in the product documentation would be
-- appreciated but is not required.
--
-- 2. Altered source versions must be plainly marked as such, and must not be
-- misrepresented as being the original software.
--
-- 3. This notice may not be removed or altered from any source
-- distribution.
--------------------------------------------------------------------------------------------------------------------
-- SDL.Video.Rectangles
--
-- Rectangle bounding areas.
--------------------------------------------------------------------------------------------------------------------
with Interfaces.C;
package SDL.Video.Rectangles is
package C renames Interfaces.C;
Rectangle_Error : exception;
type Size_Arrays is array (C.size_t range <>) of aliased SDL.Sizes with
Convention => C;
subtype Point is SDL.Coordinates;
type Point_Arrays is array (C.size_t range <>) of aliased Point with
Convention => C;
type Line_Segment is
record
Start : SDL.Coordinates;
Finish : SDL.Coordinates;
end record with
Convention => C;
type Line_Arrays is array (C.size_t range <>) of aliased Line_Segment with
Convention => C;
-- TODO: Replace with Point and Sizes?
type Rectangle is
record
X : SDL.Coordinate;
Y : SDL.Coordinate;
Width : SDL.Natural_Dimension;
Height : SDL.Natural_Dimension;
end record with
Convention => C;
Null_Rectangle : constant Rectangle := (others => 0);
type Rectangle_Arrays is array (C.size_t range <>) of aliased Rectangle with
Convention => C;
type Rectangle_Access is access all Rectangle with
Convention => C;
function Enclose (Points : in Point_Arrays; Clip : in Rectangle; Enclosed : out Rectangle) return Boolean;
procedure Enclose (Points : in Point_Arrays; Enclosed : out Rectangle);
function Has_Intersected (A, B : in Rectangle) return Boolean;
function Intersects (A, B : in Rectangle; Intersection : out Rectangle) return Boolean;
function Clip_To (Clip_Area : in Rectangle; Line : in out Line_Segment) return Boolean;
function Union (A, B : in Rectangle) return Rectangle;
end SDL.Video.Rectangles;
| 4681 | --------------------------------------------------------------------------------------------------------------------
-- Copyright (c) 2013-2020, <NAME>
--
-- This software is provided 'as-is', without any express or implied
-- warranty. In no event will the authors be held liable for any damages
-- arising from the use of this software.
--
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it
-- freely, subject to the following restrictions:
--
-- 1. The origin of this software must not be misrepresented; you must not
-- claim that you wrote the original software. If you use this software
-- in a product, an acknowledgment in the product documentation would be
-- appreciated but is not required.
--
-- 2. Altered source versions must be plainly marked as such, and must not be
-- misrepresented as being the original software.
--
-- 3. This notice may not be removed or altered from any source
-- distribution.
--------------------------------------------------------------------------------------------------------------------
-- SDL.Video.Rectangles
--
-- Rectangle bounding areas.
--------------------------------------------------------------------------------------------------------------------
with Interfaces.C;
package SDL.Video.Rectangles is
package C renames Interfaces.C;
Rectangle_Error : exception;
type Size_Arrays is array (C.size_t range <>) of aliased SDL.Sizes with
Convention => C;
subtype Point is SDL.Coordinates;
type Point_Arrays is array (C.size_t range <>) of aliased Point with
Convention => C;
type Line_Segment is
record
Start : SDL.Coordinates;
Finish : SDL.Coordinates;
end record with
Convention => C;
type Line_Arrays is array (C.size_t range <>) of aliased Line_Segment with
Convention => C;
-- TODO: Replace with Point and Sizes?
type Rectangle is
record
X : SDL.Coordinate;
Y : SDL.Coordinate;
Width : SDL.Natural_Dimension;
Height : SDL.Natural_Dimension;
end record with
Convention => C;
Null_Rectangle : constant Rectangle := (others => 0);
type Rectangle_Arrays is array (C.size_t range <>) of aliased Rectangle with
Convention => C;
type Rectangle_Access is access all Rectangle with
Convention => C;
function Enclose (Points : in Point_Arrays; Clip : in Rectangle; Enclosed : out Rectangle) return Boolean;
procedure Enclose (Points : in Point_Arrays; Enclosed : out Rectangle);
function Has_Intersected (A, B : in Rectangle) return Boolean;
function Intersects (A, B : in Rectangle; Intersection : out Rectangle) return Boolean;
function Clip_To (Clip_Area : in Rectangle; Line : in out Line_Segment) return Boolean;
function Union (A, B : in Rectangle) return Rectangle;
end SDL.Video.Rectangles;
| true | --------------------------------------------------------------------------------------------------------------------
-- Copyright (c) 2013-2020, PI:NAME:<NAME>END_PI
--
-- This software is provided 'as-is', without any express or implied
-- warranty. In no event will the authors be held liable for any damages
-- arising from the use of this software.
--
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it
-- freely, subject to the following restrictions:
--
-- 1. The origin of this software must not be misrepresented; you must not
-- claim that you wrote the original software. If you use this software
-- in a product, an acknowledgment in the product documentation would be
-- appreciated but is not required.
--
-- 2. Altered source versions must be plainly marked as such, and must not be
-- misrepresented as being the original software.
--
-- 3. This notice may not be removed or altered from any source
-- distribution.
--------------------------------------------------------------------------------------------------------------------
-- SDL.Video.Rectangles
--
-- Rectangle bounding areas.
--------------------------------------------------------------------------------------------------------------------
with Interfaces.C;
package SDL.Video.Rectangles is
package C renames Interfaces.C;
Rectangle_Error : exception;
type Size_Arrays is array (C.size_t range <>) of aliased SDL.Sizes with
Convention => C;
subtype Point is SDL.Coordinates;
type Point_Arrays is array (C.size_t range <>) of aliased Point with
Convention => C;
type Line_Segment is
record
Start : SDL.Coordinates;
Finish : SDL.Coordinates;
end record with
Convention => C;
type Line_Arrays is array (C.size_t range <>) of aliased Line_Segment with
Convention => C;
-- TODO: Replace with Point and Sizes?
type Rectangle is
record
X : SDL.Coordinate;
Y : SDL.Coordinate;
Width : SDL.Natural_Dimension;
Height : SDL.Natural_Dimension;
end record with
Convention => C;
Null_Rectangle : constant Rectangle := (others => 0);
type Rectangle_Arrays is array (C.size_t range <>) of aliased Rectangle with
Convention => C;
type Rectangle_Access is access all Rectangle with
Convention => C;
function Enclose (Points : in Point_Arrays; Clip : in Rectangle; Enclosed : out Rectangle) return Boolean;
procedure Enclose (Points : in Point_Arrays; Enclosed : out Rectangle);
function Has_Intersected (A, B : in Rectangle) return Boolean;
function Intersects (A, B : in Rectangle; Intersection : out Rectangle) return Boolean;
function Clip_To (Clip_Area : in Rectangle; Line : in out Line_Segment) return Boolean;
function Union (A, B : in Rectangle) return Rectangle;
end SDL.Video.Rectangles;
|
[
{
"context": " --\n-- Copyright (C) 2014 David Botton --\n-- ",
"end": 741,
"score": 0.99984210729599,
"start": 729,
"tag": "NAME",
"value": "David Botton"
}
] | ada_gui-gnoga-gui-element-list.ads | jrcarter/Ada_GUI | 19 | -- Ada_GUI implementation based on Gnoga. Adapted 2021
-- --
-- GNOGA - The GNU Omnificent GUI for Ada --
-- --
-- G N O G A . G U I . E L E M E N T . L I S T S --
-- --
-- S p e c --
-- --
-- --
-- Copyright (C) 2014 David Botton --
-- --
-- This library is free software; you can redistribute it and/or modify --
-- it under terms of the GNU General Public License as published by the --
-- Free Software Foundation; either version 3, or (at your option) any --
-- later version. This library is distributed in the hope that it will be --
-- useful, but WITHOUT ANY WARRANTY; without even the implied warranty of --
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are --
-- granted additional permissions described in the GCC Runtime Library --
-- Exception, version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- For more information please go to http://www.gnoga.com --
------------------------------------------------------------------------------
with Ada_GUI.Gnoga.Gui.View;
package Ada_GUI.Gnoga.Gui.Element.List is
-- Lists are elements, implemented as views that comprise sub element
-- parts. Each list type has a different default display style.
--
-- To add elements just Item.Create the sub types.
-- To remove from list use Item.Remove
-- To place in a specific location use the standard Element.Place_*
-- methods.
-------------------------------------------------------------------------
-- Ordered_List_Types
-------------------------------------------------------------------------
type Ordered_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Ordered_List_Access is access all Ordered_List_Type;
type Pointer_To_Ordered_List_Class is
access all Ordered_List_Type'Class;
-------------------------------------------------------------------------
-- Ordered_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Ordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an ordered (by default 1,2,3,4..) list
-------------------------------------------------------------------------
-- Ordered_List_Types - Properties
-------------------------------------------------------------------------
type List_Kind_Type is
(Disc, Armenian, Circle, Cjk_Ideographic, Decimal, Decimal_Leading_Zero,
Georgian, Hebrew, Hiragana, Hiragana_Iroha, Katakana, Katakana_Iroha,
Lower_Alpha, Lower_Greek, Lower_Latin, Lower_Roman, None, Square,
Upper_Alpha, Upper_Latin, Upper_Roman);
procedure List_Kind (List : in out Ordered_List_Type;
Value : in List_Kind_Type);
type List_Location_Type is (Inside, Outside);
procedure List_Location (List : in out Ordered_List_Type;
Value : in List_Location_Type);
-- Default is outside
-------------------------------------------------------------------------
-- Unordered_List_Types
-------------------------------------------------------------------------
type Unordered_List_Type is new Ordered_List_Type with private;
type Unordered_List_Access is access all Unordered_List_Type;
type Pointer_To_Unordered_List_Class is
access all Unordered_List_Type'Class;
-------------------------------------------------------------------------
-- Unordered_List_Types - Creation Methods
-------------------------------------------------------------------------
overriding
procedure Create
(List : in out Unordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an unordered (by default) bullet/disc list
-------------------------------------------------------------------------
-- List_Item_Types
-------------------------------------------------------------------------
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with private;
type List_Item_Access is access all List_Item_Type;
type Pointer_To_List_Item_Class is access all List_Item_Type'Class;
-------------------------------------------------------------------------
-- List_Item_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out List_Item_Type;
Parent : in out Ordered_List_Type'Class;
Text : in String := "";
ID : in String := "");
-- To properly display parent should be an Ordered_List_Type or an
-- Unordered_List_Type
-------------------------------------------------------------------------
-- List_Item_Type - Properties
-------------------------------------------------------------------------
procedure Value (Element : in out List_Item_Type; Value : in String);
function Value (Element : List_Item_Type) return String;
-- Ordered list value, List_Item_Types added following set of Value will
-- follow in order.
-------------------------------------------------------------------------
-- Definition_List_Types
-------------------------------------------------------------------------
type Definition_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Definition_List_Access is access all Definition_List_Type;
type Pointer_To_Definition_List_Class is
access all Definition_List_Type'Class;
-------------------------------------------------------------------------
-- Definition_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Definition_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create a definition list of terms and descriptions
-------------------------------------------------------------------------
-- Term_Types
-------------------------------------------------------------------------
type Term_Type is new Gnoga.Gui.Element.Element_Type with private;
type Term_Access is access all Term_Type;
type Pointer_To_Term_Class is access all Term_Type'Class;
-------------------------------------------------------------------------
-- Term_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Term_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
-------------------------------------------------------------------------
-- Description_Types
-------------------------------------------------------------------------
type Description_Type is new Gnoga.Gui.Element.Element_Type with private;
type Description_Access is access all Description_Type;
type Pointer_To_Description_Class is access all Description_Type'Class;
-------------------------------------------------------------------------
-- Description_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Description_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
private
type Ordered_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Unordered_List_Type is new Ordered_List_Type with null record;
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Definition_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Term_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Description_Type is
new Gnoga.Gui.Element.Element_Type with null record;
end Ada_GUI.Gnoga.Gui.Element.List;
| 16346 | -- Ada_GUI implementation based on Gnoga. Adapted 2021
-- --
-- GNOGA - The GNU Omnificent GUI for Ada --
-- --
-- G N O G A . G U I . E L E M E N T . L I S T S --
-- --
-- S p e c --
-- --
-- --
-- Copyright (C) 2014 <NAME> --
-- --
-- This library is free software; you can redistribute it and/or modify --
-- it under terms of the GNU General Public License as published by the --
-- Free Software Foundation; either version 3, or (at your option) any --
-- later version. This library is distributed in the hope that it will be --
-- useful, but WITHOUT ANY WARRANTY; without even the implied warranty of --
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are --
-- granted additional permissions described in the GCC Runtime Library --
-- Exception, version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- For more information please go to http://www.gnoga.com --
------------------------------------------------------------------------------
with Ada_GUI.Gnoga.Gui.View;
package Ada_GUI.Gnoga.Gui.Element.List is
-- Lists are elements, implemented as views that comprise sub element
-- parts. Each list type has a different default display style.
--
-- To add elements just Item.Create the sub types.
-- To remove from list use Item.Remove
-- To place in a specific location use the standard Element.Place_*
-- methods.
-------------------------------------------------------------------------
-- Ordered_List_Types
-------------------------------------------------------------------------
type Ordered_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Ordered_List_Access is access all Ordered_List_Type;
type Pointer_To_Ordered_List_Class is
access all Ordered_List_Type'Class;
-------------------------------------------------------------------------
-- Ordered_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Ordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an ordered (by default 1,2,3,4..) list
-------------------------------------------------------------------------
-- Ordered_List_Types - Properties
-------------------------------------------------------------------------
type List_Kind_Type is
(Disc, Armenian, Circle, Cjk_Ideographic, Decimal, Decimal_Leading_Zero,
Georgian, Hebrew, Hiragana, Hiragana_Iroha, Katakana, Katakana_Iroha,
Lower_Alpha, Lower_Greek, Lower_Latin, Lower_Roman, None, Square,
Upper_Alpha, Upper_Latin, Upper_Roman);
procedure List_Kind (List : in out Ordered_List_Type;
Value : in List_Kind_Type);
type List_Location_Type is (Inside, Outside);
procedure List_Location (List : in out Ordered_List_Type;
Value : in List_Location_Type);
-- Default is outside
-------------------------------------------------------------------------
-- Unordered_List_Types
-------------------------------------------------------------------------
type Unordered_List_Type is new Ordered_List_Type with private;
type Unordered_List_Access is access all Unordered_List_Type;
type Pointer_To_Unordered_List_Class is
access all Unordered_List_Type'Class;
-------------------------------------------------------------------------
-- Unordered_List_Types - Creation Methods
-------------------------------------------------------------------------
overriding
procedure Create
(List : in out Unordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an unordered (by default) bullet/disc list
-------------------------------------------------------------------------
-- List_Item_Types
-------------------------------------------------------------------------
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with private;
type List_Item_Access is access all List_Item_Type;
type Pointer_To_List_Item_Class is access all List_Item_Type'Class;
-------------------------------------------------------------------------
-- List_Item_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out List_Item_Type;
Parent : in out Ordered_List_Type'Class;
Text : in String := "";
ID : in String := "");
-- To properly display parent should be an Ordered_List_Type or an
-- Unordered_List_Type
-------------------------------------------------------------------------
-- List_Item_Type - Properties
-------------------------------------------------------------------------
procedure Value (Element : in out List_Item_Type; Value : in String);
function Value (Element : List_Item_Type) return String;
-- Ordered list value, List_Item_Types added following set of Value will
-- follow in order.
-------------------------------------------------------------------------
-- Definition_List_Types
-------------------------------------------------------------------------
type Definition_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Definition_List_Access is access all Definition_List_Type;
type Pointer_To_Definition_List_Class is
access all Definition_List_Type'Class;
-------------------------------------------------------------------------
-- Definition_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Definition_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create a definition list of terms and descriptions
-------------------------------------------------------------------------
-- Term_Types
-------------------------------------------------------------------------
type Term_Type is new Gnoga.Gui.Element.Element_Type with private;
type Term_Access is access all Term_Type;
type Pointer_To_Term_Class is access all Term_Type'Class;
-------------------------------------------------------------------------
-- Term_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Term_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
-------------------------------------------------------------------------
-- Description_Types
-------------------------------------------------------------------------
type Description_Type is new Gnoga.Gui.Element.Element_Type with private;
type Description_Access is access all Description_Type;
type Pointer_To_Description_Class is access all Description_Type'Class;
-------------------------------------------------------------------------
-- Description_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Description_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
private
type Ordered_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Unordered_List_Type is new Ordered_List_Type with null record;
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Definition_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Term_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Description_Type is
new Gnoga.Gui.Element.Element_Type with null record;
end Ada_GUI.Gnoga.Gui.Element.List;
| true | -- Ada_GUI implementation based on Gnoga. Adapted 2021
-- --
-- GNOGA - The GNU Omnificent GUI for Ada --
-- --
-- G N O G A . G U I . E L E M E N T . L I S T S --
-- --
-- S p e c --
-- --
-- --
-- Copyright (C) 2014 PI:NAME:<NAME>END_PI --
-- --
-- This library is free software; you can redistribute it and/or modify --
-- it under terms of the GNU General Public License as published by the --
-- Free Software Foundation; either version 3, or (at your option) any --
-- later version. This library is distributed in the hope that it will be --
-- useful, but WITHOUT ANY WARRANTY; without even the implied warranty of --
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are --
-- granted additional permissions described in the GCC Runtime Library --
-- Exception, version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- For more information please go to http://www.gnoga.com --
------------------------------------------------------------------------------
with Ada_GUI.Gnoga.Gui.View;
package Ada_GUI.Gnoga.Gui.Element.List is
-- Lists are elements, implemented as views that comprise sub element
-- parts. Each list type has a different default display style.
--
-- To add elements just Item.Create the sub types.
-- To remove from list use Item.Remove
-- To place in a specific location use the standard Element.Place_*
-- methods.
-------------------------------------------------------------------------
-- Ordered_List_Types
-------------------------------------------------------------------------
type Ordered_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Ordered_List_Access is access all Ordered_List_Type;
type Pointer_To_Ordered_List_Class is
access all Ordered_List_Type'Class;
-------------------------------------------------------------------------
-- Ordered_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Ordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an ordered (by default 1,2,3,4..) list
-------------------------------------------------------------------------
-- Ordered_List_Types - Properties
-------------------------------------------------------------------------
type List_Kind_Type is
(Disc, Armenian, Circle, Cjk_Ideographic, Decimal, Decimal_Leading_Zero,
Georgian, Hebrew, Hiragana, Hiragana_Iroha, Katakana, Katakana_Iroha,
Lower_Alpha, Lower_Greek, Lower_Latin, Lower_Roman, None, Square,
Upper_Alpha, Upper_Latin, Upper_Roman);
procedure List_Kind (List : in out Ordered_List_Type;
Value : in List_Kind_Type);
type List_Location_Type is (Inside, Outside);
procedure List_Location (List : in out Ordered_List_Type;
Value : in List_Location_Type);
-- Default is outside
-------------------------------------------------------------------------
-- Unordered_List_Types
-------------------------------------------------------------------------
type Unordered_List_Type is new Ordered_List_Type with private;
type Unordered_List_Access is access all Unordered_List_Type;
type Pointer_To_Unordered_List_Class is
access all Unordered_List_Type'Class;
-------------------------------------------------------------------------
-- Unordered_List_Types - Creation Methods
-------------------------------------------------------------------------
overriding
procedure Create
(List : in out Unordered_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create an unordered (by default) bullet/disc list
-------------------------------------------------------------------------
-- List_Item_Types
-------------------------------------------------------------------------
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with private;
type List_Item_Access is access all List_Item_Type;
type Pointer_To_List_Item_Class is access all List_Item_Type'Class;
-------------------------------------------------------------------------
-- List_Item_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out List_Item_Type;
Parent : in out Ordered_List_Type'Class;
Text : in String := "";
ID : in String := "");
-- To properly display parent should be an Ordered_List_Type or an
-- Unordered_List_Type
-------------------------------------------------------------------------
-- List_Item_Type - Properties
-------------------------------------------------------------------------
procedure Value (Element : in out List_Item_Type; Value : in String);
function Value (Element : List_Item_Type) return String;
-- Ordered list value, List_Item_Types added following set of Value will
-- follow in order.
-------------------------------------------------------------------------
-- Definition_List_Types
-------------------------------------------------------------------------
type Definition_List_Type is new Gnoga.Gui.View.View_Base_Type with private;
type Definition_List_Access is access all Definition_List_Type;
type Pointer_To_Definition_List_Class is
access all Definition_List_Type'Class;
-------------------------------------------------------------------------
-- Definition_List_Types - Creation Methods
-------------------------------------------------------------------------
procedure Create
(List : in out Definition_List_Type;
Parent : in out Gnoga.Gui.Base_Type'Class;
ID : in String := "");
-- Create a definition list of terms and descriptions
-------------------------------------------------------------------------
-- Term_Types
-------------------------------------------------------------------------
type Term_Type is new Gnoga.Gui.Element.Element_Type with private;
type Term_Access is access all Term_Type;
type Pointer_To_Term_Class is access all Term_Type'Class;
-------------------------------------------------------------------------
-- Term_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Term_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
-------------------------------------------------------------------------
-- Description_Types
-------------------------------------------------------------------------
type Description_Type is new Gnoga.Gui.Element.Element_Type with private;
type Description_Access is access all Description_Type;
type Pointer_To_Description_Class is access all Description_Type'Class;
-------------------------------------------------------------------------
-- Description_Type - Creation Methods
-------------------------------------------------------------------------
procedure Create (Item : in out Description_Type;
Parent : in out Definition_List_Type'Class;
Text : in String := "";
ID : in String := "");
private
type Ordered_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Unordered_List_Type is new Ordered_List_Type with null record;
type List_Item_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Definition_List_Type is
new Gnoga.Gui.View.View_Base_Type with null record;
type Term_Type is new Gnoga.Gui.Element.Element_Type with null record;
type Description_Type is
new Gnoga.Gui.Element.Element_Type with null record;
end Ada_GUI.Gnoga.Gui.Element.List;
|
[
{
"context": "da Keystore GTK application\n-- Copyright (C) 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 174,
"score": 0.999873161315918,
"start": 159,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 205,
"score": 0.9998798370361328,
"start": 190,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "9 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 232,
"score": 0.9999240636825562,
"start": 207,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | gtk/akt-callbacks.ads | thierr26/ada-keystore | 25 | -----------------------------------------------------------------------
-- akt-callbacks -- Callbacks for Ada Keystore GTK application
-- Copyright (C) 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Gtkada.Builder;
with AKT.Windows;
package AKT.Callbacks is
-- Initialize and register the callbacks.
procedure Initialize (Application : in AKT.Windows.Application_Access;
Builder : in Gtkada.Builder.Gtkada_Builder);
-- Callback executed when the "quit" action is executed from the menu.
procedure On_Menu_Quit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "about" action is executed from the menu.
procedure On_Menu_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-new" action is executed from the file menu.
procedure On_Menu_New (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-open" action is executed from the file menu.
procedure On_Menu_Open (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-add" action is executed from the toolbar.
procedure On_Tool_Add (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-save" action is executed from the toolbar.
procedure On_Tool_Save (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-edit" action is executed from the toolbar.
procedure On_Tool_Edit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-lock" action is executed from the toolbar.
procedure On_Tool_Lock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-unlock" action is executed from the toolbar.
procedure On_Tool_Unlock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "open-file" action is executed from the open_file dialog.
procedure On_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-open-file" action is executed from the open_file dialog.
procedure On_Cancel_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "create-file" action is executed from the open_file dialog.
procedure On_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-create-file" action is executed
-- from the open_file dialog.
procedure On_Cancel_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "delete-event" action is executed from the main window.
function On_Close_Window (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class)
return Boolean;
-- Callback executed when the "close-about" action is executed from the about box.
procedure On_Close_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "close-password" action is executed from the password dialog.
procedure On_Close_Password (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "dialog-password-ok" action is executed from the password dialog.
procedure On_Dialog_Password_Ok (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
end AKT.Callbacks;
| 20141 | -----------------------------------------------------------------------
-- akt-callbacks -- Callbacks for Ada Keystore GTK application
-- Copyright (C) 2019 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Gtkada.Builder;
with AKT.Windows;
package AKT.Callbacks is
-- Initialize and register the callbacks.
procedure Initialize (Application : in AKT.Windows.Application_Access;
Builder : in Gtkada.Builder.Gtkada_Builder);
-- Callback executed when the "quit" action is executed from the menu.
procedure On_Menu_Quit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "about" action is executed from the menu.
procedure On_Menu_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-new" action is executed from the file menu.
procedure On_Menu_New (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-open" action is executed from the file menu.
procedure On_Menu_Open (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-add" action is executed from the toolbar.
procedure On_Tool_Add (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-save" action is executed from the toolbar.
procedure On_Tool_Save (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-edit" action is executed from the toolbar.
procedure On_Tool_Edit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-lock" action is executed from the toolbar.
procedure On_Tool_Lock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-unlock" action is executed from the toolbar.
procedure On_Tool_Unlock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "open-file" action is executed from the open_file dialog.
procedure On_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-open-file" action is executed from the open_file dialog.
procedure On_Cancel_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "create-file" action is executed from the open_file dialog.
procedure On_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-create-file" action is executed
-- from the open_file dialog.
procedure On_Cancel_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "delete-event" action is executed from the main window.
function On_Close_Window (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class)
return Boolean;
-- Callback executed when the "close-about" action is executed from the about box.
procedure On_Close_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "close-password" action is executed from the password dialog.
procedure On_Close_Password (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "dialog-password-ok" action is executed from the password dialog.
procedure On_Dialog_Password_Ok (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
end AKT.Callbacks;
| true | -----------------------------------------------------------------------
-- akt-callbacks -- Callbacks for Ada Keystore GTK application
-- Copyright (C) 2019 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Gtkada.Builder;
with AKT.Windows;
package AKT.Callbacks is
-- Initialize and register the callbacks.
procedure Initialize (Application : in AKT.Windows.Application_Access;
Builder : in Gtkada.Builder.Gtkada_Builder);
-- Callback executed when the "quit" action is executed from the menu.
procedure On_Menu_Quit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "about" action is executed from the menu.
procedure On_Menu_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-new" action is executed from the file menu.
procedure On_Menu_New (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "menu-open" action is executed from the file menu.
procedure On_Menu_Open (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-add" action is executed from the toolbar.
procedure On_Tool_Add (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-save" action is executed from the toolbar.
procedure On_Tool_Save (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-edit" action is executed from the toolbar.
procedure On_Tool_Edit (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-lock" action is executed from the toolbar.
procedure On_Tool_Lock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "tool-unlock" action is executed from the toolbar.
procedure On_Tool_Unlock (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "open-file" action is executed from the open_file dialog.
procedure On_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-open-file" action is executed from the open_file dialog.
procedure On_Cancel_Open_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "create-file" action is executed from the open_file dialog.
procedure On_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "cancel-create-file" action is executed
-- from the open_file dialog.
procedure On_Cancel_Create_File (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "delete-event" action is executed from the main window.
function On_Close_Window (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class)
return Boolean;
-- Callback executed when the "close-about" action is executed from the about box.
procedure On_Close_About (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "close-password" action is executed from the password dialog.
procedure On_Close_Password (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
-- Callback executed when the "dialog-password-ok" action is executed from the password dialog.
procedure On_Dialog_Password_Ok (Object : access Gtkada.Builder.Gtkada_Builder_Record'Class);
end AKT.Callbacks;
|
[
{
"context": "-- Project: StratoX\n-- Authors: Emanuel Regnath (emanuel.regnath@tum.de)\n-- Martin Becke",
"end": 49,
"score": 0.9998858571052551,
"start": 34,
"tag": "NAME",
"value": "Emanuel Regnath"
},
{
"context": "- Project: StratoX\n-- Authors: Emanuel Regnath (emanuel.regnath@tum.de)\n-- Martin Becker (becker@rcs.ei.tum.de)",
"end": 73,
"score": 0.9999315142631531,
"start": 51,
"tag": "EMAIL",
"value": "emanuel.regnath@tum.de"
},
{
"context": "anuel Regnath (emanuel.regnath@tum.de)\n-- Martin Becker (becker@rcs.ei.tum.de)\n--\n-- Description:\n-- ",
"end": 100,
"score": 0.9998747706413269,
"start": 87,
"tag": "NAME",
"value": "Martin Becker"
},
{
"context": "manuel.regnath@tum.de)\n-- Martin Becker (becker@rcs.ei.tum.de)\n--\n-- Description:\n-- allows logging of str",
"end": 122,
"score": 0.9999334216117859,
"start": 102,
"tag": "EMAIL",
"value": "becker@rcs.ei.tum.de"
}
] | prototyping/adaracer/src/modules/logger.adb | TUM-EI-RCS/StratoX | 12 | -- Project: StratoX
-- Authors: Emanuel Regnath (emanuel.regnath@tum.de)
-- Martin Becker (becker@rcs.ei.tum.de)
--
-- Description:
-- allows logging of structured messages at several logging levels.
--
-- Usage:
-- Logger.init -- initializes the Logger
-- Logger.log_console (Logger.INFO, "Program started.") -- writes log on info level to console
-- Logger.log_sd (Logger.INFO, gps_msg) -- writes GPS record to SD card
with SDLog;
with NVRAM;
with Buildinfo;
with HIL.Devices;
with HIL.UART;
with System;
with Interfaces; use Interfaces;
with Ada.Unchecked_Conversion;
with Ada.Real_Time;
with ULog;
pragma Elaborate_All (ULog);
pragma Elaborate_All (SDLog);
-- @summary Simultaneously writes to UART, and SD card.
package body Logger with SPARK_Mode,
Refined_State => (LogState => (queue_ulog, Logging_Task, logger_level, With_SDLog))
is
-- the type for the queue buffer
type Buffer_Ulog is array (Natural range <>) of ULog.Message;
type bufpos is mod LOG_QUEUE_LENGTH;
-- if GNATprove crashes with reference to that file,
-- then you have run into bug KP-160-P601-005.
-- workaround: move decl of protected type to package spec.
---------------------
-- LOG QUEUE TYPE
---------------------
-- protected type to implement the ULog queue
protected type Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message);
-- enqueue new message. this is not blocking, except to ensure mutex.
-- it is fast (only memcpy), but it can silently fail if buffer is full.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
entry Get_Msg (msg : out ULog.Message);
-- try to get new message from buffer. if empty, this is blocking
-- until buffer has data, and then returns it.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
function Get_Num_Overflows return Natural;
-- query how often the buffer overflowed. If this happens, either increase
-- the buffer QUEUE_LENGTH, or increase priority of the logger task.
function Get_Length return Natural;
-- query number of messages waiting in the logging queue.
private
Buffer : Buffer_Ulog (0 .. LOG_QUEUE_LENGTH - 1);
-- cannot use a discriminant for this (would violate No_Implicit_Heap_Allocations)
Num_Queued : Natural := 0;
Not_Empty : Boolean := False; -- simple barrier (Ravenscar)
Pos_Read : bufpos := 0;
Pos_Write : bufpos := 0;
Num_Overflows : Natural := 0;
-- cannot use a dynamic predicate to etablish relationship, because this requires
-- a record. But we cannot have a record, since this would make Not_Empty a
-- non-simple barrier (=> Ravenscar violation).
end Ulog_Queue_T;
-- sporadic logging task waking up when message is enqueued
task Logging_Task is
pragma Priority (System.Priority'First); -- lowest prio for logging
end Logging_Task;
----------------------------
-- PROTOTYPES
----------------------------
subtype Img_String is String (1 .. 3);
function Image (level : Log_Level) return Img_String;
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array)
with Pre => buf'Last >= buf'First and
then len <= Natural (Unsigned_16'Last) and
then buf'Length >= len;
----------------------------
-- INTERNAL STATES
----------------------------
queue_ulog : Ulog_Queue_T;
logger_level : Log_Level := DEBUG;
With_SDLog : Boolean := False;
-----------------------
-- Write_Bytes_To_SD
-----------------------
-- slow procedure! Takes Byte_Array, converts to SD data type and writes
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array) is
begin
if len > 0 then
declare
subtype Bytes_ULog is HIL.Byte_Array (1 .. len);
subtype SD_Data_ULog is SDLog.SDLog_Data (1 .. Unsigned_16 (len));
function To_FileData is new Ada.Unchecked_Conversion (Bytes_ULog, SD_Data_ULog);
buf_last : constant Integer := buf'First + len - 1;
n_wr : Integer;
begin
SDLog.Write_Log (To_FileData (buf (buf'First .. buf_last)), n_wr);
end;
end if;
end Write_Bytes_To_SD;
--------------
-- LOG TASK
--------------
-- the task which logs to SD card in the background
task body Logging_Task is
msg : ULog.Message;
BUFLEN : constant := 512;
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
type loginfo_ratio is mod 100;
r : loginfo_ratio := 0;
begin
loop
queue_ulog.Get_Msg (msg); -- under mutex, must be fast
ULog.Serialize_Ulog (msg, len, bytes); -- this can be slow again
Write_Bytes_To_SD (len => len, buf => bytes);
-- occasionally log queue state (overflows, num_queued).
r := r + 1;
if r = 0 then
declare
m : ULog.Message (ULog.LOG_QUEUE);
n_ovf : constant Natural := queue_ulog.Get_Num_Overflows;
n_que : constant Natural := queue_ulog.Get_Length;
begin
m.t := Ada.Real_Time.Clock;
if n_ovf > Natural (Unsigned_16'Last) then
m.n_overflows := Unsigned_16'Last;
else
m.n_overflows := Unsigned_16 (n_ovf);
end if;
if n_que > Natural (Unsigned_8'Last) then
m.n_queued := Unsigned_8'Last;
else
m.n_queued := Unsigned_8 (n_que);
end if;
ULog.Serialize_Ulog (m, len, bytes);
Write_Bytes_To_SD (len => len, buf => bytes);
end;
end if;
end loop;
end Logging_Task;
-- implementation of the message queue
protected body Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message) is
begin
Buffer (Integer (Pos_Write)) := msg;
Pos_Write := Pos_Write + 1;
if Num_Queued < Buffer'Last then
Num_Queued := Num_Queued + 1;
else -- =Buffer'Last
Pos_Read := Pos_Read + 1; -- overwrite oldest
if Num_Overflows < Natural'Last then
Num_Overflows := Num_Overflows + 1;
end if;
end if;
Not_Empty := (Num_Queued > 0);
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end New_Msg;
entry Get_Msg (msg : out ULog.Message) when Not_Empty is
begin
pragma Assume (Num_Queued > 0); -- via barrier and assert in New_Msg
msg := Buffer (Integer (Pos_Read));
Pos_Read := Pos_Read + 1;
Num_Queued := Num_Queued - 1;
Not_Empty := Num_Queued > 0;
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end Get_Msg;
function Get_Num_Overflows return Natural is (Num_Overflows);
function Get_Length return Natural is (Num_Queued);
end Ulog_Queue_T;
----------------------------
-- Instantiation / Body --
----------------------------
-- HAL, only change Adapter to port Code
package body Adapter is
procedure init (status : out Init_Error_Code) is
begin
-- HIL.UART.configure; already done in CPU.initialize
status := SUCCESS;
end init;
procedure write (message : Message_Type) is
CR : constant Character := Character'Val (13); -- ASCII
LF : constant Character := Character'Val (10);
begin
HIL.UART.write (HIL.Devices.CONSOLE,
HIL.UART.toData_Type (message & CR & LF));
end write;
end Adapter;
--------------
-- Init
--------------
procedure Init (status : out Init_Error_Code) is
begin
SDLog.Init;
Adapter.init (status);
end Init;
-----------
-- Image
-----------
function Image (level : Log_Level) return Img_String is
begin
return (case level is
when SENSOR => "S: ",
when ERROR => "E: ",
when WARN => "W: ",
when INFO => "I: ",
when DEBUG => "D: ",
when TRACE => "T: "
);
end Image;
-----------------
-- log_console
-----------------
procedure log_console (msg_level : Log_Level; message : Message_Type) with SPARK_Mode => Off is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
Adapter.write (Image (msg_level) & message);
end if;
end log_console;
----------------
-- log_sd
----------------
procedure log_sd (msg_level : Log_Level; message : ULog.Message) is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
queue_ulog.New_Msg (message);
end if;
end log_sd;
-------------------
-- set_log_level
-------------------
procedure Set_Log_Level (level : Log_Level) is
begin
logger_level := level;
end Set_Log_Level;
-------------------
-- Start_SDLog
-------------------
procedure Start_SDLog is
num_boots : HIL.Byte;
begin
NVRAM.Load (variable => NVRAM.VAR_BOOTCOUNTER, data => num_boots);
declare
buildstring : constant String := Buildinfo.Short_Datetime;
fname : constant String := HIL.Byte'Image (num_boots) & ".log";
BUFLEN : constant := 128; -- header is around 90 bytes long
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
valid : Boolean;
Logfile_Started : Boolean;
begin
With_SDLog := False;
SDLog.Start_Logfile (dirname => buildstring, filename => fname, ret => Logfile_Started);
if not Logfile_Started
then
log_console (Logger.ERROR, "Cannot create logfile: " & buildstring & "/" & fname);
return;
else
log_console (Logger.INFO, "Log name: " & buildstring & "/" & fname);
With_SDLog := True;
end if;
-- write file header (ULog message definitions)
ULog.Init;
Get_Ulog_Defs_Loop :
loop
ULog.Get_Header_Ulog (bytes, len, valid);
exit Get_Ulog_Defs_Loop when not valid;
Write_Bytes_To_SD (len => len, buf => bytes);
end loop Get_Ulog_Defs_Loop;
end;
end Start_SDLog;
end Logger;
| 14630 | -- Project: StratoX
-- Authors: <NAME> (<EMAIL>)
-- <NAME> (<EMAIL>)
--
-- Description:
-- allows logging of structured messages at several logging levels.
--
-- Usage:
-- Logger.init -- initializes the Logger
-- Logger.log_console (Logger.INFO, "Program started.") -- writes log on info level to console
-- Logger.log_sd (Logger.INFO, gps_msg) -- writes GPS record to SD card
with SDLog;
with NVRAM;
with Buildinfo;
with HIL.Devices;
with HIL.UART;
with System;
with Interfaces; use Interfaces;
with Ada.Unchecked_Conversion;
with Ada.Real_Time;
with ULog;
pragma Elaborate_All (ULog);
pragma Elaborate_All (SDLog);
-- @summary Simultaneously writes to UART, and SD card.
package body Logger with SPARK_Mode,
Refined_State => (LogState => (queue_ulog, Logging_Task, logger_level, With_SDLog))
is
-- the type for the queue buffer
type Buffer_Ulog is array (Natural range <>) of ULog.Message;
type bufpos is mod LOG_QUEUE_LENGTH;
-- if GNATprove crashes with reference to that file,
-- then you have run into bug KP-160-P601-005.
-- workaround: move decl of protected type to package spec.
---------------------
-- LOG QUEUE TYPE
---------------------
-- protected type to implement the ULog queue
protected type Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message);
-- enqueue new message. this is not blocking, except to ensure mutex.
-- it is fast (only memcpy), but it can silently fail if buffer is full.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
entry Get_Msg (msg : out ULog.Message);
-- try to get new message from buffer. if empty, this is blocking
-- until buffer has data, and then returns it.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
function Get_Num_Overflows return Natural;
-- query how often the buffer overflowed. If this happens, either increase
-- the buffer QUEUE_LENGTH, or increase priority of the logger task.
function Get_Length return Natural;
-- query number of messages waiting in the logging queue.
private
Buffer : Buffer_Ulog (0 .. LOG_QUEUE_LENGTH - 1);
-- cannot use a discriminant for this (would violate No_Implicit_Heap_Allocations)
Num_Queued : Natural := 0;
Not_Empty : Boolean := False; -- simple barrier (Ravenscar)
Pos_Read : bufpos := 0;
Pos_Write : bufpos := 0;
Num_Overflows : Natural := 0;
-- cannot use a dynamic predicate to etablish relationship, because this requires
-- a record. But we cannot have a record, since this would make Not_Empty a
-- non-simple barrier (=> Ravenscar violation).
end Ulog_Queue_T;
-- sporadic logging task waking up when message is enqueued
task Logging_Task is
pragma Priority (System.Priority'First); -- lowest prio for logging
end Logging_Task;
----------------------------
-- PROTOTYPES
----------------------------
subtype Img_String is String (1 .. 3);
function Image (level : Log_Level) return Img_String;
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array)
with Pre => buf'Last >= buf'First and
then len <= Natural (Unsigned_16'Last) and
then buf'Length >= len;
----------------------------
-- INTERNAL STATES
----------------------------
queue_ulog : Ulog_Queue_T;
logger_level : Log_Level := DEBUG;
With_SDLog : Boolean := False;
-----------------------
-- Write_Bytes_To_SD
-----------------------
-- slow procedure! Takes Byte_Array, converts to SD data type and writes
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array) is
begin
if len > 0 then
declare
subtype Bytes_ULog is HIL.Byte_Array (1 .. len);
subtype SD_Data_ULog is SDLog.SDLog_Data (1 .. Unsigned_16 (len));
function To_FileData is new Ada.Unchecked_Conversion (Bytes_ULog, SD_Data_ULog);
buf_last : constant Integer := buf'First + len - 1;
n_wr : Integer;
begin
SDLog.Write_Log (To_FileData (buf (buf'First .. buf_last)), n_wr);
end;
end if;
end Write_Bytes_To_SD;
--------------
-- LOG TASK
--------------
-- the task which logs to SD card in the background
task body Logging_Task is
msg : ULog.Message;
BUFLEN : constant := 512;
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
type loginfo_ratio is mod 100;
r : loginfo_ratio := 0;
begin
loop
queue_ulog.Get_Msg (msg); -- under mutex, must be fast
ULog.Serialize_Ulog (msg, len, bytes); -- this can be slow again
Write_Bytes_To_SD (len => len, buf => bytes);
-- occasionally log queue state (overflows, num_queued).
r := r + 1;
if r = 0 then
declare
m : ULog.Message (ULog.LOG_QUEUE);
n_ovf : constant Natural := queue_ulog.Get_Num_Overflows;
n_que : constant Natural := queue_ulog.Get_Length;
begin
m.t := Ada.Real_Time.Clock;
if n_ovf > Natural (Unsigned_16'Last) then
m.n_overflows := Unsigned_16'Last;
else
m.n_overflows := Unsigned_16 (n_ovf);
end if;
if n_que > Natural (Unsigned_8'Last) then
m.n_queued := Unsigned_8'Last;
else
m.n_queued := Unsigned_8 (n_que);
end if;
ULog.Serialize_Ulog (m, len, bytes);
Write_Bytes_To_SD (len => len, buf => bytes);
end;
end if;
end loop;
end Logging_Task;
-- implementation of the message queue
protected body Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message) is
begin
Buffer (Integer (Pos_Write)) := msg;
Pos_Write := Pos_Write + 1;
if Num_Queued < Buffer'Last then
Num_Queued := Num_Queued + 1;
else -- =Buffer'Last
Pos_Read := Pos_Read + 1; -- overwrite oldest
if Num_Overflows < Natural'Last then
Num_Overflows := Num_Overflows + 1;
end if;
end if;
Not_Empty := (Num_Queued > 0);
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end New_Msg;
entry Get_Msg (msg : out ULog.Message) when Not_Empty is
begin
pragma Assume (Num_Queued > 0); -- via barrier and assert in New_Msg
msg := Buffer (Integer (Pos_Read));
Pos_Read := Pos_Read + 1;
Num_Queued := Num_Queued - 1;
Not_Empty := Num_Queued > 0;
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end Get_Msg;
function Get_Num_Overflows return Natural is (Num_Overflows);
function Get_Length return Natural is (Num_Queued);
end Ulog_Queue_T;
----------------------------
-- Instantiation / Body --
----------------------------
-- HAL, only change Adapter to port Code
package body Adapter is
procedure init (status : out Init_Error_Code) is
begin
-- HIL.UART.configure; already done in CPU.initialize
status := SUCCESS;
end init;
procedure write (message : Message_Type) is
CR : constant Character := Character'Val (13); -- ASCII
LF : constant Character := Character'Val (10);
begin
HIL.UART.write (HIL.Devices.CONSOLE,
HIL.UART.toData_Type (message & CR & LF));
end write;
end Adapter;
--------------
-- Init
--------------
procedure Init (status : out Init_Error_Code) is
begin
SDLog.Init;
Adapter.init (status);
end Init;
-----------
-- Image
-----------
function Image (level : Log_Level) return Img_String is
begin
return (case level is
when SENSOR => "S: ",
when ERROR => "E: ",
when WARN => "W: ",
when INFO => "I: ",
when DEBUG => "D: ",
when TRACE => "T: "
);
end Image;
-----------------
-- log_console
-----------------
procedure log_console (msg_level : Log_Level; message : Message_Type) with SPARK_Mode => Off is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
Adapter.write (Image (msg_level) & message);
end if;
end log_console;
----------------
-- log_sd
----------------
procedure log_sd (msg_level : Log_Level; message : ULog.Message) is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
queue_ulog.New_Msg (message);
end if;
end log_sd;
-------------------
-- set_log_level
-------------------
procedure Set_Log_Level (level : Log_Level) is
begin
logger_level := level;
end Set_Log_Level;
-------------------
-- Start_SDLog
-------------------
procedure Start_SDLog is
num_boots : HIL.Byte;
begin
NVRAM.Load (variable => NVRAM.VAR_BOOTCOUNTER, data => num_boots);
declare
buildstring : constant String := Buildinfo.Short_Datetime;
fname : constant String := HIL.Byte'Image (num_boots) & ".log";
BUFLEN : constant := 128; -- header is around 90 bytes long
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
valid : Boolean;
Logfile_Started : Boolean;
begin
With_SDLog := False;
SDLog.Start_Logfile (dirname => buildstring, filename => fname, ret => Logfile_Started);
if not Logfile_Started
then
log_console (Logger.ERROR, "Cannot create logfile: " & buildstring & "/" & fname);
return;
else
log_console (Logger.INFO, "Log name: " & buildstring & "/" & fname);
With_SDLog := True;
end if;
-- write file header (ULog message definitions)
ULog.Init;
Get_Ulog_Defs_Loop :
loop
ULog.Get_Header_Ulog (bytes, len, valid);
exit Get_Ulog_Defs_Loop when not valid;
Write_Bytes_To_SD (len => len, buf => bytes);
end loop Get_Ulog_Defs_Loop;
end;
end Start_SDLog;
end Logger;
| true | -- Project: StratoX
-- Authors: PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
-- PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Description:
-- allows logging of structured messages at several logging levels.
--
-- Usage:
-- Logger.init -- initializes the Logger
-- Logger.log_console (Logger.INFO, "Program started.") -- writes log on info level to console
-- Logger.log_sd (Logger.INFO, gps_msg) -- writes GPS record to SD card
with SDLog;
with NVRAM;
with Buildinfo;
with HIL.Devices;
with HIL.UART;
with System;
with Interfaces; use Interfaces;
with Ada.Unchecked_Conversion;
with Ada.Real_Time;
with ULog;
pragma Elaborate_All (ULog);
pragma Elaborate_All (SDLog);
-- @summary Simultaneously writes to UART, and SD card.
package body Logger with SPARK_Mode,
Refined_State => (LogState => (queue_ulog, Logging_Task, logger_level, With_SDLog))
is
-- the type for the queue buffer
type Buffer_Ulog is array (Natural range <>) of ULog.Message;
type bufpos is mod LOG_QUEUE_LENGTH;
-- if GNATprove crashes with reference to that file,
-- then you have run into bug KP-160-P601-005.
-- workaround: move decl of protected type to package spec.
---------------------
-- LOG QUEUE TYPE
---------------------
-- protected type to implement the ULog queue
protected type Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message);
-- enqueue new message. this is not blocking, except to ensure mutex.
-- it is fast (only memcpy), but it can silently fail if buffer is full.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
entry Get_Msg (msg : out ULog.Message);
-- try to get new message from buffer. if empty, this is blocking
-- until buffer has data, and then returns it.
-- FIXME: how can we specify a precondition on the private variable?
-- for now we put an assertion in the body
function Get_Num_Overflows return Natural;
-- query how often the buffer overflowed. If this happens, either increase
-- the buffer QUEUE_LENGTH, or increase priority of the logger task.
function Get_Length return Natural;
-- query number of messages waiting in the logging queue.
private
Buffer : Buffer_Ulog (0 .. LOG_QUEUE_LENGTH - 1);
-- cannot use a discriminant for this (would violate No_Implicit_Heap_Allocations)
Num_Queued : Natural := 0;
Not_Empty : Boolean := False; -- simple barrier (Ravenscar)
Pos_Read : bufpos := 0;
Pos_Write : bufpos := 0;
Num_Overflows : Natural := 0;
-- cannot use a dynamic predicate to etablish relationship, because this requires
-- a record. But we cannot have a record, since this would make Not_Empty a
-- non-simple barrier (=> Ravenscar violation).
end Ulog_Queue_T;
-- sporadic logging task waking up when message is enqueued
task Logging_Task is
pragma Priority (System.Priority'First); -- lowest prio for logging
end Logging_Task;
----------------------------
-- PROTOTYPES
----------------------------
subtype Img_String is String (1 .. 3);
function Image (level : Log_Level) return Img_String;
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array)
with Pre => buf'Last >= buf'First and
then len <= Natural (Unsigned_16'Last) and
then buf'Length >= len;
----------------------------
-- INTERNAL STATES
----------------------------
queue_ulog : Ulog_Queue_T;
logger_level : Log_Level := DEBUG;
With_SDLog : Boolean := False;
-----------------------
-- Write_Bytes_To_SD
-----------------------
-- slow procedure! Takes Byte_Array, converts to SD data type and writes
procedure Write_Bytes_To_SD (len : Natural; buf : HIL.Byte_Array) is
begin
if len > 0 then
declare
subtype Bytes_ULog is HIL.Byte_Array (1 .. len);
subtype SD_Data_ULog is SDLog.SDLog_Data (1 .. Unsigned_16 (len));
function To_FileData is new Ada.Unchecked_Conversion (Bytes_ULog, SD_Data_ULog);
buf_last : constant Integer := buf'First + len - 1;
n_wr : Integer;
begin
SDLog.Write_Log (To_FileData (buf (buf'First .. buf_last)), n_wr);
end;
end if;
end Write_Bytes_To_SD;
--------------
-- LOG TASK
--------------
-- the task which logs to SD card in the background
task body Logging_Task is
msg : ULog.Message;
BUFLEN : constant := 512;
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
type loginfo_ratio is mod 100;
r : loginfo_ratio := 0;
begin
loop
queue_ulog.Get_Msg (msg); -- under mutex, must be fast
ULog.Serialize_Ulog (msg, len, bytes); -- this can be slow again
Write_Bytes_To_SD (len => len, buf => bytes);
-- occasionally log queue state (overflows, num_queued).
r := r + 1;
if r = 0 then
declare
m : ULog.Message (ULog.LOG_QUEUE);
n_ovf : constant Natural := queue_ulog.Get_Num_Overflows;
n_que : constant Natural := queue_ulog.Get_Length;
begin
m.t := Ada.Real_Time.Clock;
if n_ovf > Natural (Unsigned_16'Last) then
m.n_overflows := Unsigned_16'Last;
else
m.n_overflows := Unsigned_16 (n_ovf);
end if;
if n_que > Natural (Unsigned_8'Last) then
m.n_queued := Unsigned_8'Last;
else
m.n_queued := Unsigned_8 (n_que);
end if;
ULog.Serialize_Ulog (m, len, bytes);
Write_Bytes_To_SD (len => len, buf => bytes);
end;
end if;
end loop;
end Logging_Task;
-- implementation of the message queue
protected body Ulog_Queue_T is
procedure New_Msg (msg : in ULog.Message) is
begin
Buffer (Integer (Pos_Write)) := msg;
Pos_Write := Pos_Write + 1;
if Num_Queued < Buffer'Last then
Num_Queued := Num_Queued + 1;
else -- =Buffer'Last
Pos_Read := Pos_Read + 1; -- overwrite oldest
if Num_Overflows < Natural'Last then
Num_Overflows := Num_Overflows + 1;
end if;
end if;
Not_Empty := (Num_Queued > 0);
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end New_Msg;
entry Get_Msg (msg : out ULog.Message) when Not_Empty is
begin
pragma Assume (Num_Queued > 0); -- via barrier and assert in New_Msg
msg := Buffer (Integer (Pos_Read));
Pos_Read := Pos_Read + 1;
Num_Queued := Num_Queued - 1;
Not_Empty := Num_Queued > 0;
pragma Assert ((Not_Empty and (Num_Queued > 0)) or ((not Not_Empty) and (Num_Queued = 0)));
end Get_Msg;
function Get_Num_Overflows return Natural is (Num_Overflows);
function Get_Length return Natural is (Num_Queued);
end Ulog_Queue_T;
----------------------------
-- Instantiation / Body --
----------------------------
-- HAL, only change Adapter to port Code
package body Adapter is
procedure init (status : out Init_Error_Code) is
begin
-- HIL.UART.configure; already done in CPU.initialize
status := SUCCESS;
end init;
procedure write (message : Message_Type) is
CR : constant Character := Character'Val (13); -- ASCII
LF : constant Character := Character'Val (10);
begin
HIL.UART.write (HIL.Devices.CONSOLE,
HIL.UART.toData_Type (message & CR & LF));
end write;
end Adapter;
--------------
-- Init
--------------
procedure Init (status : out Init_Error_Code) is
begin
SDLog.Init;
Adapter.init (status);
end Init;
-----------
-- Image
-----------
function Image (level : Log_Level) return Img_String is
begin
return (case level is
when SENSOR => "S: ",
when ERROR => "E: ",
when WARN => "W: ",
when INFO => "I: ",
when DEBUG => "D: ",
when TRACE => "T: "
);
end Image;
-----------------
-- log_console
-----------------
procedure log_console (msg_level : Log_Level; message : Message_Type) with SPARK_Mode => Off is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
Adapter.write (Image (msg_level) & message);
end if;
end log_console;
----------------
-- log_sd
----------------
procedure log_sd (msg_level : Log_Level; message : ULog.Message) is
begin
if Log_Level'Pos (msg_level) <= Log_Level'Pos (logger_level) then
queue_ulog.New_Msg (message);
end if;
end log_sd;
-------------------
-- set_log_level
-------------------
procedure Set_Log_Level (level : Log_Level) is
begin
logger_level := level;
end Set_Log_Level;
-------------------
-- Start_SDLog
-------------------
procedure Start_SDLog is
num_boots : HIL.Byte;
begin
NVRAM.Load (variable => NVRAM.VAR_BOOTCOUNTER, data => num_boots);
declare
buildstring : constant String := Buildinfo.Short_Datetime;
fname : constant String := HIL.Byte'Image (num_boots) & ".log";
BUFLEN : constant := 128; -- header is around 90 bytes long
bytes : HIL.Byte_Array (1 .. BUFLEN);
len : Natural;
valid : Boolean;
Logfile_Started : Boolean;
begin
With_SDLog := False;
SDLog.Start_Logfile (dirname => buildstring, filename => fname, ret => Logfile_Started);
if not Logfile_Started
then
log_console (Logger.ERROR, "Cannot create logfile: " & buildstring & "/" & fname);
return;
else
log_console (Logger.INFO, "Log name: " & buildstring & "/" & fname);
With_SDLog := True;
end if;
-- write file header (ULog message definitions)
ULog.Init;
Get_Ulog_Defs_Loop :
loop
ULog.Get_Header_Ulog (bytes, len, valid);
exit Get_Ulog_Defs_Loop when not valid;
Write_Bytes_To_SD (len => len, buf => bytes);
end loop Get_Ulog_Defs_Loop;
end;
end Start_SDLog;
end Logger;
|
[
{
"context": "nID\n-- Copyright (C) 2009, 2010, 2011, 2012, 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 173,
"score": 0.9998791813850403,
"start": 158,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "0, 2011, 2012, 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 204,
"score": 0.9998868703842163,
"start": 189,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "3 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 231,
"score": 0.9999292492866516,
"start": 206,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | regtests/security-auth-tests.ads | jquorning/ada-security | 19 | -----------------------------------------------------------------------
-- security-openid - Tests for OpenID
-- Copyright (C) 2009, 2010, 2011, 2012, 2013 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings.Maps;
with Util.Tests;
package Security.Auth.Tests is
use Ada.Strings.Unbounded;
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite);
type Test is new Util.Tests.Test with null record;
procedure Test_Discovery (T : in out Test);
procedure Test_Verify_Signature (T : in out Test);
type Test_Parameters is new Security.Auth.Parameters with record
Params : Util.Strings.Maps.Map;
end record;
overriding
function Get_Parameter (Params : in Test_Parameters;
Name : in String) return String;
procedure Set_Parameter (Params : in out Test_Parameters;
Name : in String;
Value : in String);
end Security.Auth.Tests;
| 28422 | -----------------------------------------------------------------------
-- security-openid - Tests for OpenID
-- Copyright (C) 2009, 2010, 2011, 2012, 2013 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings.Maps;
with Util.Tests;
package Security.Auth.Tests is
use Ada.Strings.Unbounded;
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite);
type Test is new Util.Tests.Test with null record;
procedure Test_Discovery (T : in out Test);
procedure Test_Verify_Signature (T : in out Test);
type Test_Parameters is new Security.Auth.Parameters with record
Params : Util.Strings.Maps.Map;
end record;
overriding
function Get_Parameter (Params : in Test_Parameters;
Name : in String) return String;
procedure Set_Parameter (Params : in out Test_Parameters;
Name : in String;
Value : in String);
end Security.Auth.Tests;
| true | -----------------------------------------------------------------------
-- security-openid - Tests for OpenID
-- Copyright (C) 2009, 2010, 2011, 2012, 2013 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Strings.Maps;
with Util.Tests;
package Security.Auth.Tests is
use Ada.Strings.Unbounded;
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite);
type Test is new Util.Tests.Test with null record;
procedure Test_Discovery (T : in out Test);
procedure Test_Verify_Signature (T : in out Test);
type Test_Parameters is new Security.Auth.Parameters with record
Params : Util.Strings.Maps.Map;
end record;
overriding
function Get_Parameter (Params : in Test_Parameters;
Name : in String) return String;
procedure Set_Parameter (Params : in out Test_Parameters;
Name : in String;
Value : in String);
end Security.Auth.Tests;
|
[
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998546838760376,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999309778213501,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/oasis/program-elements-indexed_components.ads | optikos/oasis | 0 | -- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
package Program.Elements.Indexed_Components is
pragma Pure (Program.Elements.Indexed_Components);
type Indexed_Component is
limited interface and Program.Elements.Expressions.Expression;
type Indexed_Component_Access is access all Indexed_Component'Class
with Storage_Size => 0;
not overriding function Prefix
(Self : Indexed_Component)
return not null Program.Elements.Expressions.Expression_Access
is abstract;
not overriding function Expressions
(Self : Indexed_Component)
return Program.Elements.Expressions.Expression_Vector_Access is abstract;
type Indexed_Component_Text is limited interface;
type Indexed_Component_Text_Access is
access all Indexed_Component_Text'Class with Storage_Size => 0;
not overriding function To_Indexed_Component_Text
(Self : aliased in out Indexed_Component)
return Indexed_Component_Text_Access is abstract;
not overriding function Left_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Right_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
end Program.Elements.Indexed_Components;
| 29848 | -- Copyright (c) 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
package Program.Elements.Indexed_Components is
pragma Pure (Program.Elements.Indexed_Components);
type Indexed_Component is
limited interface and Program.Elements.Expressions.Expression;
type Indexed_Component_Access is access all Indexed_Component'Class
with Storage_Size => 0;
not overriding function Prefix
(Self : Indexed_Component)
return not null Program.Elements.Expressions.Expression_Access
is abstract;
not overriding function Expressions
(Self : Indexed_Component)
return Program.Elements.Expressions.Expression_Vector_Access is abstract;
type Indexed_Component_Text is limited interface;
type Indexed_Component_Text_Access is
access all Indexed_Component_Text'Class with Storage_Size => 0;
not overriding function To_Indexed_Component_Text
(Self : aliased in out Indexed_Component)
return Indexed_Component_Text_Access is abstract;
not overriding function Left_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Right_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
end Program.Elements.Indexed_Components;
| true | -- Copyright (c) 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Elements.Expressions;
with Program.Lexical_Elements;
package Program.Elements.Indexed_Components is
pragma Pure (Program.Elements.Indexed_Components);
type Indexed_Component is
limited interface and Program.Elements.Expressions.Expression;
type Indexed_Component_Access is access all Indexed_Component'Class
with Storage_Size => 0;
not overriding function Prefix
(Self : Indexed_Component)
return not null Program.Elements.Expressions.Expression_Access
is abstract;
not overriding function Expressions
(Self : Indexed_Component)
return Program.Elements.Expressions.Expression_Vector_Access is abstract;
type Indexed_Component_Text is limited interface;
type Indexed_Component_Text_Access is
access all Indexed_Component_Text'Class with Storage_Size => 0;
not overriding function To_Indexed_Component_Text
(Self : aliased in out Indexed_Component)
return Indexed_Component_Text_Access is abstract;
not overriding function Left_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Right_Bracket_Token
(Self : Indexed_Component_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
end Program.Elements.Indexed_Components;
|
[
{
"context": "----------------------\n-- Copyright (c) 2013-2014, Natacha Porté --\n-- ",
"end": 120,
"score": 0.9998474717140198,
"start": 107,
"tag": "NAME",
"value": "Natacha Porté"
}
] | src/natools-s_expressions-parsers.adb | faelys/natools | 0 | ------------------------------------------------------------------------------
-- Copyright (c) 2013-2014, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Encodings;
package body Natools.S_Expressions.Parsers is
----------------------
-- Parser Interface --
----------------------
procedure Reset (Self : in out Parser; Hard : in Boolean := False) is
Null_Stack : Lockable.Lock_Stack;
begin
Self.Internal := (State => Waiting);
Self.Next_Event := Events.End_Of_Input;
Self.Latest := Events.Error;
Self.Level := 0;
Self.Lock_Stack := Null_Stack;
Self.Locked := False;
if Hard then
Self.Pending.Hard_Reset;
Self.Buffer.Hard_Reset;
else
Self.Pending.Soft_Reset;
Self.Buffer.Soft_Reset;
end if;
end Reset;
overriding function Current_Event (Self : in Parser) return Events.Event is
begin
if Self.Locked then
return Events.End_Of_Input;
else
return Self.Latest;
end if;
end Current_Event;
overriding function Current_Atom (Self : in Parser) return Atom is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
return Self.Buffer.Data;
end Current_Atom;
overriding function Current_Level (Self : in Parser) return Natural is
begin
if Self.Locked then
return 0;
else
return Self.Level - Lockable.Current_Level (Self.Lock_Stack);
end if;
end Current_Level;
overriding procedure Query_Atom
(Self : in Parser;
Process : not null access procedure (Data : in Atom)) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Query (Process);
end Query_Atom;
overriding procedure Read_Atom
(Self : in Parser;
Data : out Atom;
Length : out Count) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Peek (Data, Length);
end Read_Atom;
overriding procedure Next
(Self : in out Parser;
Event : out Events.Event)
is
O : Octet;
begin
if Self.Locked then
Event := Events.End_Of_Input;
return;
end if;
Self.Latest := Events.Error;
loop
-- Process pending events
if Self.Next_Event /= Events.End_Of_Input then
Self.Latest := Self.Next_Event;
Self.Next_Event := Events.End_Of_Input;
case Self.Latest is
when Events.Open_List =>
Self.Level := Self.Level + 1;
when Events.Close_List =>
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when others => null;
end case;
exit;
end if;
-- Read a single octet from source
if Self.Pending.Length = 0 then
Read_More (Parser'Class (Self), Self.Pending);
if Self.Pending.Length = 0 then
Self.Latest := Events.End_Of_Input;
exit;
end if;
Self.Pending.Invert;
end if;
Self.Pending.Pop (O);
-- Process octet
case Self.Internal.State is
when Waiting =>
Self.Buffer.Soft_Reset;
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
null;
when Encodings.List_Begin =>
Self.Latest := Events.Open_List;
Self.Level := Self.Level + 1;
when Encodings.List_End =>
Self.Latest := Events.Close_List;
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
when Encodings.Quoted_Atom_Begin =>
Self.Internal :=
(State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Internal := (State => Number);
Atom_Buffers.Append (Self.Buffer, O);
when others =>
Self.Internal := (State => Token);
Atom_Buffers.Append (Self.Buffer, O);
end case;
when Base64_Atom | Base64_Expr =>
if Encodings.Is_Base64_Digit (O) then
Self.Internal.Chunk.Data (Self.Internal.Chunk.Length) := O;
Self.Internal.Chunk.Length := Self.Internal.Chunk.Length + 1;
if Self.Internal.Chunk.Length = 4 then
Self.Buffer.Append
(Encodings.Decode_Base64 (Self.Internal.Chunk.Data));
Self.Internal.Chunk.Length := 0;
end if;
elsif (O = Encodings.Base64_Atom_End
and Self.Internal.State = Base64_Atom)
or (O = Encodings.Base64_Expr_End
and Self.Internal.State = Base64_Expr)
then
Self.Buffer.Append (Encodings.Decode_Base64
(Self.Internal.Chunk.Data
(0 .. Self.Internal.Chunk.Length - 1)));
if Self.Internal.State = Base64_Atom then
Self.Latest := Events.Add_Atom;
else
Self.Pending.Append_Reverse (Self.Buffer.Data);
Self.Buffer.Soft_Reset;
end if;
Self.Internal := (State => Waiting);
end if;
when Hex_Atom =>
if Encodings.Is_Hex_Digit (O) then
if Encodings.Is_Hex_Digit (Self.Internal.Nibble_Buffer) then
Self.Buffer.Append
(Encodings.Decode_Hex (Self.Internal.Nibble_Buffer, O));
Self.Internal.Nibble_Buffer := 0;
else
Self.Internal.Nibble_Buffer := O;
end if;
elsif O = Encodings.Hex_Atom_End then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
end if;
when Number =>
case O is
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Buffer.Append (O);
when Encodings.Verbatim_Begin =>
Self.Internal := (State => Verbatim_Atom, Size => 0);
for I in 1 .. Self.Buffer.Length loop
Self.Internal.Size := Self.Internal.Size * 10
+ Count (Self.Buffer.Element (I)
- Encodings.Digit_0);
end loop;
Self.Buffer.Soft_Reset;
if Self.Internal.Size = 0 then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
else
Self.Buffer.Preallocate (Self.Internal.Size);
end if;
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
Self.Buffer.Soft_Reset;
when Encodings.Quoted_Atom_Begin =>
Self.Internal
:= (State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when others =>
Self.Buffer.Append (O);
Self.Internal := (State => Token);
end case;
when Quoted_Atom =>
case Self.Internal.Escape.Length is
when 0 =>
case O is
when Encodings.Escape =>
Self.Internal.Escape.Data (0) := O;
Self.Internal.Escape.Length := 1;
when Encodings.Quoted_Atom_End =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when 1 =>
case O is
when Character'Pos ('b') =>
Self.Buffer.Append (8);
Self.Internal.Escape.Length := 0;
when Character'Pos ('t') =>
Self.Buffer.Append (9);
Self.Internal.Escape.Length := 0;
when Character'Pos ('n') =>
Self.Buffer.Append (10);
Self.Internal.Escape.Length := 0;
when Character'Pos ('v') =>
Self.Buffer.Append (11);
Self.Internal.Escape.Length := 0;
when Character'Pos ('f') =>
Self.Buffer.Append (12);
Self.Internal.Escape.Length := 0;
when Character'Pos ('r') =>
Self.Buffer.Append (13);
Self.Internal.Escape.Length := 0;
when Character'Pos (''') | Encodings.Escape
| Encodings.Quoted_Atom_End =>
Self.Buffer.Append (O);
Self.Internal.Escape.Length := 0;
when Encodings.Digit_0 .. Encodings.Digit_0 + 3
| Character'Pos ('x')
| Encodings.CR | Encodings.LF =>
Self.Internal.Escape.Data (1) := O;
Self.Internal.Escape.Length := 2;
when others =>
Self.Buffer.Append (Self.Internal.Escape.Data (0));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end case;
when 2 =>
if (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3
and O in Encodings.Digit_0 .. Encodings.Digit_0 + 7)
or (Self.Internal.Escape.Data (1) = Character'Pos ('x')
and then Encodings.Is_Hex_Digit (O))
then
Self.Internal.Escape.Data (2) := O;
Self.Internal.Escape.Length := 3;
elsif Self.Internal.Escape.Data (1) = Encodings.CR
or Self.Internal.Escape.Data (1) = Encodings.LF
then
Self.Internal.Escape.Length := 0;
if not ((O = Encodings.CR or O = Encodings.LF)
and O /= Self.Internal.Escape.Data (1))
then
Self.Pending.Append (O);
end if;
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1)));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end if;
when 3 =>
if Self.Internal.Escape.Data (1)
= Character'Pos ('x')
then
if Encodings.Is_Hex_Digit (O) then
Self.Buffer.Append
(Encodings.Decode_Hex
(Self.Internal.Escape.Data (2), O));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
else
pragma Assert (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3);
if O in Encodings.Digit_0 .. Encodings.Digit_0 + 7 then
Atom_Buffers.Append
(Self.Buffer,
(Self.Internal.Escape.Data (1)
- Encodings.Digit_0)
* 2**6 +
(Self.Internal.Escape.Data (2)
- Encodings.Digit_0)
* 2**3 +
(O - Encodings.Digit_0));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
end if;
Self.Internal.Escape.Length := 0;
when 4 =>
raise Program_Error;
end case;
when Token =>
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when Verbatim_Atom =>
Self.Buffer.Append (O);
pragma Assert (Self.Buffer.Length <= Self.Internal.Size);
if Self.Buffer.Length = Self.Internal.Size then
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
end if;
end case;
exit when Self.Latest /= Events.Error;
end loop;
if Self.Latest = Events.Close_List
and then Self.Level < Lockable.Current_Level (Self.Lock_Stack)
then
Self.Locked := True;
Event := Events.End_Of_Input;
else
Event := Self.Latest;
end if;
end Next;
overriding procedure Lock
(Self : in out Parser;
State : out Lockable.Lock_State) is
begin
Lockable.Push_Level (Self.Lock_Stack, Self.Level, State);
end Lock;
overriding procedure Unlock
(Self : in out Parser;
State : in out Lockable.Lock_State;
Finish : in Boolean := True)
is
Previous_Level : constant Natural
:= Lockable.Current_Level (Self.Lock_Stack);
Event : Events.Event;
begin
Lockable.Pop_Level (Self.Lock_Stack, State);
State := Lockable.Null_State;
if Finish then
Event := Self.Current_Event;
loop
case Event is
when Events.Open_List | Events.Add_Atom =>
null;
when Events.Close_List =>
exit when Self.Level < Previous_Level;
when Events.Error | Events.End_Of_Input =>
exit;
end case;
Self.Next (Event);
end loop;
end if;
Self.Locked := Self.Level < Lockable.Current_Level (Self.Lock_Stack);
end Unlock;
-------------------
-- Stream Parser --
-------------------
overriding procedure Read_More
(Self : in out Stream_Parser;
Buffer : out Atom_Buffers.Atom_Buffer)
is
Item : Ada.Streams.Stream_Element_Array (1 .. 128);
Last : Ada.Streams.Stream_Element_Offset;
begin
Self.Input.Read (Item, Last);
if Last in Item'Range then
Buffer.Append (Item (Item'First .. Last));
end if;
end Read_More;
-------------------
-- Memory Parser --
-------------------
not overriding function Create
(Data : in Ada.Streams.Stream_Element_Array)
return Memory_Parser is
begin
return P : Memory_Parser do
P.Pending.Append (Data);
P.Pending.Invert;
end return;
end Create;
not overriding function Create_From_String
(Data : in String) return Memory_Parser is
begin
return Create (To_Atom (Data));
end Create_From_String;
end Natools.S_Expressions.Parsers;
| 9586 | ------------------------------------------------------------------------------
-- Copyright (c) 2013-2014, <NAME> --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Encodings;
package body Natools.S_Expressions.Parsers is
----------------------
-- Parser Interface --
----------------------
procedure Reset (Self : in out Parser; Hard : in Boolean := False) is
Null_Stack : Lockable.Lock_Stack;
begin
Self.Internal := (State => Waiting);
Self.Next_Event := Events.End_Of_Input;
Self.Latest := Events.Error;
Self.Level := 0;
Self.Lock_Stack := Null_Stack;
Self.Locked := False;
if Hard then
Self.Pending.Hard_Reset;
Self.Buffer.Hard_Reset;
else
Self.Pending.Soft_Reset;
Self.Buffer.Soft_Reset;
end if;
end Reset;
overriding function Current_Event (Self : in Parser) return Events.Event is
begin
if Self.Locked then
return Events.End_Of_Input;
else
return Self.Latest;
end if;
end Current_Event;
overriding function Current_Atom (Self : in Parser) return Atom is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
return Self.Buffer.Data;
end Current_Atom;
overriding function Current_Level (Self : in Parser) return Natural is
begin
if Self.Locked then
return 0;
else
return Self.Level - Lockable.Current_Level (Self.Lock_Stack);
end if;
end Current_Level;
overriding procedure Query_Atom
(Self : in Parser;
Process : not null access procedure (Data : in Atom)) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Query (Process);
end Query_Atom;
overriding procedure Read_Atom
(Self : in Parser;
Data : out Atom;
Length : out Count) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Peek (Data, Length);
end Read_Atom;
overriding procedure Next
(Self : in out Parser;
Event : out Events.Event)
is
O : Octet;
begin
if Self.Locked then
Event := Events.End_Of_Input;
return;
end if;
Self.Latest := Events.Error;
loop
-- Process pending events
if Self.Next_Event /= Events.End_Of_Input then
Self.Latest := Self.Next_Event;
Self.Next_Event := Events.End_Of_Input;
case Self.Latest is
when Events.Open_List =>
Self.Level := Self.Level + 1;
when Events.Close_List =>
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when others => null;
end case;
exit;
end if;
-- Read a single octet from source
if Self.Pending.Length = 0 then
Read_More (Parser'Class (Self), Self.Pending);
if Self.Pending.Length = 0 then
Self.Latest := Events.End_Of_Input;
exit;
end if;
Self.Pending.Invert;
end if;
Self.Pending.Pop (O);
-- Process octet
case Self.Internal.State is
when Waiting =>
Self.Buffer.Soft_Reset;
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
null;
when Encodings.List_Begin =>
Self.Latest := Events.Open_List;
Self.Level := Self.Level + 1;
when Encodings.List_End =>
Self.Latest := Events.Close_List;
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
when Encodings.Quoted_Atom_Begin =>
Self.Internal :=
(State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Internal := (State => Number);
Atom_Buffers.Append (Self.Buffer, O);
when others =>
Self.Internal := (State => Token);
Atom_Buffers.Append (Self.Buffer, O);
end case;
when Base64_Atom | Base64_Expr =>
if Encodings.Is_Base64_Digit (O) then
Self.Internal.Chunk.Data (Self.Internal.Chunk.Length) := O;
Self.Internal.Chunk.Length := Self.Internal.Chunk.Length + 1;
if Self.Internal.Chunk.Length = 4 then
Self.Buffer.Append
(Encodings.Decode_Base64 (Self.Internal.Chunk.Data));
Self.Internal.Chunk.Length := 0;
end if;
elsif (O = Encodings.Base64_Atom_End
and Self.Internal.State = Base64_Atom)
or (O = Encodings.Base64_Expr_End
and Self.Internal.State = Base64_Expr)
then
Self.Buffer.Append (Encodings.Decode_Base64
(Self.Internal.Chunk.Data
(0 .. Self.Internal.Chunk.Length - 1)));
if Self.Internal.State = Base64_Atom then
Self.Latest := Events.Add_Atom;
else
Self.Pending.Append_Reverse (Self.Buffer.Data);
Self.Buffer.Soft_Reset;
end if;
Self.Internal := (State => Waiting);
end if;
when Hex_Atom =>
if Encodings.Is_Hex_Digit (O) then
if Encodings.Is_Hex_Digit (Self.Internal.Nibble_Buffer) then
Self.Buffer.Append
(Encodings.Decode_Hex (Self.Internal.Nibble_Buffer, O));
Self.Internal.Nibble_Buffer := 0;
else
Self.Internal.Nibble_Buffer := O;
end if;
elsif O = Encodings.Hex_Atom_End then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
end if;
when Number =>
case O is
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Buffer.Append (O);
when Encodings.Verbatim_Begin =>
Self.Internal := (State => Verbatim_Atom, Size => 0);
for I in 1 .. Self.Buffer.Length loop
Self.Internal.Size := Self.Internal.Size * 10
+ Count (Self.Buffer.Element (I)
- Encodings.Digit_0);
end loop;
Self.Buffer.Soft_Reset;
if Self.Internal.Size = 0 then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
else
Self.Buffer.Preallocate (Self.Internal.Size);
end if;
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
Self.Buffer.Soft_Reset;
when Encodings.Quoted_Atom_Begin =>
Self.Internal
:= (State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when others =>
Self.Buffer.Append (O);
Self.Internal := (State => Token);
end case;
when Quoted_Atom =>
case Self.Internal.Escape.Length is
when 0 =>
case O is
when Encodings.Escape =>
Self.Internal.Escape.Data (0) := O;
Self.Internal.Escape.Length := 1;
when Encodings.Quoted_Atom_End =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when 1 =>
case O is
when Character'Pos ('b') =>
Self.Buffer.Append (8);
Self.Internal.Escape.Length := 0;
when Character'Pos ('t') =>
Self.Buffer.Append (9);
Self.Internal.Escape.Length := 0;
when Character'Pos ('n') =>
Self.Buffer.Append (10);
Self.Internal.Escape.Length := 0;
when Character'Pos ('v') =>
Self.Buffer.Append (11);
Self.Internal.Escape.Length := 0;
when Character'Pos ('f') =>
Self.Buffer.Append (12);
Self.Internal.Escape.Length := 0;
when Character'Pos ('r') =>
Self.Buffer.Append (13);
Self.Internal.Escape.Length := 0;
when Character'Pos (''') | Encodings.Escape
| Encodings.Quoted_Atom_End =>
Self.Buffer.Append (O);
Self.Internal.Escape.Length := 0;
when Encodings.Digit_0 .. Encodings.Digit_0 + 3
| Character'Pos ('x')
| Encodings.CR | Encodings.LF =>
Self.Internal.Escape.Data (1) := O;
Self.Internal.Escape.Length := 2;
when others =>
Self.Buffer.Append (Self.Internal.Escape.Data (0));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end case;
when 2 =>
if (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3
and O in Encodings.Digit_0 .. Encodings.Digit_0 + 7)
or (Self.Internal.Escape.Data (1) = Character'Pos ('x')
and then Encodings.Is_Hex_Digit (O))
then
Self.Internal.Escape.Data (2) := O;
Self.Internal.Escape.Length := 3;
elsif Self.Internal.Escape.Data (1) = Encodings.CR
or Self.Internal.Escape.Data (1) = Encodings.LF
then
Self.Internal.Escape.Length := 0;
if not ((O = Encodings.CR or O = Encodings.LF)
and O /= Self.Internal.Escape.Data (1))
then
Self.Pending.Append (O);
end if;
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1)));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end if;
when 3 =>
if Self.Internal.Escape.Data (1)
= Character'Pos ('x')
then
if Encodings.Is_Hex_Digit (O) then
Self.Buffer.Append
(Encodings.Decode_Hex
(Self.Internal.Escape.Data (2), O));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
else
pragma Assert (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3);
if O in Encodings.Digit_0 .. Encodings.Digit_0 + 7 then
Atom_Buffers.Append
(Self.Buffer,
(Self.Internal.Escape.Data (1)
- Encodings.Digit_0)
* 2**6 +
(Self.Internal.Escape.Data (2)
- Encodings.Digit_0)
* 2**3 +
(O - Encodings.Digit_0));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
end if;
Self.Internal.Escape.Length := 0;
when 4 =>
raise Program_Error;
end case;
when Token =>
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when Verbatim_Atom =>
Self.Buffer.Append (O);
pragma Assert (Self.Buffer.Length <= Self.Internal.Size);
if Self.Buffer.Length = Self.Internal.Size then
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
end if;
end case;
exit when Self.Latest /= Events.Error;
end loop;
if Self.Latest = Events.Close_List
and then Self.Level < Lockable.Current_Level (Self.Lock_Stack)
then
Self.Locked := True;
Event := Events.End_Of_Input;
else
Event := Self.Latest;
end if;
end Next;
overriding procedure Lock
(Self : in out Parser;
State : out Lockable.Lock_State) is
begin
Lockable.Push_Level (Self.Lock_Stack, Self.Level, State);
end Lock;
overriding procedure Unlock
(Self : in out Parser;
State : in out Lockable.Lock_State;
Finish : in Boolean := True)
is
Previous_Level : constant Natural
:= Lockable.Current_Level (Self.Lock_Stack);
Event : Events.Event;
begin
Lockable.Pop_Level (Self.Lock_Stack, State);
State := Lockable.Null_State;
if Finish then
Event := Self.Current_Event;
loop
case Event is
when Events.Open_List | Events.Add_Atom =>
null;
when Events.Close_List =>
exit when Self.Level < Previous_Level;
when Events.Error | Events.End_Of_Input =>
exit;
end case;
Self.Next (Event);
end loop;
end if;
Self.Locked := Self.Level < Lockable.Current_Level (Self.Lock_Stack);
end Unlock;
-------------------
-- Stream Parser --
-------------------
overriding procedure Read_More
(Self : in out Stream_Parser;
Buffer : out Atom_Buffers.Atom_Buffer)
is
Item : Ada.Streams.Stream_Element_Array (1 .. 128);
Last : Ada.Streams.Stream_Element_Offset;
begin
Self.Input.Read (Item, Last);
if Last in Item'Range then
Buffer.Append (Item (Item'First .. Last));
end if;
end Read_More;
-------------------
-- Memory Parser --
-------------------
not overriding function Create
(Data : in Ada.Streams.Stream_Element_Array)
return Memory_Parser is
begin
return P : Memory_Parser do
P.Pending.Append (Data);
P.Pending.Invert;
end return;
end Create;
not overriding function Create_From_String
(Data : in String) return Memory_Parser is
begin
return Create (To_Atom (Data));
end Create_From_String;
end Natools.S_Expressions.Parsers;
| true | ------------------------------------------------------------------------------
-- Copyright (c) 2013-2014, PI:NAME:<NAME>END_PI --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Encodings;
package body Natools.S_Expressions.Parsers is
----------------------
-- Parser Interface --
----------------------
procedure Reset (Self : in out Parser; Hard : in Boolean := False) is
Null_Stack : Lockable.Lock_Stack;
begin
Self.Internal := (State => Waiting);
Self.Next_Event := Events.End_Of_Input;
Self.Latest := Events.Error;
Self.Level := 0;
Self.Lock_Stack := Null_Stack;
Self.Locked := False;
if Hard then
Self.Pending.Hard_Reset;
Self.Buffer.Hard_Reset;
else
Self.Pending.Soft_Reset;
Self.Buffer.Soft_Reset;
end if;
end Reset;
overriding function Current_Event (Self : in Parser) return Events.Event is
begin
if Self.Locked then
return Events.End_Of_Input;
else
return Self.Latest;
end if;
end Current_Event;
overriding function Current_Atom (Self : in Parser) return Atom is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
return Self.Buffer.Data;
end Current_Atom;
overriding function Current_Level (Self : in Parser) return Natural is
begin
if Self.Locked then
return 0;
else
return Self.Level - Lockable.Current_Level (Self.Lock_Stack);
end if;
end Current_Level;
overriding procedure Query_Atom
(Self : in Parser;
Process : not null access procedure (Data : in Atom)) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Query (Process);
end Query_Atom;
overriding procedure Read_Atom
(Self : in Parser;
Data : out Atom;
Length : out Count) is
begin
if Self.Locked or Self.Latest /= Events.Add_Atom then
raise Program_Error;
end if;
Self.Buffer.Peek (Data, Length);
end Read_Atom;
overriding procedure Next
(Self : in out Parser;
Event : out Events.Event)
is
O : Octet;
begin
if Self.Locked then
Event := Events.End_Of_Input;
return;
end if;
Self.Latest := Events.Error;
loop
-- Process pending events
if Self.Next_Event /= Events.End_Of_Input then
Self.Latest := Self.Next_Event;
Self.Next_Event := Events.End_Of_Input;
case Self.Latest is
when Events.Open_List =>
Self.Level := Self.Level + 1;
when Events.Close_List =>
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when others => null;
end case;
exit;
end if;
-- Read a single octet from source
if Self.Pending.Length = 0 then
Read_More (Parser'Class (Self), Self.Pending);
if Self.Pending.Length = 0 then
Self.Latest := Events.End_Of_Input;
exit;
end if;
Self.Pending.Invert;
end if;
Self.Pending.Pop (O);
-- Process octet
case Self.Internal.State is
when Waiting =>
Self.Buffer.Soft_Reset;
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
null;
when Encodings.List_Begin =>
Self.Latest := Events.Open_List;
Self.Level := Self.Level + 1;
when Encodings.List_End =>
Self.Latest := Events.Close_List;
if Self.Level > 0 then
Self.Level := Self.Level - 1;
end if;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
when Encodings.Quoted_Atom_Begin =>
Self.Internal :=
(State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Internal := (State => Number);
Atom_Buffers.Append (Self.Buffer, O);
when others =>
Self.Internal := (State => Token);
Atom_Buffers.Append (Self.Buffer, O);
end case;
when Base64_Atom | Base64_Expr =>
if Encodings.Is_Base64_Digit (O) then
Self.Internal.Chunk.Data (Self.Internal.Chunk.Length) := O;
Self.Internal.Chunk.Length := Self.Internal.Chunk.Length + 1;
if Self.Internal.Chunk.Length = 4 then
Self.Buffer.Append
(Encodings.Decode_Base64 (Self.Internal.Chunk.Data));
Self.Internal.Chunk.Length := 0;
end if;
elsif (O = Encodings.Base64_Atom_End
and Self.Internal.State = Base64_Atom)
or (O = Encodings.Base64_Expr_End
and Self.Internal.State = Base64_Expr)
then
Self.Buffer.Append (Encodings.Decode_Base64
(Self.Internal.Chunk.Data
(0 .. Self.Internal.Chunk.Length - 1)));
if Self.Internal.State = Base64_Atom then
Self.Latest := Events.Add_Atom;
else
Self.Pending.Append_Reverse (Self.Buffer.Data);
Self.Buffer.Soft_Reset;
end if;
Self.Internal := (State => Waiting);
end if;
when Hex_Atom =>
if Encodings.Is_Hex_Digit (O) then
if Encodings.Is_Hex_Digit (Self.Internal.Nibble_Buffer) then
Self.Buffer.Append
(Encodings.Decode_Hex (Self.Internal.Nibble_Buffer, O));
Self.Internal.Nibble_Buffer := 0;
else
Self.Internal.Nibble_Buffer := O;
end if;
elsif O = Encodings.Hex_Atom_End then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
end if;
when Number =>
case O is
when Encodings.Digit_0 .. Encodings.Digit_9 =>
Self.Buffer.Append (O);
when Encodings.Verbatim_Begin =>
Self.Internal := (State => Verbatim_Atom, Size => 0);
for I in 1 .. Self.Buffer.Length loop
Self.Internal.Size := Self.Internal.Size * 10
+ Count (Self.Buffer.Element (I)
- Encodings.Digit_0);
end loop;
Self.Buffer.Soft_Reset;
if Self.Internal.Size = 0 then
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
else
Self.Buffer.Preallocate (Self.Internal.Size);
end if;
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Latest := Events.Add_Atom;
Self.Internal := (State => Waiting);
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when Encodings.Base64_Atom_Begin =>
Self.Internal
:= (State => Base64_Atom,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Base64_Expr_Begin =>
Self.Internal
:= (State => Base64_Expr,
Chunk => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when Encodings.Hex_Atom_Begin =>
Self.Internal := (State => Hex_Atom, Nibble_Buffer => 0);
Self.Buffer.Soft_Reset;
when Encodings.Quoted_Atom_Begin =>
Self.Internal
:= (State => Quoted_Atom,
Escape => (Data => <>, Length => 0));
Self.Buffer.Soft_Reset;
when others =>
Self.Buffer.Append (O);
Self.Internal := (State => Token);
end case;
when Quoted_Atom =>
case Self.Internal.Escape.Length is
when 0 =>
case O is
when Encodings.Escape =>
Self.Internal.Escape.Data (0) := O;
Self.Internal.Escape.Length := 1;
when Encodings.Quoted_Atom_End =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when 1 =>
case O is
when Character'Pos ('b') =>
Self.Buffer.Append (8);
Self.Internal.Escape.Length := 0;
when Character'Pos ('t') =>
Self.Buffer.Append (9);
Self.Internal.Escape.Length := 0;
when Character'Pos ('n') =>
Self.Buffer.Append (10);
Self.Internal.Escape.Length := 0;
when Character'Pos ('v') =>
Self.Buffer.Append (11);
Self.Internal.Escape.Length := 0;
when Character'Pos ('f') =>
Self.Buffer.Append (12);
Self.Internal.Escape.Length := 0;
when Character'Pos ('r') =>
Self.Buffer.Append (13);
Self.Internal.Escape.Length := 0;
when Character'Pos (''') | Encodings.Escape
| Encodings.Quoted_Atom_End =>
Self.Buffer.Append (O);
Self.Internal.Escape.Length := 0;
when Encodings.Digit_0 .. Encodings.Digit_0 + 3
| Character'Pos ('x')
| Encodings.CR | Encodings.LF =>
Self.Internal.Escape.Data (1) := O;
Self.Internal.Escape.Length := 2;
when others =>
Self.Buffer.Append (Self.Internal.Escape.Data (0));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end case;
when 2 =>
if (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3
and O in Encodings.Digit_0 .. Encodings.Digit_0 + 7)
or (Self.Internal.Escape.Data (1) = Character'Pos ('x')
and then Encodings.Is_Hex_Digit (O))
then
Self.Internal.Escape.Data (2) := O;
Self.Internal.Escape.Length := 3;
elsif Self.Internal.Escape.Data (1) = Encodings.CR
or Self.Internal.Escape.Data (1) = Encodings.LF
then
Self.Internal.Escape.Length := 0;
if not ((O = Encodings.CR or O = Encodings.LF)
and O /= Self.Internal.Escape.Data (1))
then
Self.Pending.Append (O);
end if;
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1)));
Self.Pending.Append (O);
Self.Internal.Escape.Length := 0;
end if;
when 3 =>
if Self.Internal.Escape.Data (1)
= Character'Pos ('x')
then
if Encodings.Is_Hex_Digit (O) then
Self.Buffer.Append
(Encodings.Decode_Hex
(Self.Internal.Escape.Data (2), O));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
else
pragma Assert (Self.Internal.Escape.Data (1)
in Encodings.Digit_0 .. Encodings.Digit_0 + 3);
if O in Encodings.Digit_0 .. Encodings.Digit_0 + 7 then
Atom_Buffers.Append
(Self.Buffer,
(Self.Internal.Escape.Data (1)
- Encodings.Digit_0)
* 2**6 +
(Self.Internal.Escape.Data (2)
- Encodings.Digit_0)
* 2**3 +
(O - Encodings.Digit_0));
else
Self.Buffer.Append
((Self.Internal.Escape.Data (0),
Self.Internal.Escape.Data (1),
Self.Internal.Escape.Data (2)));
Self.Pending.Append (O);
end if;
end if;
Self.Internal.Escape.Length := 0;
when 4 =>
raise Program_Error;
end case;
when Token =>
case O is
when 0 | Encodings.Space | Encodings.HT
| Encodings.CR | Encodings.LF
| Encodings.VT | Encodings.FF =>
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
when Encodings.List_Begin =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Open_List;
Self.Latest := Events.Add_Atom;
when Encodings.List_End =>
Self.Internal := (State => Waiting);
Self.Next_Event := Events.Close_List;
Self.Latest := Events.Add_Atom;
when others =>
Self.Buffer.Append (O);
end case;
when Verbatim_Atom =>
Self.Buffer.Append (O);
pragma Assert (Self.Buffer.Length <= Self.Internal.Size);
if Self.Buffer.Length = Self.Internal.Size then
Self.Internal := (State => Waiting);
Self.Latest := Events.Add_Atom;
end if;
end case;
exit when Self.Latest /= Events.Error;
end loop;
if Self.Latest = Events.Close_List
and then Self.Level < Lockable.Current_Level (Self.Lock_Stack)
then
Self.Locked := True;
Event := Events.End_Of_Input;
else
Event := Self.Latest;
end if;
end Next;
overriding procedure Lock
(Self : in out Parser;
State : out Lockable.Lock_State) is
begin
Lockable.Push_Level (Self.Lock_Stack, Self.Level, State);
end Lock;
overriding procedure Unlock
(Self : in out Parser;
State : in out Lockable.Lock_State;
Finish : in Boolean := True)
is
Previous_Level : constant Natural
:= Lockable.Current_Level (Self.Lock_Stack);
Event : Events.Event;
begin
Lockable.Pop_Level (Self.Lock_Stack, State);
State := Lockable.Null_State;
if Finish then
Event := Self.Current_Event;
loop
case Event is
when Events.Open_List | Events.Add_Atom =>
null;
when Events.Close_List =>
exit when Self.Level < Previous_Level;
when Events.Error | Events.End_Of_Input =>
exit;
end case;
Self.Next (Event);
end loop;
end if;
Self.Locked := Self.Level < Lockable.Current_Level (Self.Lock_Stack);
end Unlock;
-------------------
-- Stream Parser --
-------------------
overriding procedure Read_More
(Self : in out Stream_Parser;
Buffer : out Atom_Buffers.Atom_Buffer)
is
Item : Ada.Streams.Stream_Element_Array (1 .. 128);
Last : Ada.Streams.Stream_Element_Offset;
begin
Self.Input.Read (Item, Last);
if Last in Item'Range then
Buffer.Append (Item (Item'First .. Last));
end if;
end Read_More;
-------------------
-- Memory Parser --
-------------------
not overriding function Create
(Data : in Ada.Streams.Stream_Element_Array)
return Memory_Parser is
begin
return P : Memory_Parser do
P.Pending.Append (Data);
P.Pending.Invert;
end return;
end Create;
not overriding function Create_From_String
(Data : in String) return Memory_Parser is
begin
return Create (To_Atom (Data));
end Create_From_String;
end Natools.S_Expressions.Parsers;
|
[
{
"context": "er Events Description\n-- Copyright (C) 2014, 2015 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 167,
"score": 0.9998788833618164,
"start": 152,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "ight (C) 2014, 2015 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 198,
"score": 0.999882698059082,
"start": 183,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "5 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 225,
"score": 0.9999240040779114,
"start": 200,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | mat/src/events/mat-events-tools.ads | stcarrez/mat | 7 | -----------------------------------------------------------------------
-- mat-events-tools - Profiler Events Description
-- Copyright (C) 2014, 2015 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Containers.Ordered_Maps;
with Ada.Containers.Vectors;
package MAT.Events.Tools is
Not_Found : exception;
package Target_Event_Vectors is
new Ada.Containers.Vectors (Positive, Target_Event_Type);
subtype Target_Event_Vector is Target_Event_Vectors.Vector;
subtype Target_Event_Cursor is Target_Event_Vectors.Cursor;
-- Find in the list the first event with the given type.
-- Raise <tt>Not_Found</tt> if the list does not contain such event.
function Find (List : in Target_Event_Vector;
Kind : in Probe_Index_Type) return Target_Event_Type;
type Event_Info_Type is record
First_Event : Target_Event_Type;
Last_Event : Target_Event_Type;
Count : Natural := 0;
Malloc_Count : Natural := 0;
Realloc_Count : Natural := 0;
Free_Count : Natural := 0;
Alloc_Size : MAT.Types.Target_Size := 0;
Free_Size : MAT.Types.Target_Size := 0;
end record;
-- Collect statistics information about events.
procedure Collect_Info (Into : in out Event_Info_Type;
Event : in MAT.Events.Target_Event_Type);
package Size_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => MAT.Types.Target_Size,
Element_Type => Event_Info_Type);
subtype Size_Event_Info_Map is Size_Event_Info_Maps.Map;
subtype Size_Event_Info_Cursor is Size_Event_Info_Maps.Cursor;
-- The frame key is composed of the frame address and the frame level.
type Frame_Key_Type is record
Addr : MAT.Types.Target_Addr;
Level : Natural;
end record;
function "<" (Left, Right : in Frame_Key_Type) return Boolean;
-- Ordered map to collect event info statistics by <frame, level> pair.
package Frame_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => Frame_Key_Type,
Element_Type => Event_Info_Type);
subtype Frame_Event_Info_Map is Frame_Event_Info_Maps.Map;
subtype Frame_Event_Info_Cursor is Frame_Event_Info_Maps.Cursor;
package Event_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Event_Info_Type);
subtype Event_Info_Vector is Event_Info_Vectors.Vector;
subtype Event_Info_Cursor is Event_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of event info sorted on the count.
procedure Build_Event_Info (Map : in Frame_Event_Info_Map;
List : in out Event_Info_Vector);
type Frame_Info_Type is record
Key : Frame_Key_Type;
Info : Event_Info_Type;
end record;
package Frame_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Frame_Info_Type);
subtype Frame_Info_Vector is Frame_Info_Vectors.Vector;
subtype Frame_Info_Cursor is Frame_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of frame event info sorted
-- on the frame level and slot size.
procedure Build_Frame_Info (Map : in Frame_Event_Info_Map;
List : in out Frame_Info_Vector);
end MAT.Events.Tools;
| 25765 | -----------------------------------------------------------------------
-- mat-events-tools - Profiler Events Description
-- Copyright (C) 2014, 2015 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Containers.Ordered_Maps;
with Ada.Containers.Vectors;
package MAT.Events.Tools is
Not_Found : exception;
package Target_Event_Vectors is
new Ada.Containers.Vectors (Positive, Target_Event_Type);
subtype Target_Event_Vector is Target_Event_Vectors.Vector;
subtype Target_Event_Cursor is Target_Event_Vectors.Cursor;
-- Find in the list the first event with the given type.
-- Raise <tt>Not_Found</tt> if the list does not contain such event.
function Find (List : in Target_Event_Vector;
Kind : in Probe_Index_Type) return Target_Event_Type;
type Event_Info_Type is record
First_Event : Target_Event_Type;
Last_Event : Target_Event_Type;
Count : Natural := 0;
Malloc_Count : Natural := 0;
Realloc_Count : Natural := 0;
Free_Count : Natural := 0;
Alloc_Size : MAT.Types.Target_Size := 0;
Free_Size : MAT.Types.Target_Size := 0;
end record;
-- Collect statistics information about events.
procedure Collect_Info (Into : in out Event_Info_Type;
Event : in MAT.Events.Target_Event_Type);
package Size_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => MAT.Types.Target_Size,
Element_Type => Event_Info_Type);
subtype Size_Event_Info_Map is Size_Event_Info_Maps.Map;
subtype Size_Event_Info_Cursor is Size_Event_Info_Maps.Cursor;
-- The frame key is composed of the frame address and the frame level.
type Frame_Key_Type is record
Addr : MAT.Types.Target_Addr;
Level : Natural;
end record;
function "<" (Left, Right : in Frame_Key_Type) return Boolean;
-- Ordered map to collect event info statistics by <frame, level> pair.
package Frame_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => Frame_Key_Type,
Element_Type => Event_Info_Type);
subtype Frame_Event_Info_Map is Frame_Event_Info_Maps.Map;
subtype Frame_Event_Info_Cursor is Frame_Event_Info_Maps.Cursor;
package Event_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Event_Info_Type);
subtype Event_Info_Vector is Event_Info_Vectors.Vector;
subtype Event_Info_Cursor is Event_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of event info sorted on the count.
procedure Build_Event_Info (Map : in Frame_Event_Info_Map;
List : in out Event_Info_Vector);
type Frame_Info_Type is record
Key : Frame_Key_Type;
Info : Event_Info_Type;
end record;
package Frame_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Frame_Info_Type);
subtype Frame_Info_Vector is Frame_Info_Vectors.Vector;
subtype Frame_Info_Cursor is Frame_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of frame event info sorted
-- on the frame level and slot size.
procedure Build_Frame_Info (Map : in Frame_Event_Info_Map;
List : in out Frame_Info_Vector);
end MAT.Events.Tools;
| true | -----------------------------------------------------------------------
-- mat-events-tools - Profiler Events Description
-- Copyright (C) 2014, 2015 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Containers.Ordered_Maps;
with Ada.Containers.Vectors;
package MAT.Events.Tools is
Not_Found : exception;
package Target_Event_Vectors is
new Ada.Containers.Vectors (Positive, Target_Event_Type);
subtype Target_Event_Vector is Target_Event_Vectors.Vector;
subtype Target_Event_Cursor is Target_Event_Vectors.Cursor;
-- Find in the list the first event with the given type.
-- Raise <tt>Not_Found</tt> if the list does not contain such event.
function Find (List : in Target_Event_Vector;
Kind : in Probe_Index_Type) return Target_Event_Type;
type Event_Info_Type is record
First_Event : Target_Event_Type;
Last_Event : Target_Event_Type;
Count : Natural := 0;
Malloc_Count : Natural := 0;
Realloc_Count : Natural := 0;
Free_Count : Natural := 0;
Alloc_Size : MAT.Types.Target_Size := 0;
Free_Size : MAT.Types.Target_Size := 0;
end record;
-- Collect statistics information about events.
procedure Collect_Info (Into : in out Event_Info_Type;
Event : in MAT.Events.Target_Event_Type);
package Size_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => MAT.Types.Target_Size,
Element_Type => Event_Info_Type);
subtype Size_Event_Info_Map is Size_Event_Info_Maps.Map;
subtype Size_Event_Info_Cursor is Size_Event_Info_Maps.Cursor;
-- The frame key is composed of the frame address and the frame level.
type Frame_Key_Type is record
Addr : MAT.Types.Target_Addr;
Level : Natural;
end record;
function "<" (Left, Right : in Frame_Key_Type) return Boolean;
-- Ordered map to collect event info statistics by <frame, level> pair.
package Frame_Event_Info_Maps is
new Ada.Containers.Ordered_Maps (Key_Type => Frame_Key_Type,
Element_Type => Event_Info_Type);
subtype Frame_Event_Info_Map is Frame_Event_Info_Maps.Map;
subtype Frame_Event_Info_Cursor is Frame_Event_Info_Maps.Cursor;
package Event_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Event_Info_Type);
subtype Event_Info_Vector is Event_Info_Vectors.Vector;
subtype Event_Info_Cursor is Event_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of event info sorted on the count.
procedure Build_Event_Info (Map : in Frame_Event_Info_Map;
List : in out Event_Info_Vector);
type Frame_Info_Type is record
Key : Frame_Key_Type;
Info : Event_Info_Type;
end record;
package Frame_Info_Vectors is
new Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Frame_Info_Type);
subtype Frame_Info_Vector is Frame_Info_Vectors.Vector;
subtype Frame_Info_Cursor is Frame_Info_Vectors.Cursor;
-- Extract from the frame info map, the list of frame event info sorted
-- on the frame level and slot size.
procedure Build_Frame_Info (Map : in Frame_Event_Info_Map;
List : in out Frame_Info_Vector);
end MAT.Events.Tools;
|
[
{
"context": " --\n-- M A K E G P R --\n-- ",
"end": 361,
"score": 0.8017712831497192,
"start": 348,
"tag": "NAME",
"value": "M A K E G P R"
},
{
"context": "an,\n No_Element => False,\n Key => Name_Id,\n Hash => Hash,\n Equal => \"=",
"end": 9644,
"score": 0.9636292457580566,
"start": 9637,
"tag": "NAME",
"value": "Name_Id"
}
] | llvm-gcc-4.2-2.9/gcc/ada/makegpr.adb | vidkidz/crossbridge | 1 | ------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- M A K E G P R --
-- --
-- B o d y --
-- --
-- Copyright (C) 2004-2006, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Ada.Command_Line; use Ada.Command_Line;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Unchecked_Deallocation;
with Csets;
with Gnatvsn;
with GNAT.Directory_Operations; use GNAT.Directory_Operations;
with GNAT.Dynamic_Tables;
with GNAT.Expect; use GNAT.Expect;
with GNAT.HTable;
with GNAT.OS_Lib; use GNAT.OS_Lib;
with GNAT.Regpat; use GNAT.Regpat;
with Makeutl; use Makeutl;
with MLib.Tgt; use MLib.Tgt;
with Namet; use Namet;
with Output; use Output;
with Opt; use Opt;
with Osint; use Osint;
with Prj; use Prj;
with Prj.Pars;
with Prj.Util; use Prj.Util;
with Snames; use Snames;
with System;
with System.Case_Util; use System.Case_Util;
with Table;
with Types; use Types;
package body Makegpr is
Max_In_Archives : constant := 50;
-- The maximum number of arguments for a single invocation of the
-- Archive Indexer (ar).
No_Argument : aliased Argument_List := (1 .. 0 => null);
-- Null argument list representing case of no arguments
FD : Process_Descriptor;
-- The process descriptor used when invoking a non GNU compiler with -M
-- and getting the output with GNAT.Expect.
Line_Matcher : constant Pattern_Matcher := Compile ("^.*?\n", Single_Line);
-- Pattern for GNAT.Expect for the invocation of a non GNU compiler with -M
Name_Ide : Name_Id;
Name_Compiler_Command : Name_Id;
-- Names of package IDE and its attribute Compiler_Command.
-- Set up by Initialize.
Unique_Compile : Boolean := False;
-- True when switch -u is used on the command line
type Source_Index_Rec is record
Project : Project_Id;
Id : Other_Source_Id;
Found : Boolean := False;
end record;
-- Used as Source_Indexes component to check if archive needs to be rebuilt
type Source_Index_Array is array (Positive range <>) of Source_Index_Rec;
type Source_Indexes_Ref is access Source_Index_Array;
procedure Free is new Ada.Unchecked_Deallocation
(Source_Index_Array, Source_Indexes_Ref);
Initial_Source_Index_Count : constant Positive := 20;
Source_Indexes : Source_Indexes_Ref :=
new Source_Index_Array (1 .. Initial_Source_Index_Count);
-- A list of the Other_Source_Ids of a project file, with an indication
-- that they have been found in the archive dependency file.
Last_Source : Natural := 0;
-- The index of the last valid component of Source_Indexes
Compiler_Names : array (First_Language_Indexes) of String_Access;
-- The names of the compilers to be used. Set up by Get_Compiler.
-- Used to display the commands spawned.
Gnatmake_String : constant String_Access := new String'("gnatmake");
GCC_String : constant String_Access := new String'("gcc");
G_Plus_Plus_String : constant String_Access := new String'("g++");
Default_Compiler_Names : constant array
(First_Language_Indexes range
Ada_Language_Index .. C_Plus_Plus_Language_Index)
of String_Access :=
(Ada_Language_Index => Gnatmake_String,
C_Language_Index => GCC_String,
C_Plus_Plus_Language_Index => G_Plus_Plus_String);
Compiler_Paths : array (First_Language_Indexes) of String_Access;
-- The path names of the compiler to be used. Set up by Get_Compiler.
-- Used to spawn compiling/linking processes.
Compiler_Is_Gcc : array (First_Language_Indexes) of Boolean;
-- An indication that a compiler is a GCC compiler, to be able to use
-- specific GCC switches.
Archive_Builder_Path : String_Access := null;
-- The path name of the archive builder (ar). To be used when spawning
-- ar commands.
Archive_Indexer_Path : String_Access := null;
-- The path name of the archive indexer (ranlib), if it exists
Copyright_Output : Boolean := False;
Usage_Output : Boolean := False;
-- Flags to avoid multiple displays of Copyright notice and of Usage
Output_File_Name : String_Access := null;
-- The name given after a switch -o
Output_File_Name_Expected : Boolean := False;
-- True when last switch was -o
Project_File_Name : String_Access := null;
-- The name of the project file specified with switch -P
Project_File_Name_Expected : Boolean := False;
-- True when last switch was -P
Naming_String : aliased String := "naming";
Builder_String : aliased String := "builder";
Compiler_String : aliased String := "compiler";
Binder_String : aliased String := "binder";
Linker_String : aliased String := "linker";
-- Name of packages to be checked when parsing/processing project files
List_Of_Packages : aliased String_List :=
(Naming_String 'Access,
Builder_String 'Access,
Compiler_String 'Access,
Binder_String 'Access,
Linker_String 'Access);
Packages_To_Check : constant String_List_Access := List_Of_Packages'Access;
-- List of the packages to be checked when parsing/processing project files
Project_Tree : constant Project_Tree_Ref := new Project_Tree_Data;
Main_Project : Project_Id;
-- The project id of the main project
type Processor is (None, Linker, Compiler);
Current_Processor : Processor := None;
-- This variable changes when switches -*args are used
Current_Language : Language_Index := Ada_Language_Index;
-- The compiler language to consider when Processor is Compiler
package Comp_Opts is new GNAT.Dynamic_Tables
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100);
Options : array (First_Language_Indexes) of Comp_Opts.Instance;
-- Tables to store compiling options for the different compilers
package Linker_Options is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Linker_Options");
-- Table to store the linking options
package Library_Opts is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Library_Opts");
-- Table to store the linking options
package Ada_Mains is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Ada_Mains");
-- Table to store the Ada mains, either specified on the command line
-- or found in attribute Main of the main project file.
package Other_Mains is new Table.Table
(Table_Component_Type => Other_Source,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Other_Mains");
-- Table to store the mains of languages other than Ada, either specified
-- on the command line or found in attribute Main of the main project file.
package Sources_Compiled is new GNAT.HTable.Simple_HTable
(Header_Num => Header_Num,
Element => Boolean,
No_Element => False,
Key => Name_Id,
Hash => Hash,
Equal => "=");
package X_Switches is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 2,
Table_Increment => 100,
Table_Name => "Makegpr.X_Switches");
-- Table to store the -X switches to be passed to gnatmake
Initial_Argument_Count : constant Positive := 20;
type Boolean_Array is array (Positive range <>) of Boolean;
type Booleans is access Boolean_Array;
procedure Free is new Ada.Unchecked_Deallocation (Boolean_Array, Booleans);
Arguments : Argument_List_Access :=
new Argument_List (1 .. Initial_Argument_Count);
-- Used to store lists of arguments to be used when spawning a process
Arguments_Displayed : Booleans :=
new Boolean_Array (1 .. Initial_Argument_Count);
-- For each argument in Arguments, indicate if the argument should be
-- displayed when procedure Display_Command is called.
Last_Argument : Natural := 0;
-- Index of the last valid argument in Arguments
package Cache_Args is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Cache_Args");
-- A table to cache arguments, to avoid multiple allocation of the same
-- strings. It is not possible to use a hash table, because String is
-- an unconstrained type.
-- Various switches used when spawning processes:
Dash_B_String : aliased String := "-B";
Dash_B : constant String_Access := Dash_B_String'Access;
Dash_c_String : aliased String := "-c";
Dash_c : constant String_Access := Dash_c_String'Access;
Dash_cargs_String : aliased String := "-cargs";
Dash_cargs : constant String_Access := Dash_cargs_String'Access;
Dash_d_String : aliased String := "-d";
Dash_d : constant String_Access := Dash_d_String'Access;
Dash_f_String : aliased String := "-f";
Dash_f : constant String_Access := Dash_f_String'Access;
Dash_k_String : aliased String := "-k";
Dash_k : constant String_Access := Dash_k_String'Access;
Dash_largs_String : aliased String := "-largs";
Dash_largs : constant String_Access := Dash_largs_String'Access;
Dash_M_String : aliased String := "-M";
Dash_M : constant String_Access := Dash_M_String'Access;
Dash_margs_String : aliased String := "-margs";
Dash_margs : constant String_Access := Dash_margs_String'Access;
Dash_o_String : aliased String := "-o";
Dash_o : constant String_Access := Dash_o_String'Access;
Dash_P_String : aliased String := "-P";
Dash_P : constant String_Access := Dash_P_String'Access;
Dash_q_String : aliased String := "-q";
Dash_q : constant String_Access := Dash_q_String'Access;
Dash_u_String : aliased String := "-u";
Dash_u : constant String_Access := Dash_u_String'Access;
Dash_v_String : aliased String := "-v";
Dash_v : constant String_Access := Dash_v_String'Access;
Dash_vP1_String : aliased String := "-vP1";
Dash_vP1 : constant String_Access := Dash_vP1_String'Access;
Dash_vP2_String : aliased String := "-vP2";
Dash_vP2 : constant String_Access := Dash_vP2_String'Access;
Dash_x_String : aliased String := "-x";
Dash_x : constant String_Access := Dash_x_String'Access;
r_String : aliased String := "r";
r : constant String_Access := r_String'Access;
CPATH : constant String := "CPATH";
-- The environment variable to set when compiler is a GCC compiler
-- to indicate the include directory path.
Current_Include_Paths : array (First_Language_Indexes) of String_Access;
-- A cache for the paths of included directories, to avoid setting
-- env var CPATH unnecessarily.
C_Plus_Plus_Is_Used : Boolean := False;
-- True when there are sources in C++
Link_Options_Switches : Argument_List_Access := null;
-- The link options coming from the attributes Linker'Linker_Options in
-- project files imported, directly or indirectly, by the main project.
Total_Number_Of_Errors : Natural := 0;
-- Used when Keep_Going is True (switch -k) to keep the total number
-- of compilation/linking errors, to report at the end of execution.
Need_To_Rebuild_Global_Archive : Boolean := False;
Error_Header : constant String := "*** ERROR: ";
-- The beginning of error message, when Keep_Going is True
Need_To_Relink : Boolean := False;
-- True when an executable of a language other than Ada need to be linked
Global_Archive_Exists : Boolean := False;
-- True if there is a non empty global archive, to prevent creation
-- of such archives.
Path_Option : String_Access;
-- The path option switch, when supported
package Lib_Path is new Table.Table
(Table_Component_Type => Character,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Lib_Path");
-- A table to compute the path to put in the path option switch, when it
-- is supported.
procedure Add_Archives (For_Gnatmake : Boolean);
-- Add to Arguments the list of archives for linking an executable
procedure Add_Argument (Arg : String_Access; Display : Boolean);
procedure Add_Argument (Arg : String; Display : Boolean);
-- Add an argument to Arguments. Reallocate if necessary
procedure Add_Arguments (Args : Argument_List; Display : Boolean);
-- Add a list of arguments to Arguments. Reallocate if necessary
procedure Add_Option (Arg : String);
-- Add a switch for the Ada, C or C++ compiler, or for the linker.
-- The table where this option is stored depends on the values of
-- Current_Processor and Current_Language.
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes);
-- Either add to the Arguments the necessary -I switches needed to
-- compile, or, when compiler is gcc/g++, set up the C*INCLUDE_PATH
-- environment variable, if necessary.
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id);
-- Add a source id to Source_Indexes, with Found set to False
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id);
-- Add to Arguments the switches, if any, for a source (attribute Switches)
-- or language (attribute Default_Switches), coming from package Compiler
-- or Linker (depending on Proc) of a specified project file.
procedure Build_Global_Archive;
-- Build the archive for the main project
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean);
-- Build the library for a library project. If Unconditionally is
-- False, first check if the library is up to date, and build it only
-- if it is not.
procedure Check (Option : String);
-- Check that a switch coming from a project file is not the concatenation
-- of several valid switch, for example "-g -v". If it is, issue a warning.
procedure Check_Archive_Builder;
-- Check if the archive builder (ar) is there
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean);
-- Check if a source of a language other than Ada needs to be compiled or
-- recompiled.
procedure Check_For_C_Plus_Plus;
-- Check if C++ is used in at least one project
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean);
-- Compile one non-Ada source
procedure Compile_Individual_Sources;
-- Compile the sources specified on the command line, when in
-- Unique_Compile mode.
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean);
-- Compile/Link with gnatmake when there are Ada sources in the main
-- project. Arguments may already contain options to be used by
-- gnatmake. Used for both Ada mains and mains of other languages.
-- When Compile_Only is True, do not use the linking options
procedure Compile_Sources;
-- Compile the sources of languages other than Ada, if necessary
procedure Copyright;
-- Output the Copyright notice
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id);
-- Create the archive dependency file for a library project
procedure Create_Global_Archive_Dependency_File (Name : String);
-- Create the archive depenency file for the main project
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null);
-- Display the command for a spawned process, if in Verbose_Mode or
-- not in Quiet_Output.
procedure Get_Compiler (For_Language : First_Language_Indexes);
-- Find the compiler name and path name for a specified programming
-- language, if not already done. Results are in the corresponding
-- elements of arrays Compiler_Names and Compiler_Paths. Name of compiler
-- is found in package IDE of the main project, or defaulted.
-- Fail if compiler cannot be found on the path. For the Ada language,
-- gnatmake, rather than the Ada compiler is returned.
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data);
-- Find the necessary switches -I to be used when compiling sources
-- of languages other than Ada, in a specified project file. Cache the
-- result in component Imported_Directories_Switches of the project data.
-- For gcc/g++ compilers, get the value of the C*_INCLUDE_PATH, instead.
procedure Initialize;
-- Do the necessary package initialization and process the command line
-- arguments.
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean;
-- Return True if the object Object_Name is not overridden by a source
-- in a project extending project Project.
procedure Link_Executables;
-- Link executables
procedure Report_Error (S1 : String; S2 : String := ""; S3 : String := "");
-- Report an error. If Keep_Going is False, just call Osint.Fail.
-- If Keep_Going is True, display the error and increase the total number
-- of errors.
procedure Report_Total_Errors (Kind : String);
-- If Total_Number_Of_Errors is not zero, report it, and fail
procedure Scan_Arg (Arg : String);
-- Process one command line argument
function Strip_CR_LF (Text : String) return String;
-- Remove characters ASCII.CR and ASCII.LF from a String
procedure Usage;
-- Display the usage
------------------
-- Add_Archives --
------------------
procedure Add_Archives (For_Gnatmake : Boolean) is
Last_Arg : constant Natural := Last_Argument;
-- The position of the last argument before adding the archives.
-- Used to reverse the order of the arguments added when processing
-- the archives.
procedure Recursive_Add_Archives (Project : Project_Id);
-- Recursive procedure to add the archive of a project file, if any,
-- then call itself for the project imported.
----------------------------
-- Recursive_Add_Archives --
----------------------------
procedure Recursive_Add_Archives (Project : Project_Id) is
Data : Project_Data;
Imported : Project_List;
Prj : Project_Id;
procedure Add_Archive_Path;
-- For a library project or the main project, add the archive
-- path to the arguments.
----------------------
-- Add_Archive_Path --
----------------------
procedure Add_Archive_Path is
Increment : Positive;
Prev_Last : Positive;
begin
if Data.Library then
-- If it is a library project file, nothing to do if
-- gnatmake will be invoked, because gnatmake will take
-- care of it, even if the library is not an Ada library.
if not For_Gnatmake then
if Data.Library_Kind = Static then
Add_Argument
(Get_Name_String (Data.Library_Dir) &
Directory_Separator &
"lib" & Get_Name_String (Data.Library_Name) &
'.' & Archive_Ext,
Verbose_Mode);
else
-- As we first insert in the reverse order,
-- -L<dir> is put after -l<lib>
Add_Argument
("-l" & Get_Name_String (Data.Library_Name),
Verbose_Mode);
Get_Name_String (Data.Library_Dir);
Add_Argument
("-L" & Name_Buffer (1 .. Name_Len),
Verbose_Mode);
-- If there is a run path option, prepend this
-- directory to the library path. It is probable
-- that the order of the directories in the path
-- option is not important, but just in case
-- put the directories in the same order as the
-- libraries.
if Path_Option /= null then
-- If it is not the first directory, make room
-- at the beginning of the table, including
-- for a path separator.
if Lib_Path.Last > 0 then
Increment := Name_Len + 1;
Prev_Last := Lib_Path.Last;
Lib_Path.Set_Last (Prev_Last + Increment);
for Index in reverse 1 .. Prev_Last loop
Lib_Path.Table (Index + Increment) :=
Lib_Path.Table (Index);
end loop;
Lib_Path.Table (Increment) := Path_Separator;
else
-- If it is the first directory, just set
-- Last to the length of the directory.
Lib_Path.Set_Last (Name_Len);
end if;
-- Put the directory at the beginning of the
-- table.
for Index in 1 .. Name_Len loop
Lib_Path.Table (Index) := Name_Buffer (Index);
end loop;
end if;
end if;
end if;
-- For a non-library project, the only archive needed
-- is the one for the main project, if there is one.
elsif Project = Main_Project and then Global_Archive_Exists then
Add_Argument
(Get_Name_String (Data.Object_Directory) &
Directory_Separator &
"lib" & Get_Name_String (Data.Name) &
'.' & Archive_Ext,
Verbose_Mode);
end if;
end Add_Archive_Path;
begin
-- Nothing to do when there is no project specified
if Project /= No_Project then
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do if the project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid processing it again
Project_Tree.Projects.Table (Project).Seen := True;
Recursive_Add_Archives (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself recursively for all imported projects
while Imported /= Empty_Project_List loop
Prj := Project_Tree.Project_Lists.Table
(Imported).Project;
if Prj /= No_Project then
while Project_Tree.Projects.Table
(Prj).Extended_By /= No_Project
loop
Prj := Project_Tree.Projects.Table
(Prj).Extended_By;
end loop;
Recursive_Add_Archives (Prj);
end if;
Imported := Project_Tree.Project_Lists.Table
(Imported).Next;
end loop;
-- If there is sources of language other than Ada in this
-- project, add the path of the archive to Arguments.
if Project = Main_Project
or else Data.Other_Sources_Present
then
Add_Archive_Path;
end if;
end if;
end if;
end Recursive_Add_Archives;
-- Start of processing for Add_Archives
begin
-- First, mark all projects as not processed
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (Project).Seen := False;
end loop;
-- Take care of the run path option
if Path_Option = null then
Path_Option := MLib.Linker_Library_Path_Option;
end if;
Lib_Path.Set_Last (0);
-- Add archives in the reverse order
Recursive_Add_Archives (Main_Project);
-- And reverse the order
declare
First : Positive := Last_Arg + 1;
Last : Natural := Last_Argument;
Temp : String_Access;
begin
while First < Last loop
Temp := Arguments (First);
Arguments (First) := Arguments (Last);
Arguments (Last) := Temp;
First := First + 1;
Last := Last - 1;
end loop;
end;
end Add_Archives;
------------------
-- Add_Argument --
------------------
procedure Add_Argument (Arg : String_Access; Display : Boolean) is
begin
-- Nothing to do if no argument is specified or if argument is empty
if Arg /= null or else Arg'Length = 0 then
-- Reallocate arrays if necessary
if Last_Argument = Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Initial_Argument_Count);
begin
New_Arguments (Arguments'Range) := Arguments.all;
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (Arguments_Displayed'Range) :=
Arguments_Displayed.all;
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the argument and its display indication
Last_Argument := Last_Argument + 1;
Arguments (Last_Argument) := Arg;
Arguments_Displayed (Last_Argument) := Display;
end if;
end Add_Argument;
procedure Add_Argument (Arg : String; Display : Boolean) is
Argument : String_Access := null;
begin
-- Nothing to do if argument is empty
if Arg'Length > 0 then
-- Check if the argument is already in the Cache_Args table.
-- If it is already there, reuse the allocated value.
for Index in 1 .. Cache_Args.Last loop
if Cache_Args.Table (Index).all = Arg then
Argument := Cache_Args.Table (Index);
exit;
end if;
end loop;
-- If the argument is not in the cache, create a new entry in the
-- cache.
if Argument = null then
Argument := new String'(Arg);
Cache_Args.Increment_Last;
Cache_Args.Table (Cache_Args.Last) := Argument;
end if;
-- And add the argument
Add_Argument (Argument, Display);
end if;
end Add_Argument;
-------------------
-- Add_Arguments --
-------------------
procedure Add_Arguments (Args : Argument_List; Display : Boolean) is
begin
-- Reallocate the arrays, if necessary
if Last_Argument + Args'Length > Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument + Args'Length +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Args'Length +
Initial_Argument_Count);
begin
New_Arguments (1 .. Last_Argument) :=
Arguments (1 .. Last_Argument);
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (1 .. Last_Argument) :=
Arguments_Displayed (1 .. Last_Argument);
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the new arguments and the display indications
Arguments (Last_Argument + 1 .. Last_Argument + Args'Length) := Args;
Arguments_Displayed (Last_Argument + 1 .. Last_Argument + Args'Length) :=
(others => Display);
Last_Argument := Last_Argument + Args'Length;
end Add_Arguments;
----------------
-- Add_Option --
----------------
procedure Add_Option (Arg : String) is
Option : constant String_Access := new String'(Arg);
begin
case Current_Processor is
when None =>
null;
when Linker =>
-- Add option to the linker table
Linker_Options.Increment_Last;
Linker_Options.Table (Linker_Options.Last) := Option;
when Compiler =>
-- Add option to the compiler option table, depending on the
-- value of Current_Language.
Comp_Opts.Increment_Last (Options (Current_Language));
Options (Current_Language).Table
(Comp_Opts.Last (Options (Current_Language))) := Option;
end case;
end Add_Option;
-------------------
-- Add_Source_Id --
-------------------
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id) is
begin
-- Reallocate the array, if necessary
if Last_Source = Source_Indexes'Last then
declare
New_Indexes : constant Source_Indexes_Ref :=
new Source_Index_Array
(1 .. Source_Indexes'Last +
Initial_Source_Index_Count);
begin
New_Indexes (Source_Indexes'Range) := Source_Indexes.all;
Free (Source_Indexes);
Source_Indexes := New_Indexes;
end;
end if;
Last_Source := Last_Source + 1;
Source_Indexes (Last_Source) := (Project, Id, False);
end Add_Source_Id;
----------------------------
-- Add_Search_Directories --
----------------------------
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes)
is
begin
-- If a GNU compiler is used, set the CPATH environment variable,
-- if it does not already has the correct value.
if Compiler_Is_Gcc (Language) then
if Current_Include_Paths (Language) /= Data.Include_Path then
Current_Include_Paths (Language) := Data.Include_Path;
Setenv (CPATH, Data.Include_Path.all);
end if;
else
Add_Arguments (Data.Imported_Directories_Switches.all, Verbose_Mode);
end if;
end Add_Search_Directories;
------------------
-- Add_Switches --
------------------
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id)
is
Switches : Variable_Value;
-- The switches, if any, for the file/language
Pkg : Package_Id;
-- The id of the package where to look for the switches
Defaults : Array_Element_Id;
-- The Default_Switches associative array
Switches_Array : Array_Element_Id;
-- The Switches associative array
Element_Id : String_List_Id;
Element : String_Element;
begin
-- First, choose the proper package
case Proc is
when None =>
raise Program_Error;
when Linker =>
Pkg := Value_Of (Name_Linker, Data.Decl.Packages, Project_Tree);
when Compiler =>
Pkg := Value_Of (Name_Compiler, Data.Decl.Packages, Project_Tree);
end case;
if Pkg /= No_Package then
-- Get the Switches ("file name"), if they exist
Switches_Array := Prj.Util.Value_Of
(Name => Name_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches :=
Prj.Util.Value_Of
(Index => File_Name,
Src_Index => 0,
In_Array => Switches_Array,
In_Tree => Project_Tree);
-- Otherwise, get the Default_Switches ("language"), if they exist
if Switches = Nil_Variable_Value then
Defaults := Prj.Util.Value_Of
(Name => Name_Default_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches := Prj.Util.Value_Of
(Index => Language_Names.Table (Language),
Src_Index => 0,
In_Array => Defaults,
In_Tree => Project_Tree);
end if;
-- If there are switches, add them to Arguments
if Switches /= Nil_Variable_Value then
Element_Id := Switches.Values;
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if not Quiet_Output then
-- When not in quiet output (no -q), check that the
-- switch is not the concatenation of several valid
-- switches, such as "-g -v". If it is, issue a warning.
Check (Option => Name_Buffer (1 .. Name_Len));
end if;
Add_Argument (Name_Buffer (1 .. Name_Len), True);
end if;
Element_Id := Element.Next;
end loop;
end if;
end if;
end Add_Switches;
--------------------------
-- Build_Global_Archive --
--------------------------
procedure Build_Global_Archive is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
S_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Need_To_Rebuild_Global_Archive;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Path : Name_Id;
Time_Stamp : Time_Stamp_Type;
Saved_Last_Argument : Natural;
First_Object : Natural;
Discard : Boolean;
begin
Check_Archive_Builder;
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in
-- Source_Indexes.
declare
Local_Data : Project_Data;
begin
Last_Source := 0;
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Data := Project_Tree.Projects.Table (Proj);
if not Local_Data.Library then
Source_Id := Local_Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Proj, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
end if;
end loop;
end;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the path of the object file
Object_Path := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
S_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table (S_Id);
if (not Source_Indexes (S).Found)
and then Source.Object_Path = Object_Path
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := S_Id;
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Path));
Write_Line (" is not an object of any project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of characters, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Path));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
end if;
end if;
end if;
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Source /= 0;
-- Archive needs to be rebuilt
else
-- If archive already exists, first delete it
-- Comment needed on why we discard result???
if Is_Regular_File (Archive_Name) then
Delete_File (Archive_Name, Discard);
end if;
Last_Argument := 0;
-- Start with the options found in MLib.Tgt (usually just "rc")
Add_Arguments (Archive_Builder_Options.all, True);
-- Followed by the archive name
Add_Argument (Archive_Name, True);
First_Object := Last_Argument;
-- Followed by all the object files of the non library projects
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Proj);
if not Data.Library then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
-- Only include object file name that have not been
-- overriden in extending projects.
if Is_Included_In_Global_Archive
(Source.Object_Name, Proj)
then
Add_Argument
(Get_Name_String (Source.Object_Path), Verbose_Mode);
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Argument > First_Object;
if Global_Archive_Exists then
-- If the archive is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
-- Spawn the archive builder (ar)
Saved_Last_Argument := Last_Argument;
Last_Argument := First_Object + Max_In_Archives;
loop
if Last_Argument > Saved_Last_Argument then
Last_Argument := Saved_Last_Argument;
end if;
Display_Command (Archive_Builder, Archive_Builder_Path);
Spawn
(Archive_Builder_Path.all,
Arguments (1 .. Last_Argument),
Success);
exit when not Success;
exit when Last_Argument = Saved_Last_Argument;
Arguments (1) := r;
Arguments (3 .. Saved_Last_Argument - Last_Argument + 2) :=
Arguments (Last_Argument + 1 .. Saved_Last_Argument);
Saved_Last_Argument := Saved_Last_Argument - Last_Argument + 2;
end loop;
-- If the archive was built, run the archive indexer (ranlib)
-- if there is one.
if Success then
-- If the archive was built, run the archive indexer (ranlib),
-- if there is one.
if Archive_Indexer_Path /= null then
Last_Argument := 0;
Add_Argument (Archive_Name, True);
Display_Command (Archive_Indexer, Archive_Indexer_Path);
Spawn
(Archive_Indexer_Path.all, Arguments (1 .. 1), Success);
if not Success then
-- Running ranlib failed, delete the dependency file,
-- if it exists.
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("running" & Archive_Indexer & " for project """,
Get_Name_String (Data.Name),
""" failed");
return;
end if;
end if;
-- The archive was correctly built, create its dependency file
Create_Global_Archive_Dependency_File (Archive_Dep_Name);
-- Building the archive failed, delete dependency file if one
-- exists.
else
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("building archive for project """,
Get_Name_String (Data.Name),
""" failed");
end if;
end if;
end if;
end Build_Global_Archive;
-------------------
-- Build_Library --
-------------------
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Unconditionally;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Name : Name_Id;
Time_Stamp : Time_Stamp_Type;
Driver_Name : Name_Id := No_Name;
Lib_Opts : Argument_List_Access := No_Argument'Access;
begin
Check_Archive_Builder;
-- If Unconditionally is False, check if the archive need to be built
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in Source_Indexes
Last_Source := 0;
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Project, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the name of an object file
Object_Name := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
if (not Source_Indexes (S).Found)
and then
Project_Tree.Other_Sources.Table
(Source_Indexes (S).Id).Object_Name = Object_Name
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Name));
Write_Line (" is not an object of the project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of character, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Name));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
if not Need_To_Rebuild then
-- Now, check if all object files of the project have been
-- accounted for. If any of them is not in the dependency
-- file, the archive needs to be rebuilt.
for Index in 1 .. Last_Source loop
if not Source_Indexes (Index).Found then
Need_To_Rebuild := True;
if Verbose_Mode then
Source_Id := Source_Indexes (Index).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Write_Str (" -> ");
Write_Str (Get_Name_String (Source.Object_Name));
Write_Str (" is not in the archive ");
Write_Line ("dependency file");
end if;
exit;
end if;
end loop;
end if;
if (not Need_To_Rebuild) and Verbose_Mode then
Write_Line (" -> up to date");
end if;
end if;
end if;
end if;
-- Build the library if necessary
if Need_To_Rebuild then
-- If a library is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
Last_Argument := 0;
-- If there are sources in Ada, then gnatmake will build the
-- library, so nothing to do.
if not Data.Languages (Ada_Language_Index) then
-- Get all the object files of the project
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
Source_Id := Source.Next;
end loop;
-- If it is a library, it need to be built it the same way
-- Ada libraries are built.
if Data.Library_Kind = Static then
MLib.Build_Library
(Ofiles => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Output_File => Get_Name_String (Data.Library_Name),
Output_Dir => Get_Name_String (Data.Library_Dir));
else
-- Link with g++ if C++ is one of the languages, otherwise
-- building the library may fail with unresolved symbols.
if C_Plus_Plus_Is_Used then
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
if Compiler_Is_Gcc (C_Plus_Plus_Language_Index) then
Name_Len := 0;
Add_Str_To_Name_Buffer
(Compiler_Names (C_Plus_Plus_Language_Index).all);
Driver_Name := Name_Find;
end if;
end if;
-- If Library_Options is specified, add these options
declare
Library_Options : constant Variable_Value :=
Value_Of
(Name_Library_Options,
Data.Decl.Attributes,
Project_Tree);
begin
if not Library_Options.Default then
declare
Current : String_List_Id := Library_Options.Values;
Element : String_Element;
begin
while Current /= Nil_String loop
Element := Project_Tree.String_Elements.
Table (Current);
Get_Name_String (Element.Value);
if Name_Len /= 0 then
Library_Opts.Increment_Last;
Library_Opts.Table (Library_Opts.Last) :=
new String'(Name_Buffer (1 .. Name_Len));
end if;
Current := Element.Next;
end loop;
end;
end if;
Lib_Opts :=
new Argument_List'(Argument_List
(Library_Opts.Table (1 .. Library_Opts.Last)));
end;
MLib.Tgt.Build_Dynamic_Library
(Ofiles => Arguments (1 .. Last_Argument),
Foreign => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Options => No_Argument,
Options_2 => Lib_Opts.all,
Interfaces => No_Argument,
Lib_Filename => Get_Name_String (Data.Library_Name),
Lib_Dir => Get_Name_String (Data.Library_Dir),
Symbol_Data => No_Symbols,
Driver_Name => Driver_Name,
Lib_Version => "",
Auto_Init => False);
end if;
end if;
-- Create fake empty archive, so we can check its time stamp later
declare
Archive : Ada.Text_IO.File_Type;
begin
Create (Archive, Out_File, Archive_Name);
Close (Archive);
end;
Create_Archive_Dependency_File
(Archive_Dep_Name, Data.First_Other_Source);
end if;
end Build_Library;
-----------
-- Check --
-----------
procedure Check (Option : String) is
First : Positive := Option'First;
Last : Natural;
begin
for Index in Option'First + 1 .. Option'Last - 1 loop
if Option (Index) = ' ' and then Option (Index + 1) = '-' then
Write_Str ("warning: switch """);
Write_Str (Option);
Write_Str (""" is suspicious; consider using ");
Last := First;
while Last <= Option'Last loop
if Option (Last) = ' ' then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last - 1));
Write_Char ('"');
while Last <= Option'Last and then Option (Last) = ' ' loop
Last := Last + 1;
end loop;
First := Last;
else
if Last = Option'Last then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last));
Write_Char ('"');
end if;
Last := Last + 1;
end if;
end loop;
Write_Line (" instead");
exit;
end if;
end loop;
end Check;
---------------------------
-- Check_Archive_Builder --
---------------------------
procedure Check_Archive_Builder is
begin
-- First, make sure that the archive builder (ar) is on the path
if Archive_Builder_Path = null then
Archive_Builder_Path := Locate_Exec_On_Path (Archive_Builder);
if Archive_Builder_Path = null then
Osint.Fail
("unable to locate archive builder """,
Archive_Builder,
"""");
end if;
-- If there is an archive indexer (ranlib), try to locate it on the
-- path. Don't fail if it is not found.
if Archive_Indexer /= "" then
Archive_Indexer_Path := Locate_Exec_On_Path (Archive_Indexer);
end if;
end if;
end Check_Archive_Builder;
------------------------------
-- Check_Compilation_Needed --
------------------------------
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean)
is
Source_Name : constant String := Get_Name_String (Source.File_Name);
Source_Path : constant String := Get_Name_String (Source.Path_Name);
Object_Name : constant String := Get_Name_String (Source.Object_Name);
Dep_Name : constant String := Get_Name_String (Source.Dep_Name);
Source_In_Dependencies : Boolean := False;
-- Set True if source was found in dependency file of its object file
Dep_File : Prj.Util.Text_File;
Start : Natural;
Finish : Natural;
begin
-- Assume the worst, so that statement "return;" may be used if there
-- is any problem.
Need_To_Compile := True;
if Verbose_Mode then
Write_Str (" Checking ");
Write_Str (Source_Name);
Write_Line (" ... ");
end if;
-- If object file does not exist, of course source need to be compiled
if Source.Object_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- If the object file has been created before the last modification
-- of the source, the source need to be recompiled.
if Source.Object_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- If there is no dependency file, then the source needs to be
-- recompiled and the dependency file need to be created.
if Source.Dep_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- The source needs to be recompiled if the source has been modified
-- after the dependency file has been created.
if Source.Dep_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- Look for all dependencies
Open (Dep_File, Dep_Name);
-- If dependency file cannot be open, we need to recompile the source
if not Is_Valid (Dep_File) then
if Verbose_Mode then
Write_Str (" -> could not open dependency file ");
Write_Line (Dep_Name);
end if;
return;
end if;
declare
End_Of_File_Reached : Boolean := False;
begin
loop
if End_Of_File (Dep_File) then
End_Of_File_Reached := True;
exit;
end if;
Get_Line (Dep_File, Name_Buffer, Name_Len);
exit when Name_Len > 0 and then Name_Buffer (1) /= '#';
end loop;
-- If dependency file contains only empty lines or comments, then
-- dependencies are unknown, and the source needs to be recompiled.
if End_Of_File_Reached then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" is empty");
end if;
Close (Dep_File);
return;
end if;
end;
Start := 1;
Finish := Index (Name_Buffer (1 .. Name_Len), ": ");
-- First line must start with name of object file, followed by colon
if Finish = 0 or else Name_Buffer (1 .. Finish - 1) /= Object_Name then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
else
Start := Finish + 2;
-- Process each line
Line_Loop : loop
declare
Line : constant String := Name_Buffer (1 .. Name_Len);
Last : constant Natural := Name_Len;
begin
Name_Loop : loop
-- Find the beginning of the next source path name
while Start < Last and then Line (Start) = ' ' loop
Start := Start + 1;
end loop;
-- Go to next line when there is a continuation character \
-- at the end of the line.
exit Name_Loop when Start = Last
and then Line (Start) = '\';
-- We should not be at the end of the line, without
-- a continuation character \.
if Start = Last then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
end if;
-- Look for the end of the source path name
Finish := Start;
while Finish < Last and then Line (Finish + 1) /= ' ' loop
Finish := Finish + 1;
end loop;
-- Check this source
declare
Src_Name : constant String :=
Normalize_Pathname
(Name => Line (Start .. Finish),
Case_Sensitive => False);
Src_TS : Time_Stamp_Type;
begin
-- If it is original source, set Source_In_Dependencies
if Src_Name = Source_Path then
Source_In_Dependencies := True;
end if;
Name_Len := 0;
Add_Str_To_Name_Buffer (Src_Name);
Src_TS := File_Stamp (Name_Find);
-- If the source does not exist, we need to recompile
if Src_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line (" does not exist");
end if;
Close (Dep_File);
return;
-- If the source has been modified after the object file,
-- we need to recompile.
elsif Src_TS > Source.Object_TS then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line
(" has time stamp later than object file");
end if;
Close (Dep_File);
return;
end if;
end;
-- If the source path name ends the line, we are done
exit Line_Loop when Finish = Last;
-- Go get the next source on the line
Start := Finish + 1;
end loop Name_Loop;
end;
-- If we are here, we had a continuation character \ at the end
-- of the line, so we continue with the next line.
Get_Line (Dep_File, Name_Buffer, Name_Len);
Start := 1;
end loop Line_Loop;
end if;
Close (Dep_File);
-- If the original sources were not in the dependency file, then we
-- need to recompile. It may mean that we are using a different source
-- (different variant) for this object file.
if not Source_In_Dependencies then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Source_Path);
Write_Line (" is not in the dependencies");
end if;
return;
end if;
-- If we are here, then everything is OK, and we don't need
-- to recompile.
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
Need_To_Compile := False;
end Check_Compilation_Needed;
---------------------------
-- Check_For_C_Plus_Plus --
---------------------------
procedure Check_For_C_Plus_Plus is
begin
C_Plus_Plus_Is_Used := False;
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if
Project_Tree.Projects.Table (Project).Languages
(C_Plus_Plus_Language_Index)
then
C_Plus_Plus_Is_Used := True;
exit;
end if;
end loop;
end Check_For_C_Plus_Plus;
-------------
-- Compile --
-------------
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean)
is
Source : Other_Source :=
Project_Tree.Other_Sources.Table (Source_Id);
Success : Boolean;
CPATH : String_Access := null;
begin
-- If the compiler is not known yet, get its path name
if Compiler_Names (Source.Language) = null then
Get_Compiler (Source.Language);
end if;
-- For non GCC compilers, get the dependency file, first calling the
-- compiler with the switch -M.
if not Compiler_Is_Gcc (Source.Language) then
Last_Argument := 0;
-- Add the source name, preceded by -M
Add_Argument (Dash_M, True);
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Add the compiling switches for the language specified
-- on the command line, if any.
for
J in 1 .. Comp_Opts.Last (Options (Source.Language))
loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add imported directory switches for this project file
Add_Search_Directories (Data, Source.Language);
-- And invoke the compiler using GNAT.Expect
Display_Command
(Compiler_Names (Source.Language).all,
Compiler_Paths (Source.Language));
begin
Non_Blocking_Spawn
(FD,
Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Buffer_Size => 0,
Err_To_Out => True);
declare
Dep_File : Ada.Text_IO.File_Type;
Result : Expect_Match;
Status : Integer;
begin
-- Create the dependency file
Create (Dep_File, Out_File, Get_Name_String (Source.Dep_Name));
loop
Expect (FD, Result, Line_Matcher);
exit when Result = Expect_Timeout;
declare
S : constant String := Strip_CR_LF (Expect_Out (FD));
begin
-- Each line of the output is put in the dependency
-- file, including errors. If there are errors, the
-- syntax of the dependency file will be incorrect and
-- recompilation will occur automatically the next time
-- the dependencies are checked.
Put_Line (Dep_File, S);
end;
end loop;
-- If we are here, it means we had a timeout, so the
-- dependency file may be incomplete. It is safer to
-- delete it, otherwise the dependencies may be wrong.
Close (FD, Status);
Close (Dep_File);
Delete_File (Get_Name_String (Source.Dep_Name), Success);
exception
when Process_Died =>
-- This is the normal outcome. Just close the file
Close (FD, Status);
Close (Dep_File);
when others =>
-- Something wrong happened. It is safer to delete the
-- dependency file, otherwise the dependencies may be wrong.
Close (FD, Status);
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
exception
-- If we cannot spawn the compiler, then the dependencies are
-- not updated. It is safer then to delete the dependency file,
-- otherwise the dependencies may be wrong.
when Invalid_Process =>
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
end if;
Last_Argument := 0;
-- For GCC compilers, make sure the language is always specified to
-- to the GCC driver, in case the extension is not recognized by the
-- GCC driver as a source of the language.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument (Dash_x, Verbose_Mode);
Add_Argument
(Get_Name_String (Language_Names.Table (Source.Language)),
Verbose_Mode);
end if;
Add_Argument (Dash_c, True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Specify the source to be compiled
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- If non static library project, compile with the PIC option if there
-- is one (when there is no PIC option, function MLib.Tgt.PIC_Option
-- returns an empty string, and Add_Argument with an empty string has
-- no effect).
if Data.Library and then Data.Library_Kind /= Static then
Add_Argument (PIC_Option, True);
end if;
-- Indicate the name of the object
Add_Argument (Dash_o, True);
Add_Argument (Get_Name_String (Source.Object_Name), True);
-- When compiler is GCC, use the magic switch that creates
-- the dependency file in the correct format.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument
("-Wp,-MD," & Get_Name_String (Source.Dep_Name),
Verbose_Mode);
end if;
-- Add the compiling switches for the language specified
-- on the command line, if any.
for J in 1 .. Comp_Opts.Last (Options (Source.Language)) loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add the imported directory switches for this
-- project file (or, for gcc compilers, set up the CPATH env var
-- if needed).
Add_Search_Directories (Data, Source.Language);
-- Set CPATH, if compiler is GCC
if Compiler_Is_Gcc (Source.Language) then
CPATH := Current_Include_Paths (Source.Language);
end if;
-- And invoke the compiler
Display_Command
(Name => Compiler_Names (Source.Language).all,
Path => Compiler_Paths (Source.Language),
CPATH => CPATH);
Spawn
(Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Success);
-- Case of successful compilation
if Success then
-- Update the time stamp of the object file
Source.Object_TS := File_Stamp (Source.Object_Name);
-- Do some sanity checks
if Source.Object_TS = Empty_Time_Stamp then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been created");
elsif Source.Object_TS < Source.Source_TS then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been modified");
else
-- Everything looks fine, update the Other_Sources table
Project_Tree.Other_Sources.Table (Source_Id) := Source;
end if;
-- Compilation failed
else
Local_Errors := True;
Report_Error
("compilation of ",
Get_Name_String (Source.Path_Name),
" failed");
end if;
end Compile;
--------------------------------
-- Compile_Individual_Sources --
--------------------------------
procedure Compile_Individual_Sources is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Source_Name : Name_Id;
Project_Name : String := Get_Name_String (Data.Name);
Dummy : Boolean := False;
Ada_Is_A_Language : constant Boolean :=
Data.Languages (Ada_Language_Index);
begin
Ada_Mains.Init;
To_Mixed (Project_Name);
Compile_Only := True;
Get_Imported_Directories (Main_Project, Data);
Project_Tree.Projects.Table (Main_Project) := Data;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Data.Other_Sources_Present then
if Ada_Is_A_Language then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
end;
end loop;
else
Osint.Fail
("project ", Project_Name, " contains no source");
end if;
else
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
Name_Len := Main'Length;
exit when Name_Len = 0;
Name_Buffer (1 .. Name_Len) := Main;
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Source_Name := Name_Find;
if not Sources_Compiled.Get (Source_Name) then
Sources_Compiled.Set (Source_Name, True);
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Source_Name;
Source_Id := Source.Next;
end loop;
if Source_Id = No_Other_Source then
if Ada_Is_A_Language then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
else
Report_Error
(Main,
" is not a valid source of project ",
Project_Name);
end if;
else
Compile (Source_Id, Data, Dummy);
end if;
end if;
end;
end loop;
end if;
if Ada_Mains.Last > 0 then
-- Invoke gnatmake for all Ada sources
Last_Argument := 0;
Add_Argument (Dash_u, True);
for Index in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Index), True);
end loop;
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
end Compile_Individual_Sources;
--------------------------------
-- Compile_Link_With_Gnatmake --
--------------------------------
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Success : Boolean;
begin
-- Array Arguments may already contain some arguments, so we don't
-- set Last_Argument to 0.
-- Get the gnatmake to invoke
Get_Compiler (Ada_Language_Index);
-- Specify the project file
Add_Argument (Dash_P, True);
Add_Argument (Get_Name_String (Data.Path_Name), True);
-- Add the -X switches, if any
for Index in 1 .. X_Switches.Last loop
Add_Argument (X_Switches.Table (Index), True);
end loop;
-- If Mains_Specified is True, find the mains in package Mains
if Mains_Specified then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Add_Argument (Main, True);
end;
end loop;
end if;
-- Specify output file name, if any was specified on the command line
if Output_File_Name /= null then
Add_Argument (Dash_o, True);
Add_Argument (Output_File_Name, True);
end if;
-- Transmit some switches to gnatmake
-- -c
if Compile_Only then
Add_Argument (Dash_c, True);
end if;
-- -d
if Display_Compilation_Progress then
Add_Argument (Dash_d, True);
end if;
-- -k
if Keep_Going then
Add_Argument (Dash_k, True);
end if;
-- -f
if Force_Compilations then
Add_Argument (Dash_f, True);
end if;
-- -v
if Verbose_Mode then
Add_Argument (Dash_v, True);
end if;
-- -q
if Quiet_Output then
Add_Argument (Dash_q, True);
end if;
-- -vP1 and -vP2
case Current_Verbosity is
when Default =>
null;
when Medium =>
Add_Argument (Dash_vP1, True);
when High =>
Add_Argument (Dash_vP2, True);
end case;
-- If there are compiling options for Ada, transmit them to gnatmake
if Comp_Opts.Last (Options (Ada_Language_Index)) /= 0 then
Add_Argument (Dash_cargs, True);
for Arg in 1 .. Comp_Opts.Last (Options (Ada_Language_Index)) loop
Add_Argument (Options (Ada_Language_Index).Table (Arg), True);
end loop;
end if;
if not Compile_Only then
-- Linking options
if Linker_Options.Last /= 0 then
Add_Argument (Dash_largs, True);
else
Add_Argument (Dash_largs, Verbose_Mode);
end if;
-- Add the archives
Add_Archives (For_Gnatmake => True);
-- If there are linking options from the command line,
-- transmit them to gnatmake.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
end if;
-- And invoke gnatmake
Display_Command
(Compiler_Names (Ada_Language_Index).all,
Compiler_Paths (Ada_Language_Index));
Spawn
(Compiler_Paths (Ada_Language_Index).all,
Arguments (1 .. Last_Argument),
Success);
-- Report an error if call to gnatmake failed
if not Success then
Report_Error
("invocation of ",
Compiler_Names (Ada_Language_Index).all,
" failed");
end if;
end Compile_Link_With_Gnatmake;
---------------------
-- Compile_Sources --
---------------------
procedure Compile_Sources is
Data : Project_Data;
Source_Id : Other_Source_Id;
Source : Other_Source;
Local_Errors : Boolean := False;
-- Set to True when there is a compilation error. Used only when
-- Keep_Going is True, to inhibit the building of the archive.
Need_To_Compile : Boolean;
-- Set to True when a source needs to be compiled/recompiled
Need_To_Rebuild_Archive : Boolean := Force_Compilations;
-- True when the archive needs to be built/rebuilt unconditionally
Total_Number_Of_Sources : Int := 0;
Current_Source_Number : Int := 0;
begin
-- First, get the number of sources
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Project);
if (not Data.Virtual) and then Data.Other_Sources_Present then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Total_Number_Of_Sources := Total_Number_Of_Sources + 1;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- Loop through project files
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Errors := False;
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do when no sources of language other than Ada
if (not Data.Virtual) and then Data.Other_Sources_Present then
-- If the imported directory switches are unknown, compute them
if not Data.Include_Data_Set then
Get_Imported_Directories (Project, Data);
Data.Include_Data_Set := True;
Project_Tree.Projects.Table (Project) := Data;
end if;
Need_To_Rebuild_Archive := Force_Compilations;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
Source_Id := Data.First_Other_Source;
-- Process each source one by one
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Current_Source_Number := Current_Source_Number + 1;
Need_To_Compile := Force_Compilations;
-- Check if compilation is needed
if not Need_To_Compile then
Check_Compilation_Needed (Source, Need_To_Compile);
end if;
-- Proceed, if compilation is needed
if Need_To_Compile then
-- If a source is compiled/recompiled, of course the
-- archive will need to be built/rebuilt.
Need_To_Rebuild_Archive := True;
Compile (Source_Id, Data, Local_Errors);
end if;
if Display_Compilation_Progress then
Write_Str ("completed ");
Write_Int (Current_Source_Number);
Write_Str (" out of ");
Write_Int (Total_Number_Of_Sources);
Write_Str (" (");
Write_Int
((Current_Source_Number * 100) / Total_Number_Of_Sources);
Write_Str ("%)...");
Write_Eol;
end if;
-- Next source, if any
Source_Id := Source.Next;
end loop;
if Need_To_Rebuild_Archive and then (not Data.Library) then
Need_To_Rebuild_Global_Archive := True;
end if;
-- If there was no compilation error and -c was not used,
-- build / rebuild the archive if necessary.
if not Local_Errors
and then Data.Library
and then not Data.Languages (Ada_Language_Index)
and then not Compile_Only
then
Build_Library (Project, Need_To_Rebuild_Archive);
end if;
end if;
end loop;
end Compile_Sources;
---------------
-- Copyright --
---------------
procedure Copyright is
begin
-- Only output the Copyright notice once
if not Copyright_Output then
Copyright_Output := True;
Write_Eol;
Write_Str ("GPRMAKE ");
Write_Str (Gnatvsn.Gnat_Version_String);
Write_Str (" Copyright 2004 Free Software Foundation, Inc.");
Write_Eol;
end if;
end Copyright;
------------------------------------
-- Create_Archive_Dependency_File --
------------------------------------
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id)
is
Source_Id : Other_Source_Id := First_Source;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Put_Line (Dep_File, Get_Name_String (Source.Object_Name));
Put_Line (Dep_File, String (Source.Object_TS));
Source_Id := Source.Next;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Archive_Dependency_File;
-------------------------------------------
-- Create_Global_Archive_Dependency_File --
-------------------------------------------
procedure Create_Global_Archive_Dependency_File (Name : String) is
Source_Id : Other_Source_Id;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
-- Get all the object files of non-Ada sources in non-library projects
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if not Project_Tree.Projects.Table (Project).Library then
Source_Id :=
Project_Tree.Projects.Table (Project).First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
-- Put only those object files that are in the global archive
if Is_Included_In_Global_Archive
(Source.Object_Name, Project)
then
Put_Line (Dep_File, Get_Name_String (Source.Object_Path));
Put_Line (Dep_File, String (Source.Object_TS));
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Global_Archive_Dependency_File;
---------------------
-- Display_Command --
---------------------
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null)
is
begin
-- Only display the command in Verbose Mode (-v) or when
-- not in Quiet Output (no -q).
if Verbose_Mode or (not Quiet_Output) then
-- In Verbose Mode output the full path of the spawned process
if Verbose_Mode then
if CPATH /= null then
Write_Str ("CPATH = ");
Write_Line (CPATH.all);
end if;
Write_Str (Path.all);
else
Write_Str (Name);
end if;
-- Display only the arguments for which the display flag is set
-- (in Verbose Mode, the display flag is set for all arguments)
for Arg in 1 .. Last_Argument loop
if Arguments_Displayed (Arg) then
Write_Char (' ');
Write_Str (Arguments (Arg).all);
end if;
end loop;
Write_Eol;
end if;
end Display_Command;
------------------
-- Get_Compiler --
------------------
procedure Get_Compiler (For_Language : First_Language_Indexes) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Ide : constant Package_Id :=
Value_Of
(Name_Ide,
In_Packages => Data.Decl.Packages,
In_Tree => Project_Tree);
-- The id of the package IDE in the project file
Compiler : constant Variable_Value :=
Value_Of
(Name => Language_Names.Table (For_Language),
Index => 0,
Attribute_Or_Array_Name => Name_Compiler_Command,
In_Package => Ide,
In_Tree => Project_Tree);
-- The value of Compiler_Command ("language") in package IDE, if defined
begin
-- No need to do it again if the compiler is known for this language
if Compiler_Names (For_Language) = null then
-- If compiler command is not defined for this language in package
-- IDE, use the default compiler for this language.
if Compiler = Nil_Variable_Value then
if For_Language in Default_Compiler_Names'Range then
Compiler_Names (For_Language) :=
Default_Compiler_Names (For_Language);
else
Osint.Fail
("unknow compiler name for language """,
Get_Name_String (Language_Names.Table (For_Language)),
"""");
end if;
else
Compiler_Names (For_Language) :=
new String'(Get_Name_String (Compiler.Value));
end if;
-- Check we have a GCC compiler (name ends with "gcc" or "g++")
declare
Comp_Name : constant String := Compiler_Names (For_Language).all;
Last3 : String (1 .. 3);
begin
if Comp_Name'Length >= 3 then
Last3 := Comp_Name (Comp_Name'Last - 2 .. Comp_Name'Last);
Compiler_Is_Gcc (For_Language) :=
(Last3 = "gcc") or (Last3 = "g++");
else
Compiler_Is_Gcc (For_Language) := False;
end if;
end;
-- Locate the compiler on the path
Compiler_Paths (For_Language) :=
Locate_Exec_On_Path (Compiler_Names (For_Language).all);
-- Fail if compiler cannot be found
if Compiler_Paths (For_Language) = null then
if For_Language = Ada_Language_Index then
Osint.Fail
("unable to locate """,
Compiler_Names (For_Language).all,
"""");
else
Osint.Fail
("unable to locate " &
Get_Name_String (Language_Names.Table (For_Language)),
" compiler """, Compiler_Names (For_Language).all & '"');
end if;
end if;
end if;
end Get_Compiler;
------------------------------
-- Get_Imported_Directories --
------------------------------
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data)
is
Imported_Projects : Project_List := Data.Imported_Projects;
Path_Length : Natural := 0;
Position : Natural := 0;
procedure Add (Source_Dirs : String_List_Id);
-- Add a list of source directories
procedure Recursive_Get_Dirs (Prj : Project_Id);
-- Recursive procedure to get the source directories of this project
-- file and of the project files it imports, in the correct order.
---------
-- Add --
---------
procedure Add (Source_Dirs : String_List_Id) is
Element_Id : String_List_Id := Source_Dirs;
Element : String_Element;
Add_Arg : Boolean := True;
begin
-- Add each source directory path name, preceded by "-I" to Arguments
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table (Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if Name_Len > 0 then
-- Remove a trailing directory separator: this may cause
-- problems on Windows.
if Name_Len > 1
and then Name_Buffer (Name_Len) = Directory_Separator
then
Name_Len := Name_Len - 1;
end if;
declare
Arg : constant String :=
"-I" & Name_Buffer (1 .. Name_Len);
begin
-- Check if directory is already in the list.
-- If it is, no need to put it again.
for Index in 1 .. Last_Argument loop
if Arguments (Index).all = Arg then
Add_Arg := False;
exit;
end if;
end loop;
if Add_Arg then
if Path_Length /= 0 then
Path_Length := Path_Length + 1;
end if;
Path_Length := Path_Length + Name_Len;
Add_Argument (Arg, True);
end if;
end;
end if;
end if;
Element_Id := Element.Next;
end loop;
end Add;
------------------------
-- Recursive_Get_Dirs --
------------------------
procedure Recursive_Get_Dirs (Prj : Project_Id) is
Data : Project_Data;
Imported : Project_List;
begin
-- Nothing to do if project is undefined
if Prj /= No_Project then
Data := Project_Tree.Projects.Table (Prj);
-- Nothing to do if project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid multiple processing
-- of the same project.
Project_Tree.Projects.Table (Prj).Seen := True;
-- Add the source directories of this project
if not Data.Virtual then
Add (Data.Source_Dirs);
end if;
Recursive_Get_Dirs (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself for all imported projects, if any
while Imported /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported).Project);
Imported :=
Project_Tree.Project_Lists.Table (Imported).Next;
end loop;
end if;
end if;
end Recursive_Get_Dirs;
-- Start of processing for Get_Imported_Directories
begin
-- First, mark all project as not processed
for J in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (J).Seen := False;
end loop;
-- Empty Arguments
Last_Argument := 0;
-- Process this project individually, project data are already known
Project_Tree.Projects.Table (Project).Seen := True;
Add (Data.Source_Dirs);
Recursive_Get_Dirs (Data.Extends);
while Imported_Projects /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported_Projects).Project);
Imported_Projects := Project_Tree.Project_Lists.Table
(Imported_Projects).Next;
end loop;
Data.Imported_Directories_Switches :=
new Argument_List'(Arguments (1 .. Last_Argument));
-- Create the Include_Path, from the Arguments
Data.Include_Path := new String (1 .. Path_Length);
Data.Include_Path (1 .. Arguments (1)'Length - 2) :=
Arguments (1)(Arguments (1)'First + 2 .. Arguments (1)'Last);
Position := Arguments (1)'Length - 2;
for Arg in 2 .. Last_Argument loop
Position := Position + 1;
Data.Include_Path (Position) := Path_Separator;
Data.Include_Path
(Position + 1 .. Position + Arguments (Arg)'Length - 2) :=
Arguments (Arg)(Arguments (Arg)'First + 2 .. Arguments (Arg)'Last);
Position := Position + Arguments (Arg)'Length - 2;
end loop;
Last_Argument := 0;
end Get_Imported_Directories;
-------------
-- Gprmake --
-------------
procedure Gprmake is
begin
Makegpr.Initialize;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""".");
Write_Eol;
end if;
-- Parse and process project files for other languages (not for Ada)
Prj.Pars.Parse
(Project => Main_Project,
In_Tree => Project_Tree,
Project_File_Name => Project_File_Name.all,
Packages_To_Check => Packages_To_Check);
-- Fail if parsing/processing was unsuccessful
if Main_Project = No_Project then
Osint.Fail ("""", Project_File_Name.all, """ processing failed");
end if;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing of Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""" is finished.");
Write_Eol;
end if;
-- If -f was specified, we will certainly need to link (except when
-- -u or -c were specified, of course).
Need_To_Relink := Force_Compilations;
if Unique_Compile then
if Mains.Number_Of_Mains = 0 then
Osint.Fail
("No source specified to compile in 'unique compile' mode");
else
Compile_Individual_Sources;
Report_Total_Errors ("compilation");
end if;
else
declare
Data : constant Prj.Project_Data :=
Project_Tree.Projects.Table (Main_Project);
begin
if Data.Library and then Mains.Number_Of_Mains /= 0 then
Osint.Fail
("Cannot specify mains on the command line " &
"for a Library Project");
end if;
-- First check for C++, to link libraries with g++,
-- rather than gcc.
Check_For_C_Plus_Plus;
-- Compile sources and build archives for library project,
-- if necessary.
Compile_Sources;
-- When Keep_Going is True, if we had some errors, fail now,
-- reporting the number of compilation errors.
-- Do not attempt to link.
Report_Total_Errors ("compilation");
-- If -c was not specified, link the executables,
-- if there are any.
if not Compile_Only
and then not Data.Library
and then Data.Object_Directory /= No_Name
then
Build_Global_Archive;
Link_Executables;
end if;
-- When Keep_Going is True, if we had some errors, fail, reporting
-- the number of linking errors.
Report_Total_Errors ("linking");
end;
end if;
end Gprmake;
----------------
-- Initialize --
----------------
procedure Initialize is
begin
-- Do some necessary package initializations
Csets.Initialize;
Namet.Initialize;
Snames.Initialize;
Prj.Initialize (Project_Tree);
Mains.Delete;
-- Set Name_Ide and Name_Compiler_Command
Name_Len := 0;
Add_Str_To_Name_Buffer ("ide");
Name_Ide := Name_Find;
Name_Len := 0;
Add_Str_To_Name_Buffer ("compiler_command");
Name_Compiler_Command := Name_Find;
-- Make sure the -X switch table is empty
X_Switches.Set_Last (0);
-- Get the command line arguments
Scan_Args : for Next_Arg in 1 .. Argument_Count loop
Scan_Arg (Argument (Next_Arg));
end loop Scan_Args;
-- Fail if command line ended with "-P"
if Project_File_Name_Expected then
Osint.Fail ("project file name missing after -P");
-- Or if it ended with "-o"
elsif Output_File_Name_Expected then
Osint.Fail ("output file name missing after -o");
end if;
-- If no project file was specified, display the usage and fail
if Project_File_Name = null then
Usage;
Exit_Program (E_Success);
end if;
-- To be able of finding libgnat.a in MLib.Tgt, we need to have the
-- default search dirs established in Osint.
Osint.Add_Default_Search_Dirs;
end Initialize;
-----------------------------------
-- Is_Included_In_Global_Archive --
-----------------------------------
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean
is
Data : Project_Data := Project_Tree.Projects.Table (Project);
Source : Other_Source_Id;
begin
while Data.Extended_By /= No_Project loop
Data := Project_Tree.Projects.Table (Data.Extended_By);
Source := Data.First_Other_Source;
while Source /= No_Other_Source loop
if Project_Tree.Other_Sources.Table (Source).Object_Name =
Object_Name
then
return False;
else
Source :=
Project_Tree.Other_Sources.Table (Source).Next;
end if;
end loop;
end loop;
return True;
end Is_Included_In_Global_Archive;
----------------------
-- Link_Executables --
----------------------
procedure Link_Executables is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Mains_Specified : constant Boolean := Mains.Number_Of_Mains /= 0;
-- True if main sources were specified on the command line
Object_Dir : constant String := Get_Name_String (Data.Object_Directory);
-- Path of the object directory of the main project
Source_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Linker_Name : String_Access;
Linker_Path : String_Access;
-- The linker name and path, when linking is not done by gnatlink
Link_Done : Boolean := False;
-- Set to True when the linker is invoked directly (not through
-- gnatmake) to be able to report if mains were up to date at the end
-- of execution.
procedure Add_C_Plus_Plus_Link_For_Gnatmake;
-- Add the --LINK= switch for gnatlink, depending on the C++ compiler
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type);
-- Check if there is an archive that is more recent than the executable
-- to decide if we need to relink.
procedure Choose_C_Plus_Plus_Link_Process;
-- If the C++ compiler is not g++, create the correct script to link
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source);
-- Link a non-Ada main, when there is no Ada code
---------------------------------------
-- Add_C_Plus_Plus_Link_For_Gnatmake --
---------------------------------------
procedure Add_C_Plus_Plus_Link_For_Gnatmake is
begin
Add_Argument
("--LINK=" & Compiler_Names (C_Plus_Plus_Language_Index).all,
Verbose_Mode);
end Add_C_Plus_Plus_Link_For_Gnatmake;
-----------------------
-- Check_Time_Stamps --
-----------------------
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type) is
Prj_Data : Project_Data;
begin
for Prj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Prj_Data := Project_Tree.Projects.Table (Prj);
-- There is an archive only in project
-- files with sources other than Ada
-- sources.
if Data.Other_Sources_Present then
declare
Archive_Path : constant String :=
Get_Name_String
(Prj_Data.Object_Directory) &
Directory_Separator &
"lib" &
Get_Name_String (Prj_Data.Name) &
'.' & Archive_Ext;
Archive_TS : Time_Stamp_Type;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer
(Archive_Path);
Archive_TS := File_Stamp (Name_Find);
-- If the archive is later than the
-- executable, we need to relink.
if Archive_TS /= Empty_Time_Stamp
and then
Exec_Time_Stamp < Archive_TS
then
Need_To_Relink := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Archive_Path);
Write_Str (" has time stamp ");
Write_Str ("later than ");
Write_Line ("executable");
end if;
exit;
end if;
end;
end if;
end loop;
end Check_Time_Stamps;
-------------------------------------
-- Choose_C_Plus_Plus_Link_Process --
-------------------------------------
procedure Choose_C_Plus_Plus_Link_Process is
begin
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
end Choose_C_Plus_Plus_Link_Process;
------------------
-- Link_Foreign --
------------------
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source)
is
Executable_Name : constant String :=
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False));
-- File name of the executable
Executable_Path : constant String :=
Get_Name_String
(Data.Exec_Directory) &
Directory_Separator &
Executable_Name;
-- Path name of the executable
Exec_Time_Stamp : Time_Stamp_Type;
begin
-- Now, check if the executable is up to date. It is considered
-- up to date if its time stamp is not earlier that the time stamp
-- of any archive. Only do that if we don't know if we need to link.
if not Need_To_Relink then
-- Get the time stamp of the executable
Name_Len := 0;
Add_Str_To_Name_Buffer (Executable_Path);
Exec_Time_Stamp := File_Stamp (Name_Find);
if Verbose_Mode then
Write_Str (" Checking executable ");
Write_Line (Executable_Name);
end if;
-- If executable does not exist, we need to link
if Exec_Time_Stamp = Empty_Time_Stamp then
Need_To_Relink := True;
if Verbose_Mode then
Write_Line (" -> not found");
end if;
-- Otherwise, get the time stamps of each archive. If one of
-- them is found later than the executable, we need to relink.
else
Check_Time_Stamps (Exec_Time_Stamp);
end if;
-- If Need_To_Relink is False, we are done
if Verbose_Mode and (not Need_To_Relink) then
Write_Line (" -> up to date");
end if;
end if;
-- Prepare to link
if Need_To_Relink then
Link_Done := True;
Last_Argument := 0;
-- Specify the executable path name
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String (Data.Exec_Directory) &
Directory_Separator &
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)),
True);
-- Specify the object file of the main source
Add_Argument
(Object_Dir & Directory_Separator &
Get_Name_String (Source.Object_Name),
True);
-- Add all the archives, in a correct order
Add_Archives (For_Gnatmake => False);
-- Add the switches specified in package Linker of
-- the main project.
Add_Switches
(Data => Data,
Proc => Linker,
Language => Source.Language,
File_Name => Main_Id);
-- Add the switches specified in attribute
-- Linker_Options of packages Linker.
if Link_Options_Switches = null then
Link_Options_Switches :=
new Argument_List'
(Linker_Options_Switches (Main_Project, Project_Tree));
end if;
Add_Arguments (Link_Options_Switches.all, True);
-- Add the linking options specified on the
-- command line.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
-- If there are shared libraries and the run path
-- option is supported, add the run path switch.
if Lib_Path.Last > 0 then
Add_Argument
(Path_Option.all &
String (Lib_Path.Table (1 .. Lib_Path.Last)),
Verbose_Mode);
end if;
-- And invoke the linker
Display_Command (Linker_Name.all, Linker_Path);
Spawn
(Linker_Path.all,
Arguments (1 .. Last_Argument),
Success);
if not Success then
Report_Error ("could not link ", Main);
end if;
end if;
end Link_Foreign;
-- Start of processing of Link_Executables
begin
-- If no mains specified, get mains from attribute Main, if it exists
if not Mains_Specified then
declare
Element_Id : String_List_Id := Data.Mains;
Element : String_Element;
begin
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Mains.Add_Main (Get_Name_String (Element.Value));
end if;
Element_Id := Element.Next;
end loop;
end;
end if;
if Mains.Number_Of_Mains = 0 then
-- If the attribute Main is an empty list or not specified,
-- there is nothing to do.
if Verbose_Mode then
Write_Line ("No main to link");
end if;
return;
end if;
-- Check if -o was used for several mains
if Output_File_Name /= null and then Mains.Number_Of_Mains > 1 then
Osint.Fail ("cannot specify an executable name for several mains");
end if;
-- Check how we are going to do the link
if not Data.Other_Sources_Present then
-- Only Ada sources in the main project, and even maybe not
if not Data.Languages (Ada_Language_Index) then
-- Fail if the main project has no source of any language
Osint.Fail
("project """,
Get_Name_String (Data.Name),
""" has no sources, so no main can be linked");
else
-- Only Ada sources in the main project, call gnatmake directly
Last_Argument := 0;
-- Choose correct linker if there is C++ code in other projects
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
Compile_Link_With_Gnatmake (Mains_Specified);
end if;
else
-- There are other language sources. First check if there are also
-- sources in Ada.
if Data.Languages (Ada_Language_Index) then
-- There is a mix of Ada and other language sources in the main
-- project. Any main that is not a source of the other languages
-- will be deemed to be an Ada main.
-- Find the mains of the other languages and the Ada mains
Mains.Reset;
Ada_Mains.Set_Last (0);
Other_Mains.Set_Last (0);
-- For each main
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the main file name
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of a language other than Ada
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- If it is not, put it in the list of Ada mains
if Source_Id = No_Other_Source then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
-- Otherwise, put it in the list of other mains
else
Other_Mains.Increment_Last;
Other_Mains.Table (Other_Mains.Last) := Source;
end if;
end;
end loop;
-- If C++ is one of the other language, create the shell script
-- to do the link.
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
end if;
-- Call gnatmake with the necessary switches for each non-Ada
-- main, if there are some.
for Main in 1 .. Other_Mains.Last loop
declare
Source : constant Other_Source := Other_Mains.Table (Main);
begin
Last_Argument := 0;
-- Add -o if -o was specified
if Output_File_Name = null then
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Other_Mains.Table (Main).File_Name,
Index => 0,
Ada_Main => False)),
True);
end if;
-- Call gnatmake with the -B switch
Add_Argument (Dash_B, True);
-- Add to the linking options the object file of the source
Add_Argument (Dash_largs, Verbose_Mode);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
-- If C++ is one of the language, add the --LINK switch
-- to the linking switches.
if C_Plus_Plus_Is_Used then
Add_C_Plus_Plus_Link_For_Gnatmake;
end if;
-- Add -margs so that the following switches are for
-- gnatmake
Add_Argument (Dash_margs, Verbose_Mode);
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end;
end loop;
-- If there are also Ada mains, call gnatmake for all these mains
if Ada_Mains.Last /= 0 then
Last_Argument := 0;
-- Put all the Ada mains as the first arguments
for Main in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Main).all, True);
end loop;
-- If C++ is one of the languages, add the --LINK switch to
-- the linking switches.
if Data.Languages (C_Plus_Plus_Language_Index) then
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
else
-- No Ada source in main project
-- First, get the linker to invoke
if Data.Languages (C_Plus_Plus_Language_Index) then
Get_Compiler (C_Plus_Plus_Language_Index);
Linker_Name := Compiler_Names (C_Plus_Plus_Language_Index);
Linker_Path := Compiler_Paths (C_Plus_Plus_Language_Index);
else
Get_Compiler (C_Language_Index);
Linker_Name := Compiler_Names (C_Language_Index);
Linker_Path := Compiler_Paths (C_Language_Index);
end if;
Link_Done := False;
Mains.Reset;
-- Get each main, check if it is a source of the main project,
-- and if it is, invoke the linker.
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the file name of the main
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of the main project file
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- Report an error if it is not
if Source_Id = No_Other_Source then
Report_Error
(Main, "is not a source of project ",
Get_Name_String (Data.Name));
else
Link_Foreign (Main, Main_Id, Source);
end if;
end;
end loop;
-- If no linking was done, report it, except in Quiet Output
if (Verbose_Mode or (not Quiet_Output)) and (not Link_Done) then
Osint.Write_Program_Name;
if Mains.Number_Of_Mains = 1 then
-- If there is only one executable, report its name too
Write_Str (": """);
Mains.Reset;
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Main_Id := Name_Find;
Write_Str
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)));
Write_Line (""" up to date");
end;
else
Write_Line (": all executables up to date");
end if;
end if;
end if;
end if;
end Link_Executables;
------------------
-- Report_Error --
------------------
procedure Report_Error
(S1 : String;
S2 : String := "";
S3 : String := "")
is
begin
-- If Keep_Going is True, output error message preceded by error header
if Keep_Going then
Total_Number_Of_Errors := Total_Number_Of_Errors + 1;
Write_Str (Error_Header);
Write_Str (S1);
Write_Str (S2);
Write_Str (S3);
Write_Eol;
-- Otherwise just fail
else
Osint.Fail (S1, S2, S3);
end if;
end Report_Error;
-------------------------
-- Report_Total_Errors --
-------------------------
procedure Report_Total_Errors (Kind : String) is
begin
if Total_Number_Of_Errors /= 0 then
if Total_Number_Of_Errors = 1 then
Osint.Fail
("One ", Kind, " error");
else
Osint.Fail
("Total of" & Total_Number_Of_Errors'Img,
' ' & Kind & " errors");
end if;
end if;
end Report_Total_Errors;
--------------
-- Scan_Arg --
--------------
procedure Scan_Arg (Arg : String) is
begin
pragma Assert (Arg'First = 1);
if Arg'Length = 0 then
return;
end if;
-- If preceding switch was -P, a project file name need to be
-- specified, not a switch.
if Project_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("project file name missing after -P");
else
Project_File_Name_Expected := False;
Project_File_Name := new String'(Arg);
end if;
-- If preceding switch was -o, an executable name need to be
-- specified, not a switch.
elsif Output_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("output file name missing after -o");
else
Output_File_Name_Expected := False;
Output_File_Name := new String'(Arg);
end if;
-- Set the processor/language for the following switches
-- -cargs: Ada compiler arguments
elsif Arg = "-cargs" then
Current_Language := Ada_Language_Index;
Current_Processor := Compiler;
elsif Arg'Length > 7 and then Arg (1 .. 7) = "-cargs:" then
Name_Len := 0;
Add_Str_To_Name_Buffer (Arg (8 .. Arg'Last));
To_Lower (Name_Buffer (1 .. Name_Len));
declare
Lang : constant Name_Id := Name_Find;
begin
Current_Language := Language_Indexes.Get (Lang);
if Current_Language = No_Language_Index then
Add_Language_Name (Lang);
Current_Language := Last_Language_Index;
end if;
Current_Processor := Compiler;
end;
elsif Arg = "-largs" then
Current_Processor := Linker;
-- -gargs: gprmake
elsif Arg = "-gargs" then
Current_Processor := None;
-- A special test is needed for the -o switch within a -largs since
-- that is another way to specify the name of the final executable.
elsif Current_Processor = Linker and then Arg = "-o" then
Osint.Fail
("switch -o not allowed within a -largs. Use -o directly.");
-- If current processor is not gprmake directly, store the option in
-- the appropriate table.
elsif Current_Processor /= None then
Add_Option (Arg);
-- Switches start with '-'
elsif Arg (1) = '-' then
if Arg = "-c" then
Compile_Only := True;
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Mains.Number_Of_Mains > 0 then
Unique_Compile := True;
end if;
elsif Arg = "-d" then
Display_Compilation_Progress := True;
elsif Arg = "-f" then
Force_Compilations := True;
elsif Arg = "-h" then
Usage;
elsif Arg = "-k" then
Keep_Going := True;
elsif Arg = "-o" then
if Output_File_Name /= null then
Osint.Fail ("cannot specify several -o switches");
else
Output_File_Name_Expected := True;
end if;
elsif Arg'Length >= 2 and then Arg (2) = 'P' then
if Project_File_Name /= null then
Osint.Fail ("cannot have several project files specified");
elsif Arg'Length = 2 then
Project_File_Name_Expected := True;
else
Project_File_Name := new String'(Arg (3 .. Arg'Last));
end if;
elsif Arg = "-q" then
Quiet_Output := True;
elsif Arg = "-u" then
Unique_Compile := True;
Compile_Only := True;
elsif Arg = "-v" then
Verbose_Mode := True;
Copyright;
elsif Arg'Length = 4 and then Arg (1 .. 3) = "-vP"
and then Arg (4) in '0' .. '2'
then
case Arg (4) is
when '0' =>
Current_Verbosity := Prj.Default;
when '1' =>
Current_Verbosity := Prj.Medium;
when '2' =>
Current_Verbosity := Prj.High;
when others =>
null;
end case;
elsif Arg'Length >= 3 and then Arg (2) = 'X'
and then Is_External_Assignment (Arg)
then
-- Is_External_Assignment has side effects when it returns True
-- Record the -X switch, so that they can be passed to gnatmake,
-- if gnatmake is called.
X_Switches.Increment_Last;
X_Switches.Table (X_Switches.Last) := new String'(Arg);
else
Osint.Fail ("illegal option """, Arg, """");
end if;
else
-- Not a switch: must be a main
Mains.Add_Main (Arg);
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Compile_Only then
Unique_Compile := True;
end if;
end if;
end Scan_Arg;
-----------------
-- Strip_CR_LF --
-----------------
function Strip_CR_LF (Text : String) return String is
To : String (1 .. Text'Length);
Index_To : Natural := 0;
begin
for Index in Text'Range loop
if (Text (Index) /= ASCII.CR) and then (Text (Index) /= ASCII.LF) then
Index_To := Index_To + 1;
To (Index_To) := Text (Index);
end if;
end loop;
return To (1 .. Index_To);
end Strip_CR_LF;
-----------
-- Usage --
-----------
procedure Usage is
begin
if not Usage_Output then
Usage_Output := True;
Copyright;
Write_Str ("Usage: ");
Osint.Write_Program_Name;
Write_Str (" -P<project file> [opts] [name] {");
for Lang in First_Language_Indexes loop
Write_Str ("[-cargs:lang opts] ");
end loop;
Write_Str ("[-largs opts] [-gargs opts]}");
Write_Eol;
Write_Eol;
Write_Str (" name is zero or more file names");
Write_Eol;
Write_Eol;
-- GPRMAKE switches
Write_Str ("gprmake switches:");
Write_Eol;
-- Line for -c
Write_Str (" -c Compile only");
Write_Eol;
-- Line for -f
Write_Str (" -f Force recompilations");
Write_Eol;
-- Line for -k
Write_Str (" -k Keep going after compilation errors");
Write_Eol;
-- Line for -o
Write_Str (" -o name Choose an alternate executable name");
Write_Eol;
-- Line for -P
Write_Str (" -Pproj Use GNAT Project File proj");
Write_Eol;
-- Line for -q
Write_Str (" -q Be quiet/terse");
Write_Eol;
-- Line for -u
Write_Str
(" -u Unique compilation. Only compile the given files");
Write_Eol;
-- Line for -v
Write_Str (" -v Verbose output");
Write_Eol;
-- Line for -vPx
Write_Str (" -vPx Specify verbosity when parsing Project Files");
Write_Eol;
-- Line for -X
Write_Str (" -Xnm=val Specify an external reference for " &
"Project Files");
Write_Eol;
Write_Eol;
-- Line for -cargs
Write_Line (" -cargs opts opts are passed to the Ada compiler");
-- Line for -cargs:lang
Write_Line (" -cargs:<lang> opts");
Write_Line (" opts are passed to the compiler " &
"for language < lang > ");
-- Line for -largs
Write_Str (" -largs opts opts are passed to the linker");
Write_Eol;
-- Line for -gargs
Write_Str (" -gargs opts opts directly interpreted by gprmake");
Write_Eol;
Write_Eol;
end if;
end Usage;
begin
Makeutl.Do_Fail := Report_Error'Access;
end Makegpr;
| 22180 | ------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- <NAME> --
-- --
-- B o d y --
-- --
-- Copyright (C) 2004-2006, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Ada.Command_Line; use Ada.Command_Line;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Unchecked_Deallocation;
with Csets;
with Gnatvsn;
with GNAT.Directory_Operations; use GNAT.Directory_Operations;
with GNAT.Dynamic_Tables;
with GNAT.Expect; use GNAT.Expect;
with GNAT.HTable;
with GNAT.OS_Lib; use GNAT.OS_Lib;
with GNAT.Regpat; use GNAT.Regpat;
with Makeutl; use Makeutl;
with MLib.Tgt; use MLib.Tgt;
with Namet; use Namet;
with Output; use Output;
with Opt; use Opt;
with Osint; use Osint;
with Prj; use Prj;
with Prj.Pars;
with Prj.Util; use Prj.Util;
with Snames; use Snames;
with System;
with System.Case_Util; use System.Case_Util;
with Table;
with Types; use Types;
package body Makegpr is
Max_In_Archives : constant := 50;
-- The maximum number of arguments for a single invocation of the
-- Archive Indexer (ar).
No_Argument : aliased Argument_List := (1 .. 0 => null);
-- Null argument list representing case of no arguments
FD : Process_Descriptor;
-- The process descriptor used when invoking a non GNU compiler with -M
-- and getting the output with GNAT.Expect.
Line_Matcher : constant Pattern_Matcher := Compile ("^.*?\n", Single_Line);
-- Pattern for GNAT.Expect for the invocation of a non GNU compiler with -M
Name_Ide : Name_Id;
Name_Compiler_Command : Name_Id;
-- Names of package IDE and its attribute Compiler_Command.
-- Set up by Initialize.
Unique_Compile : Boolean := False;
-- True when switch -u is used on the command line
type Source_Index_Rec is record
Project : Project_Id;
Id : Other_Source_Id;
Found : Boolean := False;
end record;
-- Used as Source_Indexes component to check if archive needs to be rebuilt
type Source_Index_Array is array (Positive range <>) of Source_Index_Rec;
type Source_Indexes_Ref is access Source_Index_Array;
procedure Free is new Ada.Unchecked_Deallocation
(Source_Index_Array, Source_Indexes_Ref);
Initial_Source_Index_Count : constant Positive := 20;
Source_Indexes : Source_Indexes_Ref :=
new Source_Index_Array (1 .. Initial_Source_Index_Count);
-- A list of the Other_Source_Ids of a project file, with an indication
-- that they have been found in the archive dependency file.
Last_Source : Natural := 0;
-- The index of the last valid component of Source_Indexes
Compiler_Names : array (First_Language_Indexes) of String_Access;
-- The names of the compilers to be used. Set up by Get_Compiler.
-- Used to display the commands spawned.
Gnatmake_String : constant String_Access := new String'("gnatmake");
GCC_String : constant String_Access := new String'("gcc");
G_Plus_Plus_String : constant String_Access := new String'("g++");
Default_Compiler_Names : constant array
(First_Language_Indexes range
Ada_Language_Index .. C_Plus_Plus_Language_Index)
of String_Access :=
(Ada_Language_Index => Gnatmake_String,
C_Language_Index => GCC_String,
C_Plus_Plus_Language_Index => G_Plus_Plus_String);
Compiler_Paths : array (First_Language_Indexes) of String_Access;
-- The path names of the compiler to be used. Set up by Get_Compiler.
-- Used to spawn compiling/linking processes.
Compiler_Is_Gcc : array (First_Language_Indexes) of Boolean;
-- An indication that a compiler is a GCC compiler, to be able to use
-- specific GCC switches.
Archive_Builder_Path : String_Access := null;
-- The path name of the archive builder (ar). To be used when spawning
-- ar commands.
Archive_Indexer_Path : String_Access := null;
-- The path name of the archive indexer (ranlib), if it exists
Copyright_Output : Boolean := False;
Usage_Output : Boolean := False;
-- Flags to avoid multiple displays of Copyright notice and of Usage
Output_File_Name : String_Access := null;
-- The name given after a switch -o
Output_File_Name_Expected : Boolean := False;
-- True when last switch was -o
Project_File_Name : String_Access := null;
-- The name of the project file specified with switch -P
Project_File_Name_Expected : Boolean := False;
-- True when last switch was -P
Naming_String : aliased String := "naming";
Builder_String : aliased String := "builder";
Compiler_String : aliased String := "compiler";
Binder_String : aliased String := "binder";
Linker_String : aliased String := "linker";
-- Name of packages to be checked when parsing/processing project files
List_Of_Packages : aliased String_List :=
(Naming_String 'Access,
Builder_String 'Access,
Compiler_String 'Access,
Binder_String 'Access,
Linker_String 'Access);
Packages_To_Check : constant String_List_Access := List_Of_Packages'Access;
-- List of the packages to be checked when parsing/processing project files
Project_Tree : constant Project_Tree_Ref := new Project_Tree_Data;
Main_Project : Project_Id;
-- The project id of the main project
type Processor is (None, Linker, Compiler);
Current_Processor : Processor := None;
-- This variable changes when switches -*args are used
Current_Language : Language_Index := Ada_Language_Index;
-- The compiler language to consider when Processor is Compiler
package Comp_Opts is new GNAT.Dynamic_Tables
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100);
Options : array (First_Language_Indexes) of Comp_Opts.Instance;
-- Tables to store compiling options for the different compilers
package Linker_Options is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Linker_Options");
-- Table to store the linking options
package Library_Opts is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Library_Opts");
-- Table to store the linking options
package Ada_Mains is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Ada_Mains");
-- Table to store the Ada mains, either specified on the command line
-- or found in attribute Main of the main project file.
package Other_Mains is new Table.Table
(Table_Component_Type => Other_Source,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Other_Mains");
-- Table to store the mains of languages other than Ada, either specified
-- on the command line or found in attribute Main of the main project file.
package Sources_Compiled is new GNAT.HTable.Simple_HTable
(Header_Num => Header_Num,
Element => Boolean,
No_Element => False,
Key => <NAME>,
Hash => Hash,
Equal => "=");
package X_Switches is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 2,
Table_Increment => 100,
Table_Name => "Makegpr.X_Switches");
-- Table to store the -X switches to be passed to gnatmake
Initial_Argument_Count : constant Positive := 20;
type Boolean_Array is array (Positive range <>) of Boolean;
type Booleans is access Boolean_Array;
procedure Free is new Ada.Unchecked_Deallocation (Boolean_Array, Booleans);
Arguments : Argument_List_Access :=
new Argument_List (1 .. Initial_Argument_Count);
-- Used to store lists of arguments to be used when spawning a process
Arguments_Displayed : Booleans :=
new Boolean_Array (1 .. Initial_Argument_Count);
-- For each argument in Arguments, indicate if the argument should be
-- displayed when procedure Display_Command is called.
Last_Argument : Natural := 0;
-- Index of the last valid argument in Arguments
package Cache_Args is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Cache_Args");
-- A table to cache arguments, to avoid multiple allocation of the same
-- strings. It is not possible to use a hash table, because String is
-- an unconstrained type.
-- Various switches used when spawning processes:
Dash_B_String : aliased String := "-B";
Dash_B : constant String_Access := Dash_B_String'Access;
Dash_c_String : aliased String := "-c";
Dash_c : constant String_Access := Dash_c_String'Access;
Dash_cargs_String : aliased String := "-cargs";
Dash_cargs : constant String_Access := Dash_cargs_String'Access;
Dash_d_String : aliased String := "-d";
Dash_d : constant String_Access := Dash_d_String'Access;
Dash_f_String : aliased String := "-f";
Dash_f : constant String_Access := Dash_f_String'Access;
Dash_k_String : aliased String := "-k";
Dash_k : constant String_Access := Dash_k_String'Access;
Dash_largs_String : aliased String := "-largs";
Dash_largs : constant String_Access := Dash_largs_String'Access;
Dash_M_String : aliased String := "-M";
Dash_M : constant String_Access := Dash_M_String'Access;
Dash_margs_String : aliased String := "-margs";
Dash_margs : constant String_Access := Dash_margs_String'Access;
Dash_o_String : aliased String := "-o";
Dash_o : constant String_Access := Dash_o_String'Access;
Dash_P_String : aliased String := "-P";
Dash_P : constant String_Access := Dash_P_String'Access;
Dash_q_String : aliased String := "-q";
Dash_q : constant String_Access := Dash_q_String'Access;
Dash_u_String : aliased String := "-u";
Dash_u : constant String_Access := Dash_u_String'Access;
Dash_v_String : aliased String := "-v";
Dash_v : constant String_Access := Dash_v_String'Access;
Dash_vP1_String : aliased String := "-vP1";
Dash_vP1 : constant String_Access := Dash_vP1_String'Access;
Dash_vP2_String : aliased String := "-vP2";
Dash_vP2 : constant String_Access := Dash_vP2_String'Access;
Dash_x_String : aliased String := "-x";
Dash_x : constant String_Access := Dash_x_String'Access;
r_String : aliased String := "r";
r : constant String_Access := r_String'Access;
CPATH : constant String := "CPATH";
-- The environment variable to set when compiler is a GCC compiler
-- to indicate the include directory path.
Current_Include_Paths : array (First_Language_Indexes) of String_Access;
-- A cache for the paths of included directories, to avoid setting
-- env var CPATH unnecessarily.
C_Plus_Plus_Is_Used : Boolean := False;
-- True when there are sources in C++
Link_Options_Switches : Argument_List_Access := null;
-- The link options coming from the attributes Linker'Linker_Options in
-- project files imported, directly or indirectly, by the main project.
Total_Number_Of_Errors : Natural := 0;
-- Used when Keep_Going is True (switch -k) to keep the total number
-- of compilation/linking errors, to report at the end of execution.
Need_To_Rebuild_Global_Archive : Boolean := False;
Error_Header : constant String := "*** ERROR: ";
-- The beginning of error message, when Keep_Going is True
Need_To_Relink : Boolean := False;
-- True when an executable of a language other than Ada need to be linked
Global_Archive_Exists : Boolean := False;
-- True if there is a non empty global archive, to prevent creation
-- of such archives.
Path_Option : String_Access;
-- The path option switch, when supported
package Lib_Path is new Table.Table
(Table_Component_Type => Character,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Lib_Path");
-- A table to compute the path to put in the path option switch, when it
-- is supported.
procedure Add_Archives (For_Gnatmake : Boolean);
-- Add to Arguments the list of archives for linking an executable
procedure Add_Argument (Arg : String_Access; Display : Boolean);
procedure Add_Argument (Arg : String; Display : Boolean);
-- Add an argument to Arguments. Reallocate if necessary
procedure Add_Arguments (Args : Argument_List; Display : Boolean);
-- Add a list of arguments to Arguments. Reallocate if necessary
procedure Add_Option (Arg : String);
-- Add a switch for the Ada, C or C++ compiler, or for the linker.
-- The table where this option is stored depends on the values of
-- Current_Processor and Current_Language.
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes);
-- Either add to the Arguments the necessary -I switches needed to
-- compile, or, when compiler is gcc/g++, set up the C*INCLUDE_PATH
-- environment variable, if necessary.
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id);
-- Add a source id to Source_Indexes, with Found set to False
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id);
-- Add to Arguments the switches, if any, for a source (attribute Switches)
-- or language (attribute Default_Switches), coming from package Compiler
-- or Linker (depending on Proc) of a specified project file.
procedure Build_Global_Archive;
-- Build the archive for the main project
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean);
-- Build the library for a library project. If Unconditionally is
-- False, first check if the library is up to date, and build it only
-- if it is not.
procedure Check (Option : String);
-- Check that a switch coming from a project file is not the concatenation
-- of several valid switch, for example "-g -v". If it is, issue a warning.
procedure Check_Archive_Builder;
-- Check if the archive builder (ar) is there
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean);
-- Check if a source of a language other than Ada needs to be compiled or
-- recompiled.
procedure Check_For_C_Plus_Plus;
-- Check if C++ is used in at least one project
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean);
-- Compile one non-Ada source
procedure Compile_Individual_Sources;
-- Compile the sources specified on the command line, when in
-- Unique_Compile mode.
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean);
-- Compile/Link with gnatmake when there are Ada sources in the main
-- project. Arguments may already contain options to be used by
-- gnatmake. Used for both Ada mains and mains of other languages.
-- When Compile_Only is True, do not use the linking options
procedure Compile_Sources;
-- Compile the sources of languages other than Ada, if necessary
procedure Copyright;
-- Output the Copyright notice
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id);
-- Create the archive dependency file for a library project
procedure Create_Global_Archive_Dependency_File (Name : String);
-- Create the archive depenency file for the main project
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null);
-- Display the command for a spawned process, if in Verbose_Mode or
-- not in Quiet_Output.
procedure Get_Compiler (For_Language : First_Language_Indexes);
-- Find the compiler name and path name for a specified programming
-- language, if not already done. Results are in the corresponding
-- elements of arrays Compiler_Names and Compiler_Paths. Name of compiler
-- is found in package IDE of the main project, or defaulted.
-- Fail if compiler cannot be found on the path. For the Ada language,
-- gnatmake, rather than the Ada compiler is returned.
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data);
-- Find the necessary switches -I to be used when compiling sources
-- of languages other than Ada, in a specified project file. Cache the
-- result in component Imported_Directories_Switches of the project data.
-- For gcc/g++ compilers, get the value of the C*_INCLUDE_PATH, instead.
procedure Initialize;
-- Do the necessary package initialization and process the command line
-- arguments.
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean;
-- Return True if the object Object_Name is not overridden by a source
-- in a project extending project Project.
procedure Link_Executables;
-- Link executables
procedure Report_Error (S1 : String; S2 : String := ""; S3 : String := "");
-- Report an error. If Keep_Going is False, just call Osint.Fail.
-- If Keep_Going is True, display the error and increase the total number
-- of errors.
procedure Report_Total_Errors (Kind : String);
-- If Total_Number_Of_Errors is not zero, report it, and fail
procedure Scan_Arg (Arg : String);
-- Process one command line argument
function Strip_CR_LF (Text : String) return String;
-- Remove characters ASCII.CR and ASCII.LF from a String
procedure Usage;
-- Display the usage
------------------
-- Add_Archives --
------------------
procedure Add_Archives (For_Gnatmake : Boolean) is
Last_Arg : constant Natural := Last_Argument;
-- The position of the last argument before adding the archives.
-- Used to reverse the order of the arguments added when processing
-- the archives.
procedure Recursive_Add_Archives (Project : Project_Id);
-- Recursive procedure to add the archive of a project file, if any,
-- then call itself for the project imported.
----------------------------
-- Recursive_Add_Archives --
----------------------------
procedure Recursive_Add_Archives (Project : Project_Id) is
Data : Project_Data;
Imported : Project_List;
Prj : Project_Id;
procedure Add_Archive_Path;
-- For a library project or the main project, add the archive
-- path to the arguments.
----------------------
-- Add_Archive_Path --
----------------------
procedure Add_Archive_Path is
Increment : Positive;
Prev_Last : Positive;
begin
if Data.Library then
-- If it is a library project file, nothing to do if
-- gnatmake will be invoked, because gnatmake will take
-- care of it, even if the library is not an Ada library.
if not For_Gnatmake then
if Data.Library_Kind = Static then
Add_Argument
(Get_Name_String (Data.Library_Dir) &
Directory_Separator &
"lib" & Get_Name_String (Data.Library_Name) &
'.' & Archive_Ext,
Verbose_Mode);
else
-- As we first insert in the reverse order,
-- -L<dir> is put after -l<lib>
Add_Argument
("-l" & Get_Name_String (Data.Library_Name),
Verbose_Mode);
Get_Name_String (Data.Library_Dir);
Add_Argument
("-L" & Name_Buffer (1 .. Name_Len),
Verbose_Mode);
-- If there is a run path option, prepend this
-- directory to the library path. It is probable
-- that the order of the directories in the path
-- option is not important, but just in case
-- put the directories in the same order as the
-- libraries.
if Path_Option /= null then
-- If it is not the first directory, make room
-- at the beginning of the table, including
-- for a path separator.
if Lib_Path.Last > 0 then
Increment := Name_Len + 1;
Prev_Last := Lib_Path.Last;
Lib_Path.Set_Last (Prev_Last + Increment);
for Index in reverse 1 .. Prev_Last loop
Lib_Path.Table (Index + Increment) :=
Lib_Path.Table (Index);
end loop;
Lib_Path.Table (Increment) := Path_Separator;
else
-- If it is the first directory, just set
-- Last to the length of the directory.
Lib_Path.Set_Last (Name_Len);
end if;
-- Put the directory at the beginning of the
-- table.
for Index in 1 .. Name_Len loop
Lib_Path.Table (Index) := Name_Buffer (Index);
end loop;
end if;
end if;
end if;
-- For a non-library project, the only archive needed
-- is the one for the main project, if there is one.
elsif Project = Main_Project and then Global_Archive_Exists then
Add_Argument
(Get_Name_String (Data.Object_Directory) &
Directory_Separator &
"lib" & Get_Name_String (Data.Name) &
'.' & Archive_Ext,
Verbose_Mode);
end if;
end Add_Archive_Path;
begin
-- Nothing to do when there is no project specified
if Project /= No_Project then
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do if the project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid processing it again
Project_Tree.Projects.Table (Project).Seen := True;
Recursive_Add_Archives (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself recursively for all imported projects
while Imported /= Empty_Project_List loop
Prj := Project_Tree.Project_Lists.Table
(Imported).Project;
if Prj /= No_Project then
while Project_Tree.Projects.Table
(Prj).Extended_By /= No_Project
loop
Prj := Project_Tree.Projects.Table
(Prj).Extended_By;
end loop;
Recursive_Add_Archives (Prj);
end if;
Imported := Project_Tree.Project_Lists.Table
(Imported).Next;
end loop;
-- If there is sources of language other than Ada in this
-- project, add the path of the archive to Arguments.
if Project = Main_Project
or else Data.Other_Sources_Present
then
Add_Archive_Path;
end if;
end if;
end if;
end Recursive_Add_Archives;
-- Start of processing for Add_Archives
begin
-- First, mark all projects as not processed
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (Project).Seen := False;
end loop;
-- Take care of the run path option
if Path_Option = null then
Path_Option := MLib.Linker_Library_Path_Option;
end if;
Lib_Path.Set_Last (0);
-- Add archives in the reverse order
Recursive_Add_Archives (Main_Project);
-- And reverse the order
declare
First : Positive := Last_Arg + 1;
Last : Natural := Last_Argument;
Temp : String_Access;
begin
while First < Last loop
Temp := Arguments (First);
Arguments (First) := Arguments (Last);
Arguments (Last) := Temp;
First := First + 1;
Last := Last - 1;
end loop;
end;
end Add_Archives;
------------------
-- Add_Argument --
------------------
procedure Add_Argument (Arg : String_Access; Display : Boolean) is
begin
-- Nothing to do if no argument is specified or if argument is empty
if Arg /= null or else Arg'Length = 0 then
-- Reallocate arrays if necessary
if Last_Argument = Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Initial_Argument_Count);
begin
New_Arguments (Arguments'Range) := Arguments.all;
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (Arguments_Displayed'Range) :=
Arguments_Displayed.all;
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the argument and its display indication
Last_Argument := Last_Argument + 1;
Arguments (Last_Argument) := Arg;
Arguments_Displayed (Last_Argument) := Display;
end if;
end Add_Argument;
procedure Add_Argument (Arg : String; Display : Boolean) is
Argument : String_Access := null;
begin
-- Nothing to do if argument is empty
if Arg'Length > 0 then
-- Check if the argument is already in the Cache_Args table.
-- If it is already there, reuse the allocated value.
for Index in 1 .. Cache_Args.Last loop
if Cache_Args.Table (Index).all = Arg then
Argument := Cache_Args.Table (Index);
exit;
end if;
end loop;
-- If the argument is not in the cache, create a new entry in the
-- cache.
if Argument = null then
Argument := new String'(Arg);
Cache_Args.Increment_Last;
Cache_Args.Table (Cache_Args.Last) := Argument;
end if;
-- And add the argument
Add_Argument (Argument, Display);
end if;
end Add_Argument;
-------------------
-- Add_Arguments --
-------------------
procedure Add_Arguments (Args : Argument_List; Display : Boolean) is
begin
-- Reallocate the arrays, if necessary
if Last_Argument + Args'Length > Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument + Args'Length +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Args'Length +
Initial_Argument_Count);
begin
New_Arguments (1 .. Last_Argument) :=
Arguments (1 .. Last_Argument);
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (1 .. Last_Argument) :=
Arguments_Displayed (1 .. Last_Argument);
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the new arguments and the display indications
Arguments (Last_Argument + 1 .. Last_Argument + Args'Length) := Args;
Arguments_Displayed (Last_Argument + 1 .. Last_Argument + Args'Length) :=
(others => Display);
Last_Argument := Last_Argument + Args'Length;
end Add_Arguments;
----------------
-- Add_Option --
----------------
procedure Add_Option (Arg : String) is
Option : constant String_Access := new String'(Arg);
begin
case Current_Processor is
when None =>
null;
when Linker =>
-- Add option to the linker table
Linker_Options.Increment_Last;
Linker_Options.Table (Linker_Options.Last) := Option;
when Compiler =>
-- Add option to the compiler option table, depending on the
-- value of Current_Language.
Comp_Opts.Increment_Last (Options (Current_Language));
Options (Current_Language).Table
(Comp_Opts.Last (Options (Current_Language))) := Option;
end case;
end Add_Option;
-------------------
-- Add_Source_Id --
-------------------
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id) is
begin
-- Reallocate the array, if necessary
if Last_Source = Source_Indexes'Last then
declare
New_Indexes : constant Source_Indexes_Ref :=
new Source_Index_Array
(1 .. Source_Indexes'Last +
Initial_Source_Index_Count);
begin
New_Indexes (Source_Indexes'Range) := Source_Indexes.all;
Free (Source_Indexes);
Source_Indexes := New_Indexes;
end;
end if;
Last_Source := Last_Source + 1;
Source_Indexes (Last_Source) := (Project, Id, False);
end Add_Source_Id;
----------------------------
-- Add_Search_Directories --
----------------------------
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes)
is
begin
-- If a GNU compiler is used, set the CPATH environment variable,
-- if it does not already has the correct value.
if Compiler_Is_Gcc (Language) then
if Current_Include_Paths (Language) /= Data.Include_Path then
Current_Include_Paths (Language) := Data.Include_Path;
Setenv (CPATH, Data.Include_Path.all);
end if;
else
Add_Arguments (Data.Imported_Directories_Switches.all, Verbose_Mode);
end if;
end Add_Search_Directories;
------------------
-- Add_Switches --
------------------
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id)
is
Switches : Variable_Value;
-- The switches, if any, for the file/language
Pkg : Package_Id;
-- The id of the package where to look for the switches
Defaults : Array_Element_Id;
-- The Default_Switches associative array
Switches_Array : Array_Element_Id;
-- The Switches associative array
Element_Id : String_List_Id;
Element : String_Element;
begin
-- First, choose the proper package
case Proc is
when None =>
raise Program_Error;
when Linker =>
Pkg := Value_Of (Name_Linker, Data.Decl.Packages, Project_Tree);
when Compiler =>
Pkg := Value_Of (Name_Compiler, Data.Decl.Packages, Project_Tree);
end case;
if Pkg /= No_Package then
-- Get the Switches ("file name"), if they exist
Switches_Array := Prj.Util.Value_Of
(Name => Name_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches :=
Prj.Util.Value_Of
(Index => File_Name,
Src_Index => 0,
In_Array => Switches_Array,
In_Tree => Project_Tree);
-- Otherwise, get the Default_Switches ("language"), if they exist
if Switches = Nil_Variable_Value then
Defaults := Prj.Util.Value_Of
(Name => Name_Default_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches := Prj.Util.Value_Of
(Index => Language_Names.Table (Language),
Src_Index => 0,
In_Array => Defaults,
In_Tree => Project_Tree);
end if;
-- If there are switches, add them to Arguments
if Switches /= Nil_Variable_Value then
Element_Id := Switches.Values;
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if not Quiet_Output then
-- When not in quiet output (no -q), check that the
-- switch is not the concatenation of several valid
-- switches, such as "-g -v". If it is, issue a warning.
Check (Option => Name_Buffer (1 .. Name_Len));
end if;
Add_Argument (Name_Buffer (1 .. Name_Len), True);
end if;
Element_Id := Element.Next;
end loop;
end if;
end if;
end Add_Switches;
--------------------------
-- Build_Global_Archive --
--------------------------
procedure Build_Global_Archive is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
S_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Need_To_Rebuild_Global_Archive;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Path : Name_Id;
Time_Stamp : Time_Stamp_Type;
Saved_Last_Argument : Natural;
First_Object : Natural;
Discard : Boolean;
begin
Check_Archive_Builder;
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in
-- Source_Indexes.
declare
Local_Data : Project_Data;
begin
Last_Source := 0;
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Data := Project_Tree.Projects.Table (Proj);
if not Local_Data.Library then
Source_Id := Local_Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Proj, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
end if;
end loop;
end;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the path of the object file
Object_Path := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
S_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table (S_Id);
if (not Source_Indexes (S).Found)
and then Source.Object_Path = Object_Path
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := S_Id;
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Path));
Write_Line (" is not an object of any project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of characters, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Path));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
end if;
end if;
end if;
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Source /= 0;
-- Archive needs to be rebuilt
else
-- If archive already exists, first delete it
-- Comment needed on why we discard result???
if Is_Regular_File (Archive_Name) then
Delete_File (Archive_Name, Discard);
end if;
Last_Argument := 0;
-- Start with the options found in MLib.Tgt (usually just "rc")
Add_Arguments (Archive_Builder_Options.all, True);
-- Followed by the archive name
Add_Argument (Archive_Name, True);
First_Object := Last_Argument;
-- Followed by all the object files of the non library projects
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Proj);
if not Data.Library then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
-- Only include object file name that have not been
-- overriden in extending projects.
if Is_Included_In_Global_Archive
(Source.Object_Name, Proj)
then
Add_Argument
(Get_Name_String (Source.Object_Path), Verbose_Mode);
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Argument > First_Object;
if Global_Archive_Exists then
-- If the archive is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
-- Spawn the archive builder (ar)
Saved_Last_Argument := Last_Argument;
Last_Argument := First_Object + Max_In_Archives;
loop
if Last_Argument > Saved_Last_Argument then
Last_Argument := Saved_Last_Argument;
end if;
Display_Command (Archive_Builder, Archive_Builder_Path);
Spawn
(Archive_Builder_Path.all,
Arguments (1 .. Last_Argument),
Success);
exit when not Success;
exit when Last_Argument = Saved_Last_Argument;
Arguments (1) := r;
Arguments (3 .. Saved_Last_Argument - Last_Argument + 2) :=
Arguments (Last_Argument + 1 .. Saved_Last_Argument);
Saved_Last_Argument := Saved_Last_Argument - Last_Argument + 2;
end loop;
-- If the archive was built, run the archive indexer (ranlib)
-- if there is one.
if Success then
-- If the archive was built, run the archive indexer (ranlib),
-- if there is one.
if Archive_Indexer_Path /= null then
Last_Argument := 0;
Add_Argument (Archive_Name, True);
Display_Command (Archive_Indexer, Archive_Indexer_Path);
Spawn
(Archive_Indexer_Path.all, Arguments (1 .. 1), Success);
if not Success then
-- Running ranlib failed, delete the dependency file,
-- if it exists.
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("running" & Archive_Indexer & " for project """,
Get_Name_String (Data.Name),
""" failed");
return;
end if;
end if;
-- The archive was correctly built, create its dependency file
Create_Global_Archive_Dependency_File (Archive_Dep_Name);
-- Building the archive failed, delete dependency file if one
-- exists.
else
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("building archive for project """,
Get_Name_String (Data.Name),
""" failed");
end if;
end if;
end if;
end Build_Global_Archive;
-------------------
-- Build_Library --
-------------------
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Unconditionally;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Name : Name_Id;
Time_Stamp : Time_Stamp_Type;
Driver_Name : Name_Id := No_Name;
Lib_Opts : Argument_List_Access := No_Argument'Access;
begin
Check_Archive_Builder;
-- If Unconditionally is False, check if the archive need to be built
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in Source_Indexes
Last_Source := 0;
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Project, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the name of an object file
Object_Name := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
if (not Source_Indexes (S).Found)
and then
Project_Tree.Other_Sources.Table
(Source_Indexes (S).Id).Object_Name = Object_Name
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Name));
Write_Line (" is not an object of the project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of character, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Name));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
if not Need_To_Rebuild then
-- Now, check if all object files of the project have been
-- accounted for. If any of them is not in the dependency
-- file, the archive needs to be rebuilt.
for Index in 1 .. Last_Source loop
if not Source_Indexes (Index).Found then
Need_To_Rebuild := True;
if Verbose_Mode then
Source_Id := Source_Indexes (Index).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Write_Str (" -> ");
Write_Str (Get_Name_String (Source.Object_Name));
Write_Str (" is not in the archive ");
Write_Line ("dependency file");
end if;
exit;
end if;
end loop;
end if;
if (not Need_To_Rebuild) and Verbose_Mode then
Write_Line (" -> up to date");
end if;
end if;
end if;
end if;
-- Build the library if necessary
if Need_To_Rebuild then
-- If a library is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
Last_Argument := 0;
-- If there are sources in Ada, then gnatmake will build the
-- library, so nothing to do.
if not Data.Languages (Ada_Language_Index) then
-- Get all the object files of the project
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
Source_Id := Source.Next;
end loop;
-- If it is a library, it need to be built it the same way
-- Ada libraries are built.
if Data.Library_Kind = Static then
MLib.Build_Library
(Ofiles => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Output_File => Get_Name_String (Data.Library_Name),
Output_Dir => Get_Name_String (Data.Library_Dir));
else
-- Link with g++ if C++ is one of the languages, otherwise
-- building the library may fail with unresolved symbols.
if C_Plus_Plus_Is_Used then
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
if Compiler_Is_Gcc (C_Plus_Plus_Language_Index) then
Name_Len := 0;
Add_Str_To_Name_Buffer
(Compiler_Names (C_Plus_Plus_Language_Index).all);
Driver_Name := Name_Find;
end if;
end if;
-- If Library_Options is specified, add these options
declare
Library_Options : constant Variable_Value :=
Value_Of
(Name_Library_Options,
Data.Decl.Attributes,
Project_Tree);
begin
if not Library_Options.Default then
declare
Current : String_List_Id := Library_Options.Values;
Element : String_Element;
begin
while Current /= Nil_String loop
Element := Project_Tree.String_Elements.
Table (Current);
Get_Name_String (Element.Value);
if Name_Len /= 0 then
Library_Opts.Increment_Last;
Library_Opts.Table (Library_Opts.Last) :=
new String'(Name_Buffer (1 .. Name_Len));
end if;
Current := Element.Next;
end loop;
end;
end if;
Lib_Opts :=
new Argument_List'(Argument_List
(Library_Opts.Table (1 .. Library_Opts.Last)));
end;
MLib.Tgt.Build_Dynamic_Library
(Ofiles => Arguments (1 .. Last_Argument),
Foreign => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Options => No_Argument,
Options_2 => Lib_Opts.all,
Interfaces => No_Argument,
Lib_Filename => Get_Name_String (Data.Library_Name),
Lib_Dir => Get_Name_String (Data.Library_Dir),
Symbol_Data => No_Symbols,
Driver_Name => Driver_Name,
Lib_Version => "",
Auto_Init => False);
end if;
end if;
-- Create fake empty archive, so we can check its time stamp later
declare
Archive : Ada.Text_IO.File_Type;
begin
Create (Archive, Out_File, Archive_Name);
Close (Archive);
end;
Create_Archive_Dependency_File
(Archive_Dep_Name, Data.First_Other_Source);
end if;
end Build_Library;
-----------
-- Check --
-----------
procedure Check (Option : String) is
First : Positive := Option'First;
Last : Natural;
begin
for Index in Option'First + 1 .. Option'Last - 1 loop
if Option (Index) = ' ' and then Option (Index + 1) = '-' then
Write_Str ("warning: switch """);
Write_Str (Option);
Write_Str (""" is suspicious; consider using ");
Last := First;
while Last <= Option'Last loop
if Option (Last) = ' ' then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last - 1));
Write_Char ('"');
while Last <= Option'Last and then Option (Last) = ' ' loop
Last := Last + 1;
end loop;
First := Last;
else
if Last = Option'Last then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last));
Write_Char ('"');
end if;
Last := Last + 1;
end if;
end loop;
Write_Line (" instead");
exit;
end if;
end loop;
end Check;
---------------------------
-- Check_Archive_Builder --
---------------------------
procedure Check_Archive_Builder is
begin
-- First, make sure that the archive builder (ar) is on the path
if Archive_Builder_Path = null then
Archive_Builder_Path := Locate_Exec_On_Path (Archive_Builder);
if Archive_Builder_Path = null then
Osint.Fail
("unable to locate archive builder """,
Archive_Builder,
"""");
end if;
-- If there is an archive indexer (ranlib), try to locate it on the
-- path. Don't fail if it is not found.
if Archive_Indexer /= "" then
Archive_Indexer_Path := Locate_Exec_On_Path (Archive_Indexer);
end if;
end if;
end Check_Archive_Builder;
------------------------------
-- Check_Compilation_Needed --
------------------------------
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean)
is
Source_Name : constant String := Get_Name_String (Source.File_Name);
Source_Path : constant String := Get_Name_String (Source.Path_Name);
Object_Name : constant String := Get_Name_String (Source.Object_Name);
Dep_Name : constant String := Get_Name_String (Source.Dep_Name);
Source_In_Dependencies : Boolean := False;
-- Set True if source was found in dependency file of its object file
Dep_File : Prj.Util.Text_File;
Start : Natural;
Finish : Natural;
begin
-- Assume the worst, so that statement "return;" may be used if there
-- is any problem.
Need_To_Compile := True;
if Verbose_Mode then
Write_Str (" Checking ");
Write_Str (Source_Name);
Write_Line (" ... ");
end if;
-- If object file does not exist, of course source need to be compiled
if Source.Object_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- If the object file has been created before the last modification
-- of the source, the source need to be recompiled.
if Source.Object_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- If there is no dependency file, then the source needs to be
-- recompiled and the dependency file need to be created.
if Source.Dep_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- The source needs to be recompiled if the source has been modified
-- after the dependency file has been created.
if Source.Dep_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- Look for all dependencies
Open (Dep_File, Dep_Name);
-- If dependency file cannot be open, we need to recompile the source
if not Is_Valid (Dep_File) then
if Verbose_Mode then
Write_Str (" -> could not open dependency file ");
Write_Line (Dep_Name);
end if;
return;
end if;
declare
End_Of_File_Reached : Boolean := False;
begin
loop
if End_Of_File (Dep_File) then
End_Of_File_Reached := True;
exit;
end if;
Get_Line (Dep_File, Name_Buffer, Name_Len);
exit when Name_Len > 0 and then Name_Buffer (1) /= '#';
end loop;
-- If dependency file contains only empty lines or comments, then
-- dependencies are unknown, and the source needs to be recompiled.
if End_Of_File_Reached then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" is empty");
end if;
Close (Dep_File);
return;
end if;
end;
Start := 1;
Finish := Index (Name_Buffer (1 .. Name_Len), ": ");
-- First line must start with name of object file, followed by colon
if Finish = 0 or else Name_Buffer (1 .. Finish - 1) /= Object_Name then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
else
Start := Finish + 2;
-- Process each line
Line_Loop : loop
declare
Line : constant String := Name_Buffer (1 .. Name_Len);
Last : constant Natural := Name_Len;
begin
Name_Loop : loop
-- Find the beginning of the next source path name
while Start < Last and then Line (Start) = ' ' loop
Start := Start + 1;
end loop;
-- Go to next line when there is a continuation character \
-- at the end of the line.
exit Name_Loop when Start = Last
and then Line (Start) = '\';
-- We should not be at the end of the line, without
-- a continuation character \.
if Start = Last then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
end if;
-- Look for the end of the source path name
Finish := Start;
while Finish < Last and then Line (Finish + 1) /= ' ' loop
Finish := Finish + 1;
end loop;
-- Check this source
declare
Src_Name : constant String :=
Normalize_Pathname
(Name => Line (Start .. Finish),
Case_Sensitive => False);
Src_TS : Time_Stamp_Type;
begin
-- If it is original source, set Source_In_Dependencies
if Src_Name = Source_Path then
Source_In_Dependencies := True;
end if;
Name_Len := 0;
Add_Str_To_Name_Buffer (Src_Name);
Src_TS := File_Stamp (Name_Find);
-- If the source does not exist, we need to recompile
if Src_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line (" does not exist");
end if;
Close (Dep_File);
return;
-- If the source has been modified after the object file,
-- we need to recompile.
elsif Src_TS > Source.Object_TS then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line
(" has time stamp later than object file");
end if;
Close (Dep_File);
return;
end if;
end;
-- If the source path name ends the line, we are done
exit Line_Loop when Finish = Last;
-- Go get the next source on the line
Start := Finish + 1;
end loop Name_Loop;
end;
-- If we are here, we had a continuation character \ at the end
-- of the line, so we continue with the next line.
Get_Line (Dep_File, Name_Buffer, Name_Len);
Start := 1;
end loop Line_Loop;
end if;
Close (Dep_File);
-- If the original sources were not in the dependency file, then we
-- need to recompile. It may mean that we are using a different source
-- (different variant) for this object file.
if not Source_In_Dependencies then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Source_Path);
Write_Line (" is not in the dependencies");
end if;
return;
end if;
-- If we are here, then everything is OK, and we don't need
-- to recompile.
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
Need_To_Compile := False;
end Check_Compilation_Needed;
---------------------------
-- Check_For_C_Plus_Plus --
---------------------------
procedure Check_For_C_Plus_Plus is
begin
C_Plus_Plus_Is_Used := False;
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if
Project_Tree.Projects.Table (Project).Languages
(C_Plus_Plus_Language_Index)
then
C_Plus_Plus_Is_Used := True;
exit;
end if;
end loop;
end Check_For_C_Plus_Plus;
-------------
-- Compile --
-------------
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean)
is
Source : Other_Source :=
Project_Tree.Other_Sources.Table (Source_Id);
Success : Boolean;
CPATH : String_Access := null;
begin
-- If the compiler is not known yet, get its path name
if Compiler_Names (Source.Language) = null then
Get_Compiler (Source.Language);
end if;
-- For non GCC compilers, get the dependency file, first calling the
-- compiler with the switch -M.
if not Compiler_Is_Gcc (Source.Language) then
Last_Argument := 0;
-- Add the source name, preceded by -M
Add_Argument (Dash_M, True);
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Add the compiling switches for the language specified
-- on the command line, if any.
for
J in 1 .. Comp_Opts.Last (Options (Source.Language))
loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add imported directory switches for this project file
Add_Search_Directories (Data, Source.Language);
-- And invoke the compiler using GNAT.Expect
Display_Command
(Compiler_Names (Source.Language).all,
Compiler_Paths (Source.Language));
begin
Non_Blocking_Spawn
(FD,
Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Buffer_Size => 0,
Err_To_Out => True);
declare
Dep_File : Ada.Text_IO.File_Type;
Result : Expect_Match;
Status : Integer;
begin
-- Create the dependency file
Create (Dep_File, Out_File, Get_Name_String (Source.Dep_Name));
loop
Expect (FD, Result, Line_Matcher);
exit when Result = Expect_Timeout;
declare
S : constant String := Strip_CR_LF (Expect_Out (FD));
begin
-- Each line of the output is put in the dependency
-- file, including errors. If there are errors, the
-- syntax of the dependency file will be incorrect and
-- recompilation will occur automatically the next time
-- the dependencies are checked.
Put_Line (Dep_File, S);
end;
end loop;
-- If we are here, it means we had a timeout, so the
-- dependency file may be incomplete. It is safer to
-- delete it, otherwise the dependencies may be wrong.
Close (FD, Status);
Close (Dep_File);
Delete_File (Get_Name_String (Source.Dep_Name), Success);
exception
when Process_Died =>
-- This is the normal outcome. Just close the file
Close (FD, Status);
Close (Dep_File);
when others =>
-- Something wrong happened. It is safer to delete the
-- dependency file, otherwise the dependencies may be wrong.
Close (FD, Status);
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
exception
-- If we cannot spawn the compiler, then the dependencies are
-- not updated. It is safer then to delete the dependency file,
-- otherwise the dependencies may be wrong.
when Invalid_Process =>
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
end if;
Last_Argument := 0;
-- For GCC compilers, make sure the language is always specified to
-- to the GCC driver, in case the extension is not recognized by the
-- GCC driver as a source of the language.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument (Dash_x, Verbose_Mode);
Add_Argument
(Get_Name_String (Language_Names.Table (Source.Language)),
Verbose_Mode);
end if;
Add_Argument (Dash_c, True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Specify the source to be compiled
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- If non static library project, compile with the PIC option if there
-- is one (when there is no PIC option, function MLib.Tgt.PIC_Option
-- returns an empty string, and Add_Argument with an empty string has
-- no effect).
if Data.Library and then Data.Library_Kind /= Static then
Add_Argument (PIC_Option, True);
end if;
-- Indicate the name of the object
Add_Argument (Dash_o, True);
Add_Argument (Get_Name_String (Source.Object_Name), True);
-- When compiler is GCC, use the magic switch that creates
-- the dependency file in the correct format.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument
("-Wp,-MD," & Get_Name_String (Source.Dep_Name),
Verbose_Mode);
end if;
-- Add the compiling switches for the language specified
-- on the command line, if any.
for J in 1 .. Comp_Opts.Last (Options (Source.Language)) loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add the imported directory switches for this
-- project file (or, for gcc compilers, set up the CPATH env var
-- if needed).
Add_Search_Directories (Data, Source.Language);
-- Set CPATH, if compiler is GCC
if Compiler_Is_Gcc (Source.Language) then
CPATH := Current_Include_Paths (Source.Language);
end if;
-- And invoke the compiler
Display_Command
(Name => Compiler_Names (Source.Language).all,
Path => Compiler_Paths (Source.Language),
CPATH => CPATH);
Spawn
(Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Success);
-- Case of successful compilation
if Success then
-- Update the time stamp of the object file
Source.Object_TS := File_Stamp (Source.Object_Name);
-- Do some sanity checks
if Source.Object_TS = Empty_Time_Stamp then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been created");
elsif Source.Object_TS < Source.Source_TS then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been modified");
else
-- Everything looks fine, update the Other_Sources table
Project_Tree.Other_Sources.Table (Source_Id) := Source;
end if;
-- Compilation failed
else
Local_Errors := True;
Report_Error
("compilation of ",
Get_Name_String (Source.Path_Name),
" failed");
end if;
end Compile;
--------------------------------
-- Compile_Individual_Sources --
--------------------------------
procedure Compile_Individual_Sources is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Source_Name : Name_Id;
Project_Name : String := Get_Name_String (Data.Name);
Dummy : Boolean := False;
Ada_Is_A_Language : constant Boolean :=
Data.Languages (Ada_Language_Index);
begin
Ada_Mains.Init;
To_Mixed (Project_Name);
Compile_Only := True;
Get_Imported_Directories (Main_Project, Data);
Project_Tree.Projects.Table (Main_Project) := Data;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Data.Other_Sources_Present then
if Ada_Is_A_Language then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
end;
end loop;
else
Osint.Fail
("project ", Project_Name, " contains no source");
end if;
else
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
Name_Len := Main'Length;
exit when Name_Len = 0;
Name_Buffer (1 .. Name_Len) := Main;
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Source_Name := Name_Find;
if not Sources_Compiled.Get (Source_Name) then
Sources_Compiled.Set (Source_Name, True);
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Source_Name;
Source_Id := Source.Next;
end loop;
if Source_Id = No_Other_Source then
if Ada_Is_A_Language then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
else
Report_Error
(Main,
" is not a valid source of project ",
Project_Name);
end if;
else
Compile (Source_Id, Data, Dummy);
end if;
end if;
end;
end loop;
end if;
if Ada_Mains.Last > 0 then
-- Invoke gnatmake for all Ada sources
Last_Argument := 0;
Add_Argument (Dash_u, True);
for Index in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Index), True);
end loop;
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
end Compile_Individual_Sources;
--------------------------------
-- Compile_Link_With_Gnatmake --
--------------------------------
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Success : Boolean;
begin
-- Array Arguments may already contain some arguments, so we don't
-- set Last_Argument to 0.
-- Get the gnatmake to invoke
Get_Compiler (Ada_Language_Index);
-- Specify the project file
Add_Argument (Dash_P, True);
Add_Argument (Get_Name_String (Data.Path_Name), True);
-- Add the -X switches, if any
for Index in 1 .. X_Switches.Last loop
Add_Argument (X_Switches.Table (Index), True);
end loop;
-- If Mains_Specified is True, find the mains in package Mains
if Mains_Specified then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Add_Argument (Main, True);
end;
end loop;
end if;
-- Specify output file name, if any was specified on the command line
if Output_File_Name /= null then
Add_Argument (Dash_o, True);
Add_Argument (Output_File_Name, True);
end if;
-- Transmit some switches to gnatmake
-- -c
if Compile_Only then
Add_Argument (Dash_c, True);
end if;
-- -d
if Display_Compilation_Progress then
Add_Argument (Dash_d, True);
end if;
-- -k
if Keep_Going then
Add_Argument (Dash_k, True);
end if;
-- -f
if Force_Compilations then
Add_Argument (Dash_f, True);
end if;
-- -v
if Verbose_Mode then
Add_Argument (Dash_v, True);
end if;
-- -q
if Quiet_Output then
Add_Argument (Dash_q, True);
end if;
-- -vP1 and -vP2
case Current_Verbosity is
when Default =>
null;
when Medium =>
Add_Argument (Dash_vP1, True);
when High =>
Add_Argument (Dash_vP2, True);
end case;
-- If there are compiling options for Ada, transmit them to gnatmake
if Comp_Opts.Last (Options (Ada_Language_Index)) /= 0 then
Add_Argument (Dash_cargs, True);
for Arg in 1 .. Comp_Opts.Last (Options (Ada_Language_Index)) loop
Add_Argument (Options (Ada_Language_Index).Table (Arg), True);
end loop;
end if;
if not Compile_Only then
-- Linking options
if Linker_Options.Last /= 0 then
Add_Argument (Dash_largs, True);
else
Add_Argument (Dash_largs, Verbose_Mode);
end if;
-- Add the archives
Add_Archives (For_Gnatmake => True);
-- If there are linking options from the command line,
-- transmit them to gnatmake.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
end if;
-- And invoke gnatmake
Display_Command
(Compiler_Names (Ada_Language_Index).all,
Compiler_Paths (Ada_Language_Index));
Spawn
(Compiler_Paths (Ada_Language_Index).all,
Arguments (1 .. Last_Argument),
Success);
-- Report an error if call to gnatmake failed
if not Success then
Report_Error
("invocation of ",
Compiler_Names (Ada_Language_Index).all,
" failed");
end if;
end Compile_Link_With_Gnatmake;
---------------------
-- Compile_Sources --
---------------------
procedure Compile_Sources is
Data : Project_Data;
Source_Id : Other_Source_Id;
Source : Other_Source;
Local_Errors : Boolean := False;
-- Set to True when there is a compilation error. Used only when
-- Keep_Going is True, to inhibit the building of the archive.
Need_To_Compile : Boolean;
-- Set to True when a source needs to be compiled/recompiled
Need_To_Rebuild_Archive : Boolean := Force_Compilations;
-- True when the archive needs to be built/rebuilt unconditionally
Total_Number_Of_Sources : Int := 0;
Current_Source_Number : Int := 0;
begin
-- First, get the number of sources
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Project);
if (not Data.Virtual) and then Data.Other_Sources_Present then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Total_Number_Of_Sources := Total_Number_Of_Sources + 1;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- Loop through project files
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Errors := False;
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do when no sources of language other than Ada
if (not Data.Virtual) and then Data.Other_Sources_Present then
-- If the imported directory switches are unknown, compute them
if not Data.Include_Data_Set then
Get_Imported_Directories (Project, Data);
Data.Include_Data_Set := True;
Project_Tree.Projects.Table (Project) := Data;
end if;
Need_To_Rebuild_Archive := Force_Compilations;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
Source_Id := Data.First_Other_Source;
-- Process each source one by one
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Current_Source_Number := Current_Source_Number + 1;
Need_To_Compile := Force_Compilations;
-- Check if compilation is needed
if not Need_To_Compile then
Check_Compilation_Needed (Source, Need_To_Compile);
end if;
-- Proceed, if compilation is needed
if Need_To_Compile then
-- If a source is compiled/recompiled, of course the
-- archive will need to be built/rebuilt.
Need_To_Rebuild_Archive := True;
Compile (Source_Id, Data, Local_Errors);
end if;
if Display_Compilation_Progress then
Write_Str ("completed ");
Write_Int (Current_Source_Number);
Write_Str (" out of ");
Write_Int (Total_Number_Of_Sources);
Write_Str (" (");
Write_Int
((Current_Source_Number * 100) / Total_Number_Of_Sources);
Write_Str ("%)...");
Write_Eol;
end if;
-- Next source, if any
Source_Id := Source.Next;
end loop;
if Need_To_Rebuild_Archive and then (not Data.Library) then
Need_To_Rebuild_Global_Archive := True;
end if;
-- If there was no compilation error and -c was not used,
-- build / rebuild the archive if necessary.
if not Local_Errors
and then Data.Library
and then not Data.Languages (Ada_Language_Index)
and then not Compile_Only
then
Build_Library (Project, Need_To_Rebuild_Archive);
end if;
end if;
end loop;
end Compile_Sources;
---------------
-- Copyright --
---------------
procedure Copyright is
begin
-- Only output the Copyright notice once
if not Copyright_Output then
Copyright_Output := True;
Write_Eol;
Write_Str ("GPRMAKE ");
Write_Str (Gnatvsn.Gnat_Version_String);
Write_Str (" Copyright 2004 Free Software Foundation, Inc.");
Write_Eol;
end if;
end Copyright;
------------------------------------
-- Create_Archive_Dependency_File --
------------------------------------
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id)
is
Source_Id : Other_Source_Id := First_Source;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Put_Line (Dep_File, Get_Name_String (Source.Object_Name));
Put_Line (Dep_File, String (Source.Object_TS));
Source_Id := Source.Next;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Archive_Dependency_File;
-------------------------------------------
-- Create_Global_Archive_Dependency_File --
-------------------------------------------
procedure Create_Global_Archive_Dependency_File (Name : String) is
Source_Id : Other_Source_Id;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
-- Get all the object files of non-Ada sources in non-library projects
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if not Project_Tree.Projects.Table (Project).Library then
Source_Id :=
Project_Tree.Projects.Table (Project).First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
-- Put only those object files that are in the global archive
if Is_Included_In_Global_Archive
(Source.Object_Name, Project)
then
Put_Line (Dep_File, Get_Name_String (Source.Object_Path));
Put_Line (Dep_File, String (Source.Object_TS));
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Global_Archive_Dependency_File;
---------------------
-- Display_Command --
---------------------
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null)
is
begin
-- Only display the command in Verbose Mode (-v) or when
-- not in Quiet Output (no -q).
if Verbose_Mode or (not Quiet_Output) then
-- In Verbose Mode output the full path of the spawned process
if Verbose_Mode then
if CPATH /= null then
Write_Str ("CPATH = ");
Write_Line (CPATH.all);
end if;
Write_Str (Path.all);
else
Write_Str (Name);
end if;
-- Display only the arguments for which the display flag is set
-- (in Verbose Mode, the display flag is set for all arguments)
for Arg in 1 .. Last_Argument loop
if Arguments_Displayed (Arg) then
Write_Char (' ');
Write_Str (Arguments (Arg).all);
end if;
end loop;
Write_Eol;
end if;
end Display_Command;
------------------
-- Get_Compiler --
------------------
procedure Get_Compiler (For_Language : First_Language_Indexes) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Ide : constant Package_Id :=
Value_Of
(Name_Ide,
In_Packages => Data.Decl.Packages,
In_Tree => Project_Tree);
-- The id of the package IDE in the project file
Compiler : constant Variable_Value :=
Value_Of
(Name => Language_Names.Table (For_Language),
Index => 0,
Attribute_Or_Array_Name => Name_Compiler_Command,
In_Package => Ide,
In_Tree => Project_Tree);
-- The value of Compiler_Command ("language") in package IDE, if defined
begin
-- No need to do it again if the compiler is known for this language
if Compiler_Names (For_Language) = null then
-- If compiler command is not defined for this language in package
-- IDE, use the default compiler for this language.
if Compiler = Nil_Variable_Value then
if For_Language in Default_Compiler_Names'Range then
Compiler_Names (For_Language) :=
Default_Compiler_Names (For_Language);
else
Osint.Fail
("unknow compiler name for language """,
Get_Name_String (Language_Names.Table (For_Language)),
"""");
end if;
else
Compiler_Names (For_Language) :=
new String'(Get_Name_String (Compiler.Value));
end if;
-- Check we have a GCC compiler (name ends with "gcc" or "g++")
declare
Comp_Name : constant String := Compiler_Names (For_Language).all;
Last3 : String (1 .. 3);
begin
if Comp_Name'Length >= 3 then
Last3 := Comp_Name (Comp_Name'Last - 2 .. Comp_Name'Last);
Compiler_Is_Gcc (For_Language) :=
(Last3 = "gcc") or (Last3 = "g++");
else
Compiler_Is_Gcc (For_Language) := False;
end if;
end;
-- Locate the compiler on the path
Compiler_Paths (For_Language) :=
Locate_Exec_On_Path (Compiler_Names (For_Language).all);
-- Fail if compiler cannot be found
if Compiler_Paths (For_Language) = null then
if For_Language = Ada_Language_Index then
Osint.Fail
("unable to locate """,
Compiler_Names (For_Language).all,
"""");
else
Osint.Fail
("unable to locate " &
Get_Name_String (Language_Names.Table (For_Language)),
" compiler """, Compiler_Names (For_Language).all & '"');
end if;
end if;
end if;
end Get_Compiler;
------------------------------
-- Get_Imported_Directories --
------------------------------
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data)
is
Imported_Projects : Project_List := Data.Imported_Projects;
Path_Length : Natural := 0;
Position : Natural := 0;
procedure Add (Source_Dirs : String_List_Id);
-- Add a list of source directories
procedure Recursive_Get_Dirs (Prj : Project_Id);
-- Recursive procedure to get the source directories of this project
-- file and of the project files it imports, in the correct order.
---------
-- Add --
---------
procedure Add (Source_Dirs : String_List_Id) is
Element_Id : String_List_Id := Source_Dirs;
Element : String_Element;
Add_Arg : Boolean := True;
begin
-- Add each source directory path name, preceded by "-I" to Arguments
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table (Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if Name_Len > 0 then
-- Remove a trailing directory separator: this may cause
-- problems on Windows.
if Name_Len > 1
and then Name_Buffer (Name_Len) = Directory_Separator
then
Name_Len := Name_Len - 1;
end if;
declare
Arg : constant String :=
"-I" & Name_Buffer (1 .. Name_Len);
begin
-- Check if directory is already in the list.
-- If it is, no need to put it again.
for Index in 1 .. Last_Argument loop
if Arguments (Index).all = Arg then
Add_Arg := False;
exit;
end if;
end loop;
if Add_Arg then
if Path_Length /= 0 then
Path_Length := Path_Length + 1;
end if;
Path_Length := Path_Length + Name_Len;
Add_Argument (Arg, True);
end if;
end;
end if;
end if;
Element_Id := Element.Next;
end loop;
end Add;
------------------------
-- Recursive_Get_Dirs --
------------------------
procedure Recursive_Get_Dirs (Prj : Project_Id) is
Data : Project_Data;
Imported : Project_List;
begin
-- Nothing to do if project is undefined
if Prj /= No_Project then
Data := Project_Tree.Projects.Table (Prj);
-- Nothing to do if project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid multiple processing
-- of the same project.
Project_Tree.Projects.Table (Prj).Seen := True;
-- Add the source directories of this project
if not Data.Virtual then
Add (Data.Source_Dirs);
end if;
Recursive_Get_Dirs (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself for all imported projects, if any
while Imported /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported).Project);
Imported :=
Project_Tree.Project_Lists.Table (Imported).Next;
end loop;
end if;
end if;
end Recursive_Get_Dirs;
-- Start of processing for Get_Imported_Directories
begin
-- First, mark all project as not processed
for J in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (J).Seen := False;
end loop;
-- Empty Arguments
Last_Argument := 0;
-- Process this project individually, project data are already known
Project_Tree.Projects.Table (Project).Seen := True;
Add (Data.Source_Dirs);
Recursive_Get_Dirs (Data.Extends);
while Imported_Projects /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported_Projects).Project);
Imported_Projects := Project_Tree.Project_Lists.Table
(Imported_Projects).Next;
end loop;
Data.Imported_Directories_Switches :=
new Argument_List'(Arguments (1 .. Last_Argument));
-- Create the Include_Path, from the Arguments
Data.Include_Path := new String (1 .. Path_Length);
Data.Include_Path (1 .. Arguments (1)'Length - 2) :=
Arguments (1)(Arguments (1)'First + 2 .. Arguments (1)'Last);
Position := Arguments (1)'Length - 2;
for Arg in 2 .. Last_Argument loop
Position := Position + 1;
Data.Include_Path (Position) := Path_Separator;
Data.Include_Path
(Position + 1 .. Position + Arguments (Arg)'Length - 2) :=
Arguments (Arg)(Arguments (Arg)'First + 2 .. Arguments (Arg)'Last);
Position := Position + Arguments (Arg)'Length - 2;
end loop;
Last_Argument := 0;
end Get_Imported_Directories;
-------------
-- Gprmake --
-------------
procedure Gprmake is
begin
Makegpr.Initialize;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""".");
Write_Eol;
end if;
-- Parse and process project files for other languages (not for Ada)
Prj.Pars.Parse
(Project => Main_Project,
In_Tree => Project_Tree,
Project_File_Name => Project_File_Name.all,
Packages_To_Check => Packages_To_Check);
-- Fail if parsing/processing was unsuccessful
if Main_Project = No_Project then
Osint.Fail ("""", Project_File_Name.all, """ processing failed");
end if;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing of Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""" is finished.");
Write_Eol;
end if;
-- If -f was specified, we will certainly need to link (except when
-- -u or -c were specified, of course).
Need_To_Relink := Force_Compilations;
if Unique_Compile then
if Mains.Number_Of_Mains = 0 then
Osint.Fail
("No source specified to compile in 'unique compile' mode");
else
Compile_Individual_Sources;
Report_Total_Errors ("compilation");
end if;
else
declare
Data : constant Prj.Project_Data :=
Project_Tree.Projects.Table (Main_Project);
begin
if Data.Library and then Mains.Number_Of_Mains /= 0 then
Osint.Fail
("Cannot specify mains on the command line " &
"for a Library Project");
end if;
-- First check for C++, to link libraries with g++,
-- rather than gcc.
Check_For_C_Plus_Plus;
-- Compile sources and build archives for library project,
-- if necessary.
Compile_Sources;
-- When Keep_Going is True, if we had some errors, fail now,
-- reporting the number of compilation errors.
-- Do not attempt to link.
Report_Total_Errors ("compilation");
-- If -c was not specified, link the executables,
-- if there are any.
if not Compile_Only
and then not Data.Library
and then Data.Object_Directory /= No_Name
then
Build_Global_Archive;
Link_Executables;
end if;
-- When Keep_Going is True, if we had some errors, fail, reporting
-- the number of linking errors.
Report_Total_Errors ("linking");
end;
end if;
end Gprmake;
----------------
-- Initialize --
----------------
procedure Initialize is
begin
-- Do some necessary package initializations
Csets.Initialize;
Namet.Initialize;
Snames.Initialize;
Prj.Initialize (Project_Tree);
Mains.Delete;
-- Set Name_Ide and Name_Compiler_Command
Name_Len := 0;
Add_Str_To_Name_Buffer ("ide");
Name_Ide := Name_Find;
Name_Len := 0;
Add_Str_To_Name_Buffer ("compiler_command");
Name_Compiler_Command := Name_Find;
-- Make sure the -X switch table is empty
X_Switches.Set_Last (0);
-- Get the command line arguments
Scan_Args : for Next_Arg in 1 .. Argument_Count loop
Scan_Arg (Argument (Next_Arg));
end loop Scan_Args;
-- Fail if command line ended with "-P"
if Project_File_Name_Expected then
Osint.Fail ("project file name missing after -P");
-- Or if it ended with "-o"
elsif Output_File_Name_Expected then
Osint.Fail ("output file name missing after -o");
end if;
-- If no project file was specified, display the usage and fail
if Project_File_Name = null then
Usage;
Exit_Program (E_Success);
end if;
-- To be able of finding libgnat.a in MLib.Tgt, we need to have the
-- default search dirs established in Osint.
Osint.Add_Default_Search_Dirs;
end Initialize;
-----------------------------------
-- Is_Included_In_Global_Archive --
-----------------------------------
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean
is
Data : Project_Data := Project_Tree.Projects.Table (Project);
Source : Other_Source_Id;
begin
while Data.Extended_By /= No_Project loop
Data := Project_Tree.Projects.Table (Data.Extended_By);
Source := Data.First_Other_Source;
while Source /= No_Other_Source loop
if Project_Tree.Other_Sources.Table (Source).Object_Name =
Object_Name
then
return False;
else
Source :=
Project_Tree.Other_Sources.Table (Source).Next;
end if;
end loop;
end loop;
return True;
end Is_Included_In_Global_Archive;
----------------------
-- Link_Executables --
----------------------
procedure Link_Executables is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Mains_Specified : constant Boolean := Mains.Number_Of_Mains /= 0;
-- True if main sources were specified on the command line
Object_Dir : constant String := Get_Name_String (Data.Object_Directory);
-- Path of the object directory of the main project
Source_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Linker_Name : String_Access;
Linker_Path : String_Access;
-- The linker name and path, when linking is not done by gnatlink
Link_Done : Boolean := False;
-- Set to True when the linker is invoked directly (not through
-- gnatmake) to be able to report if mains were up to date at the end
-- of execution.
procedure Add_C_Plus_Plus_Link_For_Gnatmake;
-- Add the --LINK= switch for gnatlink, depending on the C++ compiler
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type);
-- Check if there is an archive that is more recent than the executable
-- to decide if we need to relink.
procedure Choose_C_Plus_Plus_Link_Process;
-- If the C++ compiler is not g++, create the correct script to link
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source);
-- Link a non-Ada main, when there is no Ada code
---------------------------------------
-- Add_C_Plus_Plus_Link_For_Gnatmake --
---------------------------------------
procedure Add_C_Plus_Plus_Link_For_Gnatmake is
begin
Add_Argument
("--LINK=" & Compiler_Names (C_Plus_Plus_Language_Index).all,
Verbose_Mode);
end Add_C_Plus_Plus_Link_For_Gnatmake;
-----------------------
-- Check_Time_Stamps --
-----------------------
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type) is
Prj_Data : Project_Data;
begin
for Prj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Prj_Data := Project_Tree.Projects.Table (Prj);
-- There is an archive only in project
-- files with sources other than Ada
-- sources.
if Data.Other_Sources_Present then
declare
Archive_Path : constant String :=
Get_Name_String
(Prj_Data.Object_Directory) &
Directory_Separator &
"lib" &
Get_Name_String (Prj_Data.Name) &
'.' & Archive_Ext;
Archive_TS : Time_Stamp_Type;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer
(Archive_Path);
Archive_TS := File_Stamp (Name_Find);
-- If the archive is later than the
-- executable, we need to relink.
if Archive_TS /= Empty_Time_Stamp
and then
Exec_Time_Stamp < Archive_TS
then
Need_To_Relink := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Archive_Path);
Write_Str (" has time stamp ");
Write_Str ("later than ");
Write_Line ("executable");
end if;
exit;
end if;
end;
end if;
end loop;
end Check_Time_Stamps;
-------------------------------------
-- Choose_C_Plus_Plus_Link_Process --
-------------------------------------
procedure Choose_C_Plus_Plus_Link_Process is
begin
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
end Choose_C_Plus_Plus_Link_Process;
------------------
-- Link_Foreign --
------------------
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source)
is
Executable_Name : constant String :=
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False));
-- File name of the executable
Executable_Path : constant String :=
Get_Name_String
(Data.Exec_Directory) &
Directory_Separator &
Executable_Name;
-- Path name of the executable
Exec_Time_Stamp : Time_Stamp_Type;
begin
-- Now, check if the executable is up to date. It is considered
-- up to date if its time stamp is not earlier that the time stamp
-- of any archive. Only do that if we don't know if we need to link.
if not Need_To_Relink then
-- Get the time stamp of the executable
Name_Len := 0;
Add_Str_To_Name_Buffer (Executable_Path);
Exec_Time_Stamp := File_Stamp (Name_Find);
if Verbose_Mode then
Write_Str (" Checking executable ");
Write_Line (Executable_Name);
end if;
-- If executable does not exist, we need to link
if Exec_Time_Stamp = Empty_Time_Stamp then
Need_To_Relink := True;
if Verbose_Mode then
Write_Line (" -> not found");
end if;
-- Otherwise, get the time stamps of each archive. If one of
-- them is found later than the executable, we need to relink.
else
Check_Time_Stamps (Exec_Time_Stamp);
end if;
-- If Need_To_Relink is False, we are done
if Verbose_Mode and (not Need_To_Relink) then
Write_Line (" -> up to date");
end if;
end if;
-- Prepare to link
if Need_To_Relink then
Link_Done := True;
Last_Argument := 0;
-- Specify the executable path name
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String (Data.Exec_Directory) &
Directory_Separator &
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)),
True);
-- Specify the object file of the main source
Add_Argument
(Object_Dir & Directory_Separator &
Get_Name_String (Source.Object_Name),
True);
-- Add all the archives, in a correct order
Add_Archives (For_Gnatmake => False);
-- Add the switches specified in package Linker of
-- the main project.
Add_Switches
(Data => Data,
Proc => Linker,
Language => Source.Language,
File_Name => Main_Id);
-- Add the switches specified in attribute
-- Linker_Options of packages Linker.
if Link_Options_Switches = null then
Link_Options_Switches :=
new Argument_List'
(Linker_Options_Switches (Main_Project, Project_Tree));
end if;
Add_Arguments (Link_Options_Switches.all, True);
-- Add the linking options specified on the
-- command line.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
-- If there are shared libraries and the run path
-- option is supported, add the run path switch.
if Lib_Path.Last > 0 then
Add_Argument
(Path_Option.all &
String (Lib_Path.Table (1 .. Lib_Path.Last)),
Verbose_Mode);
end if;
-- And invoke the linker
Display_Command (Linker_Name.all, Linker_Path);
Spawn
(Linker_Path.all,
Arguments (1 .. Last_Argument),
Success);
if not Success then
Report_Error ("could not link ", Main);
end if;
end if;
end Link_Foreign;
-- Start of processing of Link_Executables
begin
-- If no mains specified, get mains from attribute Main, if it exists
if not Mains_Specified then
declare
Element_Id : String_List_Id := Data.Mains;
Element : String_Element;
begin
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Mains.Add_Main (Get_Name_String (Element.Value));
end if;
Element_Id := Element.Next;
end loop;
end;
end if;
if Mains.Number_Of_Mains = 0 then
-- If the attribute Main is an empty list or not specified,
-- there is nothing to do.
if Verbose_Mode then
Write_Line ("No main to link");
end if;
return;
end if;
-- Check if -o was used for several mains
if Output_File_Name /= null and then Mains.Number_Of_Mains > 1 then
Osint.Fail ("cannot specify an executable name for several mains");
end if;
-- Check how we are going to do the link
if not Data.Other_Sources_Present then
-- Only Ada sources in the main project, and even maybe not
if not Data.Languages (Ada_Language_Index) then
-- Fail if the main project has no source of any language
Osint.Fail
("project """,
Get_Name_String (Data.Name),
""" has no sources, so no main can be linked");
else
-- Only Ada sources in the main project, call gnatmake directly
Last_Argument := 0;
-- Choose correct linker if there is C++ code in other projects
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
Compile_Link_With_Gnatmake (Mains_Specified);
end if;
else
-- There are other language sources. First check if there are also
-- sources in Ada.
if Data.Languages (Ada_Language_Index) then
-- There is a mix of Ada and other language sources in the main
-- project. Any main that is not a source of the other languages
-- will be deemed to be an Ada main.
-- Find the mains of the other languages and the Ada mains
Mains.Reset;
Ada_Mains.Set_Last (0);
Other_Mains.Set_Last (0);
-- For each main
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the main file name
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of a language other than Ada
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- If it is not, put it in the list of Ada mains
if Source_Id = No_Other_Source then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
-- Otherwise, put it in the list of other mains
else
Other_Mains.Increment_Last;
Other_Mains.Table (Other_Mains.Last) := Source;
end if;
end;
end loop;
-- If C++ is one of the other language, create the shell script
-- to do the link.
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
end if;
-- Call gnatmake with the necessary switches for each non-Ada
-- main, if there are some.
for Main in 1 .. Other_Mains.Last loop
declare
Source : constant Other_Source := Other_Mains.Table (Main);
begin
Last_Argument := 0;
-- Add -o if -o was specified
if Output_File_Name = null then
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Other_Mains.Table (Main).File_Name,
Index => 0,
Ada_Main => False)),
True);
end if;
-- Call gnatmake with the -B switch
Add_Argument (Dash_B, True);
-- Add to the linking options the object file of the source
Add_Argument (Dash_largs, Verbose_Mode);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
-- If C++ is one of the language, add the --LINK switch
-- to the linking switches.
if C_Plus_Plus_Is_Used then
Add_C_Plus_Plus_Link_For_Gnatmake;
end if;
-- Add -margs so that the following switches are for
-- gnatmake
Add_Argument (Dash_margs, Verbose_Mode);
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end;
end loop;
-- If there are also Ada mains, call gnatmake for all these mains
if Ada_Mains.Last /= 0 then
Last_Argument := 0;
-- Put all the Ada mains as the first arguments
for Main in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Main).all, True);
end loop;
-- If C++ is one of the languages, add the --LINK switch to
-- the linking switches.
if Data.Languages (C_Plus_Plus_Language_Index) then
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
else
-- No Ada source in main project
-- First, get the linker to invoke
if Data.Languages (C_Plus_Plus_Language_Index) then
Get_Compiler (C_Plus_Plus_Language_Index);
Linker_Name := Compiler_Names (C_Plus_Plus_Language_Index);
Linker_Path := Compiler_Paths (C_Plus_Plus_Language_Index);
else
Get_Compiler (C_Language_Index);
Linker_Name := Compiler_Names (C_Language_Index);
Linker_Path := Compiler_Paths (C_Language_Index);
end if;
Link_Done := False;
Mains.Reset;
-- Get each main, check if it is a source of the main project,
-- and if it is, invoke the linker.
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the file name of the main
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of the main project file
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- Report an error if it is not
if Source_Id = No_Other_Source then
Report_Error
(Main, "is not a source of project ",
Get_Name_String (Data.Name));
else
Link_Foreign (Main, Main_Id, Source);
end if;
end;
end loop;
-- If no linking was done, report it, except in Quiet Output
if (Verbose_Mode or (not Quiet_Output)) and (not Link_Done) then
Osint.Write_Program_Name;
if Mains.Number_Of_Mains = 1 then
-- If there is only one executable, report its name too
Write_Str (": """);
Mains.Reset;
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Main_Id := Name_Find;
Write_Str
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)));
Write_Line (""" up to date");
end;
else
Write_Line (": all executables up to date");
end if;
end if;
end if;
end if;
end Link_Executables;
------------------
-- Report_Error --
------------------
procedure Report_Error
(S1 : String;
S2 : String := "";
S3 : String := "")
is
begin
-- If Keep_Going is True, output error message preceded by error header
if Keep_Going then
Total_Number_Of_Errors := Total_Number_Of_Errors + 1;
Write_Str (Error_Header);
Write_Str (S1);
Write_Str (S2);
Write_Str (S3);
Write_Eol;
-- Otherwise just fail
else
Osint.Fail (S1, S2, S3);
end if;
end Report_Error;
-------------------------
-- Report_Total_Errors --
-------------------------
procedure Report_Total_Errors (Kind : String) is
begin
if Total_Number_Of_Errors /= 0 then
if Total_Number_Of_Errors = 1 then
Osint.Fail
("One ", Kind, " error");
else
Osint.Fail
("Total of" & Total_Number_Of_Errors'Img,
' ' & Kind & " errors");
end if;
end if;
end Report_Total_Errors;
--------------
-- Scan_Arg --
--------------
procedure Scan_Arg (Arg : String) is
begin
pragma Assert (Arg'First = 1);
if Arg'Length = 0 then
return;
end if;
-- If preceding switch was -P, a project file name need to be
-- specified, not a switch.
if Project_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("project file name missing after -P");
else
Project_File_Name_Expected := False;
Project_File_Name := new String'(Arg);
end if;
-- If preceding switch was -o, an executable name need to be
-- specified, not a switch.
elsif Output_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("output file name missing after -o");
else
Output_File_Name_Expected := False;
Output_File_Name := new String'(Arg);
end if;
-- Set the processor/language for the following switches
-- -cargs: Ada compiler arguments
elsif Arg = "-cargs" then
Current_Language := Ada_Language_Index;
Current_Processor := Compiler;
elsif Arg'Length > 7 and then Arg (1 .. 7) = "-cargs:" then
Name_Len := 0;
Add_Str_To_Name_Buffer (Arg (8 .. Arg'Last));
To_Lower (Name_Buffer (1 .. Name_Len));
declare
Lang : constant Name_Id := Name_Find;
begin
Current_Language := Language_Indexes.Get (Lang);
if Current_Language = No_Language_Index then
Add_Language_Name (Lang);
Current_Language := Last_Language_Index;
end if;
Current_Processor := Compiler;
end;
elsif Arg = "-largs" then
Current_Processor := Linker;
-- -gargs: gprmake
elsif Arg = "-gargs" then
Current_Processor := None;
-- A special test is needed for the -o switch within a -largs since
-- that is another way to specify the name of the final executable.
elsif Current_Processor = Linker and then Arg = "-o" then
Osint.Fail
("switch -o not allowed within a -largs. Use -o directly.");
-- If current processor is not gprmake directly, store the option in
-- the appropriate table.
elsif Current_Processor /= None then
Add_Option (Arg);
-- Switches start with '-'
elsif Arg (1) = '-' then
if Arg = "-c" then
Compile_Only := True;
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Mains.Number_Of_Mains > 0 then
Unique_Compile := True;
end if;
elsif Arg = "-d" then
Display_Compilation_Progress := True;
elsif Arg = "-f" then
Force_Compilations := True;
elsif Arg = "-h" then
Usage;
elsif Arg = "-k" then
Keep_Going := True;
elsif Arg = "-o" then
if Output_File_Name /= null then
Osint.Fail ("cannot specify several -o switches");
else
Output_File_Name_Expected := True;
end if;
elsif Arg'Length >= 2 and then Arg (2) = 'P' then
if Project_File_Name /= null then
Osint.Fail ("cannot have several project files specified");
elsif Arg'Length = 2 then
Project_File_Name_Expected := True;
else
Project_File_Name := new String'(Arg (3 .. Arg'Last));
end if;
elsif Arg = "-q" then
Quiet_Output := True;
elsif Arg = "-u" then
Unique_Compile := True;
Compile_Only := True;
elsif Arg = "-v" then
Verbose_Mode := True;
Copyright;
elsif Arg'Length = 4 and then Arg (1 .. 3) = "-vP"
and then Arg (4) in '0' .. '2'
then
case Arg (4) is
when '0' =>
Current_Verbosity := Prj.Default;
when '1' =>
Current_Verbosity := Prj.Medium;
when '2' =>
Current_Verbosity := Prj.High;
when others =>
null;
end case;
elsif Arg'Length >= 3 and then Arg (2) = 'X'
and then Is_External_Assignment (Arg)
then
-- Is_External_Assignment has side effects when it returns True
-- Record the -X switch, so that they can be passed to gnatmake,
-- if gnatmake is called.
X_Switches.Increment_Last;
X_Switches.Table (X_Switches.Last) := new String'(Arg);
else
Osint.Fail ("illegal option """, Arg, """");
end if;
else
-- Not a switch: must be a main
Mains.Add_Main (Arg);
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Compile_Only then
Unique_Compile := True;
end if;
end if;
end Scan_Arg;
-----------------
-- Strip_CR_LF --
-----------------
function Strip_CR_LF (Text : String) return String is
To : String (1 .. Text'Length);
Index_To : Natural := 0;
begin
for Index in Text'Range loop
if (Text (Index) /= ASCII.CR) and then (Text (Index) /= ASCII.LF) then
Index_To := Index_To + 1;
To (Index_To) := Text (Index);
end if;
end loop;
return To (1 .. Index_To);
end Strip_CR_LF;
-----------
-- Usage --
-----------
procedure Usage is
begin
if not Usage_Output then
Usage_Output := True;
Copyright;
Write_Str ("Usage: ");
Osint.Write_Program_Name;
Write_Str (" -P<project file> [opts] [name] {");
for Lang in First_Language_Indexes loop
Write_Str ("[-cargs:lang opts] ");
end loop;
Write_Str ("[-largs opts] [-gargs opts]}");
Write_Eol;
Write_Eol;
Write_Str (" name is zero or more file names");
Write_Eol;
Write_Eol;
-- GPRMAKE switches
Write_Str ("gprmake switches:");
Write_Eol;
-- Line for -c
Write_Str (" -c Compile only");
Write_Eol;
-- Line for -f
Write_Str (" -f Force recompilations");
Write_Eol;
-- Line for -k
Write_Str (" -k Keep going after compilation errors");
Write_Eol;
-- Line for -o
Write_Str (" -o name Choose an alternate executable name");
Write_Eol;
-- Line for -P
Write_Str (" -Pproj Use GNAT Project File proj");
Write_Eol;
-- Line for -q
Write_Str (" -q Be quiet/terse");
Write_Eol;
-- Line for -u
Write_Str
(" -u Unique compilation. Only compile the given files");
Write_Eol;
-- Line for -v
Write_Str (" -v Verbose output");
Write_Eol;
-- Line for -vPx
Write_Str (" -vPx Specify verbosity when parsing Project Files");
Write_Eol;
-- Line for -X
Write_Str (" -Xnm=val Specify an external reference for " &
"Project Files");
Write_Eol;
Write_Eol;
-- Line for -cargs
Write_Line (" -cargs opts opts are passed to the Ada compiler");
-- Line for -cargs:lang
Write_Line (" -cargs:<lang> opts");
Write_Line (" opts are passed to the compiler " &
"for language < lang > ");
-- Line for -largs
Write_Str (" -largs opts opts are passed to the linker");
Write_Eol;
-- Line for -gargs
Write_Str (" -gargs opts opts directly interpreted by gprmake");
Write_Eol;
Write_Eol;
end if;
end Usage;
begin
Makeutl.Do_Fail := Report_Error'Access;
end Makegpr;
| true | ------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- PI:NAME:<NAME>END_PI --
-- --
-- B o d y --
-- --
-- Copyright (C) 2004-2006, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Ada.Command_Line; use Ada.Command_Line;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Unchecked_Deallocation;
with Csets;
with Gnatvsn;
with GNAT.Directory_Operations; use GNAT.Directory_Operations;
with GNAT.Dynamic_Tables;
with GNAT.Expect; use GNAT.Expect;
with GNAT.HTable;
with GNAT.OS_Lib; use GNAT.OS_Lib;
with GNAT.Regpat; use GNAT.Regpat;
with Makeutl; use Makeutl;
with MLib.Tgt; use MLib.Tgt;
with Namet; use Namet;
with Output; use Output;
with Opt; use Opt;
with Osint; use Osint;
with Prj; use Prj;
with Prj.Pars;
with Prj.Util; use Prj.Util;
with Snames; use Snames;
with System;
with System.Case_Util; use System.Case_Util;
with Table;
with Types; use Types;
package body Makegpr is
Max_In_Archives : constant := 50;
-- The maximum number of arguments for a single invocation of the
-- Archive Indexer (ar).
No_Argument : aliased Argument_List := (1 .. 0 => null);
-- Null argument list representing case of no arguments
FD : Process_Descriptor;
-- The process descriptor used when invoking a non GNU compiler with -M
-- and getting the output with GNAT.Expect.
Line_Matcher : constant Pattern_Matcher := Compile ("^.*?\n", Single_Line);
-- Pattern for GNAT.Expect for the invocation of a non GNU compiler with -M
Name_Ide : Name_Id;
Name_Compiler_Command : Name_Id;
-- Names of package IDE and its attribute Compiler_Command.
-- Set up by Initialize.
Unique_Compile : Boolean := False;
-- True when switch -u is used on the command line
type Source_Index_Rec is record
Project : Project_Id;
Id : Other_Source_Id;
Found : Boolean := False;
end record;
-- Used as Source_Indexes component to check if archive needs to be rebuilt
type Source_Index_Array is array (Positive range <>) of Source_Index_Rec;
type Source_Indexes_Ref is access Source_Index_Array;
procedure Free is new Ada.Unchecked_Deallocation
(Source_Index_Array, Source_Indexes_Ref);
Initial_Source_Index_Count : constant Positive := 20;
Source_Indexes : Source_Indexes_Ref :=
new Source_Index_Array (1 .. Initial_Source_Index_Count);
-- A list of the Other_Source_Ids of a project file, with an indication
-- that they have been found in the archive dependency file.
Last_Source : Natural := 0;
-- The index of the last valid component of Source_Indexes
Compiler_Names : array (First_Language_Indexes) of String_Access;
-- The names of the compilers to be used. Set up by Get_Compiler.
-- Used to display the commands spawned.
Gnatmake_String : constant String_Access := new String'("gnatmake");
GCC_String : constant String_Access := new String'("gcc");
G_Plus_Plus_String : constant String_Access := new String'("g++");
Default_Compiler_Names : constant array
(First_Language_Indexes range
Ada_Language_Index .. C_Plus_Plus_Language_Index)
of String_Access :=
(Ada_Language_Index => Gnatmake_String,
C_Language_Index => GCC_String,
C_Plus_Plus_Language_Index => G_Plus_Plus_String);
Compiler_Paths : array (First_Language_Indexes) of String_Access;
-- The path names of the compiler to be used. Set up by Get_Compiler.
-- Used to spawn compiling/linking processes.
Compiler_Is_Gcc : array (First_Language_Indexes) of Boolean;
-- An indication that a compiler is a GCC compiler, to be able to use
-- specific GCC switches.
Archive_Builder_Path : String_Access := null;
-- The path name of the archive builder (ar). To be used when spawning
-- ar commands.
Archive_Indexer_Path : String_Access := null;
-- The path name of the archive indexer (ranlib), if it exists
Copyright_Output : Boolean := False;
Usage_Output : Boolean := False;
-- Flags to avoid multiple displays of Copyright notice and of Usage
Output_File_Name : String_Access := null;
-- The name given after a switch -o
Output_File_Name_Expected : Boolean := False;
-- True when last switch was -o
Project_File_Name : String_Access := null;
-- The name of the project file specified with switch -P
Project_File_Name_Expected : Boolean := False;
-- True when last switch was -P
Naming_String : aliased String := "naming";
Builder_String : aliased String := "builder";
Compiler_String : aliased String := "compiler";
Binder_String : aliased String := "binder";
Linker_String : aliased String := "linker";
-- Name of packages to be checked when parsing/processing project files
List_Of_Packages : aliased String_List :=
(Naming_String 'Access,
Builder_String 'Access,
Compiler_String 'Access,
Binder_String 'Access,
Linker_String 'Access);
Packages_To_Check : constant String_List_Access := List_Of_Packages'Access;
-- List of the packages to be checked when parsing/processing project files
Project_Tree : constant Project_Tree_Ref := new Project_Tree_Data;
Main_Project : Project_Id;
-- The project id of the main project
type Processor is (None, Linker, Compiler);
Current_Processor : Processor := None;
-- This variable changes when switches -*args are used
Current_Language : Language_Index := Ada_Language_Index;
-- The compiler language to consider when Processor is Compiler
package Comp_Opts is new GNAT.Dynamic_Tables
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100);
Options : array (First_Language_Indexes) of Comp_Opts.Instance;
-- Tables to store compiling options for the different compilers
package Linker_Options is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Linker_Options");
-- Table to store the linking options
package Library_Opts is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Library_Opts");
-- Table to store the linking options
package Ada_Mains is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Ada_Mains");
-- Table to store the Ada mains, either specified on the command line
-- or found in attribute Main of the main project file.
package Other_Mains is new Table.Table
(Table_Component_Type => Other_Source,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 20,
Table_Increment => 100,
Table_Name => "Makegpr.Other_Mains");
-- Table to store the mains of languages other than Ada, either specified
-- on the command line or found in attribute Main of the main project file.
package Sources_Compiled is new GNAT.HTable.Simple_HTable
(Header_Num => Header_Num,
Element => Boolean,
No_Element => False,
Key => PI:NAME:<NAME>END_PI,
Hash => Hash,
Equal => "=");
package X_Switches is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 2,
Table_Increment => 100,
Table_Name => "Makegpr.X_Switches");
-- Table to store the -X switches to be passed to gnatmake
Initial_Argument_Count : constant Positive := 20;
type Boolean_Array is array (Positive range <>) of Boolean;
type Booleans is access Boolean_Array;
procedure Free is new Ada.Unchecked_Deallocation (Boolean_Array, Booleans);
Arguments : Argument_List_Access :=
new Argument_List (1 .. Initial_Argument_Count);
-- Used to store lists of arguments to be used when spawning a process
Arguments_Displayed : Booleans :=
new Boolean_Array (1 .. Initial_Argument_Count);
-- For each argument in Arguments, indicate if the argument should be
-- displayed when procedure Display_Command is called.
Last_Argument : Natural := 0;
-- Index of the last valid argument in Arguments
package Cache_Args is new Table.Table
(Table_Component_Type => String_Access,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Cache_Args");
-- A table to cache arguments, to avoid multiple allocation of the same
-- strings. It is not possible to use a hash table, because String is
-- an unconstrained type.
-- Various switches used when spawning processes:
Dash_B_String : aliased String := "-B";
Dash_B : constant String_Access := Dash_B_String'Access;
Dash_c_String : aliased String := "-c";
Dash_c : constant String_Access := Dash_c_String'Access;
Dash_cargs_String : aliased String := "-cargs";
Dash_cargs : constant String_Access := Dash_cargs_String'Access;
Dash_d_String : aliased String := "-d";
Dash_d : constant String_Access := Dash_d_String'Access;
Dash_f_String : aliased String := "-f";
Dash_f : constant String_Access := Dash_f_String'Access;
Dash_k_String : aliased String := "-k";
Dash_k : constant String_Access := Dash_k_String'Access;
Dash_largs_String : aliased String := "-largs";
Dash_largs : constant String_Access := Dash_largs_String'Access;
Dash_M_String : aliased String := "-M";
Dash_M : constant String_Access := Dash_M_String'Access;
Dash_margs_String : aliased String := "-margs";
Dash_margs : constant String_Access := Dash_margs_String'Access;
Dash_o_String : aliased String := "-o";
Dash_o : constant String_Access := Dash_o_String'Access;
Dash_P_String : aliased String := "-P";
Dash_P : constant String_Access := Dash_P_String'Access;
Dash_q_String : aliased String := "-q";
Dash_q : constant String_Access := Dash_q_String'Access;
Dash_u_String : aliased String := "-u";
Dash_u : constant String_Access := Dash_u_String'Access;
Dash_v_String : aliased String := "-v";
Dash_v : constant String_Access := Dash_v_String'Access;
Dash_vP1_String : aliased String := "-vP1";
Dash_vP1 : constant String_Access := Dash_vP1_String'Access;
Dash_vP2_String : aliased String := "-vP2";
Dash_vP2 : constant String_Access := Dash_vP2_String'Access;
Dash_x_String : aliased String := "-x";
Dash_x : constant String_Access := Dash_x_String'Access;
r_String : aliased String := "r";
r : constant String_Access := r_String'Access;
CPATH : constant String := "CPATH";
-- The environment variable to set when compiler is a GCC compiler
-- to indicate the include directory path.
Current_Include_Paths : array (First_Language_Indexes) of String_Access;
-- A cache for the paths of included directories, to avoid setting
-- env var CPATH unnecessarily.
C_Plus_Plus_Is_Used : Boolean := False;
-- True when there are sources in C++
Link_Options_Switches : Argument_List_Access := null;
-- The link options coming from the attributes Linker'Linker_Options in
-- project files imported, directly or indirectly, by the main project.
Total_Number_Of_Errors : Natural := 0;
-- Used when Keep_Going is True (switch -k) to keep the total number
-- of compilation/linking errors, to report at the end of execution.
Need_To_Rebuild_Global_Archive : Boolean := False;
Error_Header : constant String := "*** ERROR: ";
-- The beginning of error message, when Keep_Going is True
Need_To_Relink : Boolean := False;
-- True when an executable of a language other than Ada need to be linked
Global_Archive_Exists : Boolean := False;
-- True if there is a non empty global archive, to prevent creation
-- of such archives.
Path_Option : String_Access;
-- The path option switch, when supported
package Lib_Path is new Table.Table
(Table_Component_Type => Character,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 200,
Table_Increment => 50,
Table_Name => "Makegpr.Lib_Path");
-- A table to compute the path to put in the path option switch, when it
-- is supported.
procedure Add_Archives (For_Gnatmake : Boolean);
-- Add to Arguments the list of archives for linking an executable
procedure Add_Argument (Arg : String_Access; Display : Boolean);
procedure Add_Argument (Arg : String; Display : Boolean);
-- Add an argument to Arguments. Reallocate if necessary
procedure Add_Arguments (Args : Argument_List; Display : Boolean);
-- Add a list of arguments to Arguments. Reallocate if necessary
procedure Add_Option (Arg : String);
-- Add a switch for the Ada, C or C++ compiler, or for the linker.
-- The table where this option is stored depends on the values of
-- Current_Processor and Current_Language.
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes);
-- Either add to the Arguments the necessary -I switches needed to
-- compile, or, when compiler is gcc/g++, set up the C*INCLUDE_PATH
-- environment variable, if necessary.
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id);
-- Add a source id to Source_Indexes, with Found set to False
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id);
-- Add to Arguments the switches, if any, for a source (attribute Switches)
-- or language (attribute Default_Switches), coming from package Compiler
-- or Linker (depending on Proc) of a specified project file.
procedure Build_Global_Archive;
-- Build the archive for the main project
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean);
-- Build the library for a library project. If Unconditionally is
-- False, first check if the library is up to date, and build it only
-- if it is not.
procedure Check (Option : String);
-- Check that a switch coming from a project file is not the concatenation
-- of several valid switch, for example "-g -v". If it is, issue a warning.
procedure Check_Archive_Builder;
-- Check if the archive builder (ar) is there
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean);
-- Check if a source of a language other than Ada needs to be compiled or
-- recompiled.
procedure Check_For_C_Plus_Plus;
-- Check if C++ is used in at least one project
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean);
-- Compile one non-Ada source
procedure Compile_Individual_Sources;
-- Compile the sources specified on the command line, when in
-- Unique_Compile mode.
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean);
-- Compile/Link with gnatmake when there are Ada sources in the main
-- project. Arguments may already contain options to be used by
-- gnatmake. Used for both Ada mains and mains of other languages.
-- When Compile_Only is True, do not use the linking options
procedure Compile_Sources;
-- Compile the sources of languages other than Ada, if necessary
procedure Copyright;
-- Output the Copyright notice
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id);
-- Create the archive dependency file for a library project
procedure Create_Global_Archive_Dependency_File (Name : String);
-- Create the archive depenency file for the main project
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null);
-- Display the command for a spawned process, if in Verbose_Mode or
-- not in Quiet_Output.
procedure Get_Compiler (For_Language : First_Language_Indexes);
-- Find the compiler name and path name for a specified programming
-- language, if not already done. Results are in the corresponding
-- elements of arrays Compiler_Names and Compiler_Paths. Name of compiler
-- is found in package IDE of the main project, or defaulted.
-- Fail if compiler cannot be found on the path. For the Ada language,
-- gnatmake, rather than the Ada compiler is returned.
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data);
-- Find the necessary switches -I to be used when compiling sources
-- of languages other than Ada, in a specified project file. Cache the
-- result in component Imported_Directories_Switches of the project data.
-- For gcc/g++ compilers, get the value of the C*_INCLUDE_PATH, instead.
procedure Initialize;
-- Do the necessary package initialization and process the command line
-- arguments.
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean;
-- Return True if the object Object_Name is not overridden by a source
-- in a project extending project Project.
procedure Link_Executables;
-- Link executables
procedure Report_Error (S1 : String; S2 : String := ""; S3 : String := "");
-- Report an error. If Keep_Going is False, just call Osint.Fail.
-- If Keep_Going is True, display the error and increase the total number
-- of errors.
procedure Report_Total_Errors (Kind : String);
-- If Total_Number_Of_Errors is not zero, report it, and fail
procedure Scan_Arg (Arg : String);
-- Process one command line argument
function Strip_CR_LF (Text : String) return String;
-- Remove characters ASCII.CR and ASCII.LF from a String
procedure Usage;
-- Display the usage
------------------
-- Add_Archives --
------------------
procedure Add_Archives (For_Gnatmake : Boolean) is
Last_Arg : constant Natural := Last_Argument;
-- The position of the last argument before adding the archives.
-- Used to reverse the order of the arguments added when processing
-- the archives.
procedure Recursive_Add_Archives (Project : Project_Id);
-- Recursive procedure to add the archive of a project file, if any,
-- then call itself for the project imported.
----------------------------
-- Recursive_Add_Archives --
----------------------------
procedure Recursive_Add_Archives (Project : Project_Id) is
Data : Project_Data;
Imported : Project_List;
Prj : Project_Id;
procedure Add_Archive_Path;
-- For a library project or the main project, add the archive
-- path to the arguments.
----------------------
-- Add_Archive_Path --
----------------------
procedure Add_Archive_Path is
Increment : Positive;
Prev_Last : Positive;
begin
if Data.Library then
-- If it is a library project file, nothing to do if
-- gnatmake will be invoked, because gnatmake will take
-- care of it, even if the library is not an Ada library.
if not For_Gnatmake then
if Data.Library_Kind = Static then
Add_Argument
(Get_Name_String (Data.Library_Dir) &
Directory_Separator &
"lib" & Get_Name_String (Data.Library_Name) &
'.' & Archive_Ext,
Verbose_Mode);
else
-- As we first insert in the reverse order,
-- -L<dir> is put after -l<lib>
Add_Argument
("-l" & Get_Name_String (Data.Library_Name),
Verbose_Mode);
Get_Name_String (Data.Library_Dir);
Add_Argument
("-L" & Name_Buffer (1 .. Name_Len),
Verbose_Mode);
-- If there is a run path option, prepend this
-- directory to the library path. It is probable
-- that the order of the directories in the path
-- option is not important, but just in case
-- put the directories in the same order as the
-- libraries.
if Path_Option /= null then
-- If it is not the first directory, make room
-- at the beginning of the table, including
-- for a path separator.
if Lib_Path.Last > 0 then
Increment := Name_Len + 1;
Prev_Last := Lib_Path.Last;
Lib_Path.Set_Last (Prev_Last + Increment);
for Index in reverse 1 .. Prev_Last loop
Lib_Path.Table (Index + Increment) :=
Lib_Path.Table (Index);
end loop;
Lib_Path.Table (Increment) := Path_Separator;
else
-- If it is the first directory, just set
-- Last to the length of the directory.
Lib_Path.Set_Last (Name_Len);
end if;
-- Put the directory at the beginning of the
-- table.
for Index in 1 .. Name_Len loop
Lib_Path.Table (Index) := Name_Buffer (Index);
end loop;
end if;
end if;
end if;
-- For a non-library project, the only archive needed
-- is the one for the main project, if there is one.
elsif Project = Main_Project and then Global_Archive_Exists then
Add_Argument
(Get_Name_String (Data.Object_Directory) &
Directory_Separator &
"lib" & Get_Name_String (Data.Name) &
'.' & Archive_Ext,
Verbose_Mode);
end if;
end Add_Archive_Path;
begin
-- Nothing to do when there is no project specified
if Project /= No_Project then
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do if the project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid processing it again
Project_Tree.Projects.Table (Project).Seen := True;
Recursive_Add_Archives (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself recursively for all imported projects
while Imported /= Empty_Project_List loop
Prj := Project_Tree.Project_Lists.Table
(Imported).Project;
if Prj /= No_Project then
while Project_Tree.Projects.Table
(Prj).Extended_By /= No_Project
loop
Prj := Project_Tree.Projects.Table
(Prj).Extended_By;
end loop;
Recursive_Add_Archives (Prj);
end if;
Imported := Project_Tree.Project_Lists.Table
(Imported).Next;
end loop;
-- If there is sources of language other than Ada in this
-- project, add the path of the archive to Arguments.
if Project = Main_Project
or else Data.Other_Sources_Present
then
Add_Archive_Path;
end if;
end if;
end if;
end Recursive_Add_Archives;
-- Start of processing for Add_Archives
begin
-- First, mark all projects as not processed
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (Project).Seen := False;
end loop;
-- Take care of the run path option
if Path_Option = null then
Path_Option := MLib.Linker_Library_Path_Option;
end if;
Lib_Path.Set_Last (0);
-- Add archives in the reverse order
Recursive_Add_Archives (Main_Project);
-- And reverse the order
declare
First : Positive := Last_Arg + 1;
Last : Natural := Last_Argument;
Temp : String_Access;
begin
while First < Last loop
Temp := Arguments (First);
Arguments (First) := Arguments (Last);
Arguments (Last) := Temp;
First := First + 1;
Last := Last - 1;
end loop;
end;
end Add_Archives;
------------------
-- Add_Argument --
------------------
procedure Add_Argument (Arg : String_Access; Display : Boolean) is
begin
-- Nothing to do if no argument is specified or if argument is empty
if Arg /= null or else Arg'Length = 0 then
-- Reallocate arrays if necessary
if Last_Argument = Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Initial_Argument_Count);
begin
New_Arguments (Arguments'Range) := Arguments.all;
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (Arguments_Displayed'Range) :=
Arguments_Displayed.all;
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the argument and its display indication
Last_Argument := Last_Argument + 1;
Arguments (Last_Argument) := Arg;
Arguments_Displayed (Last_Argument) := Display;
end if;
end Add_Argument;
procedure Add_Argument (Arg : String; Display : Boolean) is
Argument : String_Access := null;
begin
-- Nothing to do if argument is empty
if Arg'Length > 0 then
-- Check if the argument is already in the Cache_Args table.
-- If it is already there, reuse the allocated value.
for Index in 1 .. Cache_Args.Last loop
if Cache_Args.Table (Index).all = Arg then
Argument := Cache_Args.Table (Index);
exit;
end if;
end loop;
-- If the argument is not in the cache, create a new entry in the
-- cache.
if Argument = null then
Argument := new String'(Arg);
Cache_Args.Increment_Last;
Cache_Args.Table (Cache_Args.Last) := Argument;
end if;
-- And add the argument
Add_Argument (Argument, Display);
end if;
end Add_Argument;
-------------------
-- Add_Arguments --
-------------------
procedure Add_Arguments (Args : Argument_List; Display : Boolean) is
begin
-- Reallocate the arrays, if necessary
if Last_Argument + Args'Length > Arguments'Last then
declare
New_Arguments : constant Argument_List_Access :=
new Argument_List
(1 .. Last_Argument + Args'Length +
Initial_Argument_Count);
New_Arguments_Displayed : constant Booleans :=
new Boolean_Array
(1 .. Last_Argument +
Args'Length +
Initial_Argument_Count);
begin
New_Arguments (1 .. Last_Argument) :=
Arguments (1 .. Last_Argument);
-- To avoid deallocating the strings, nullify all components
-- of Arguments before calling Free.
Arguments.all := (others => null);
Free (Arguments);
Arguments := New_Arguments;
New_Arguments_Displayed (1 .. Last_Argument) :=
Arguments_Displayed (1 .. Last_Argument);
Free (Arguments_Displayed);
Arguments_Displayed := New_Arguments_Displayed;
end;
end if;
-- Add the new arguments and the display indications
Arguments (Last_Argument + 1 .. Last_Argument + Args'Length) := Args;
Arguments_Displayed (Last_Argument + 1 .. Last_Argument + Args'Length) :=
(others => Display);
Last_Argument := Last_Argument + Args'Length;
end Add_Arguments;
----------------
-- Add_Option --
----------------
procedure Add_Option (Arg : String) is
Option : constant String_Access := new String'(Arg);
begin
case Current_Processor is
when None =>
null;
when Linker =>
-- Add option to the linker table
Linker_Options.Increment_Last;
Linker_Options.Table (Linker_Options.Last) := Option;
when Compiler =>
-- Add option to the compiler option table, depending on the
-- value of Current_Language.
Comp_Opts.Increment_Last (Options (Current_Language));
Options (Current_Language).Table
(Comp_Opts.Last (Options (Current_Language))) := Option;
end case;
end Add_Option;
-------------------
-- Add_Source_Id --
-------------------
procedure Add_Source_Id (Project : Project_Id; Id : Other_Source_Id) is
begin
-- Reallocate the array, if necessary
if Last_Source = Source_Indexes'Last then
declare
New_Indexes : constant Source_Indexes_Ref :=
new Source_Index_Array
(1 .. Source_Indexes'Last +
Initial_Source_Index_Count);
begin
New_Indexes (Source_Indexes'Range) := Source_Indexes.all;
Free (Source_Indexes);
Source_Indexes := New_Indexes;
end;
end if;
Last_Source := Last_Source + 1;
Source_Indexes (Last_Source) := (Project, Id, False);
end Add_Source_Id;
----------------------------
-- Add_Search_Directories --
----------------------------
procedure Add_Search_Directories
(Data : Project_Data;
Language : First_Language_Indexes)
is
begin
-- If a GNU compiler is used, set the CPATH environment variable,
-- if it does not already has the correct value.
if Compiler_Is_Gcc (Language) then
if Current_Include_Paths (Language) /= Data.Include_Path then
Current_Include_Paths (Language) := Data.Include_Path;
Setenv (CPATH, Data.Include_Path.all);
end if;
else
Add_Arguments (Data.Imported_Directories_Switches.all, Verbose_Mode);
end if;
end Add_Search_Directories;
------------------
-- Add_Switches --
------------------
procedure Add_Switches
(Data : Project_Data;
Proc : Processor;
Language : Language_Index;
File_Name : Name_Id)
is
Switches : Variable_Value;
-- The switches, if any, for the file/language
Pkg : Package_Id;
-- The id of the package where to look for the switches
Defaults : Array_Element_Id;
-- The Default_Switches associative array
Switches_Array : Array_Element_Id;
-- The Switches associative array
Element_Id : String_List_Id;
Element : String_Element;
begin
-- First, choose the proper package
case Proc is
when None =>
raise Program_Error;
when Linker =>
Pkg := Value_Of (Name_Linker, Data.Decl.Packages, Project_Tree);
when Compiler =>
Pkg := Value_Of (Name_Compiler, Data.Decl.Packages, Project_Tree);
end case;
if Pkg /= No_Package then
-- Get the Switches ("file name"), if they exist
Switches_Array := Prj.Util.Value_Of
(Name => Name_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches :=
Prj.Util.Value_Of
(Index => File_Name,
Src_Index => 0,
In_Array => Switches_Array,
In_Tree => Project_Tree);
-- Otherwise, get the Default_Switches ("language"), if they exist
if Switches = Nil_Variable_Value then
Defaults := Prj.Util.Value_Of
(Name => Name_Default_Switches,
In_Arrays => Project_Tree.Packages.Table
(Pkg).Decl.Arrays,
In_Tree => Project_Tree);
Switches := Prj.Util.Value_Of
(Index => Language_Names.Table (Language),
Src_Index => 0,
In_Array => Defaults,
In_Tree => Project_Tree);
end if;
-- If there are switches, add them to Arguments
if Switches /= Nil_Variable_Value then
Element_Id := Switches.Values;
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if not Quiet_Output then
-- When not in quiet output (no -q), check that the
-- switch is not the concatenation of several valid
-- switches, such as "-g -v". If it is, issue a warning.
Check (Option => Name_Buffer (1 .. Name_Len));
end if;
Add_Argument (Name_Buffer (1 .. Name_Len), True);
end if;
Element_Id := Element.Next;
end loop;
end if;
end if;
end Add_Switches;
--------------------------
-- Build_Global_Archive --
--------------------------
procedure Build_Global_Archive is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
S_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Need_To_Rebuild_Global_Archive;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Path : Name_Id;
Time_Stamp : Time_Stamp_Type;
Saved_Last_Argument : Natural;
First_Object : Natural;
Discard : Boolean;
begin
Check_Archive_Builder;
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in
-- Source_Indexes.
declare
Local_Data : Project_Data;
begin
Last_Source := 0;
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Data := Project_Tree.Projects.Table (Proj);
if not Local_Data.Library then
Source_Id := Local_Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Proj, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
end if;
end loop;
end;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the path of the object file
Object_Path := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
S_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table (S_Id);
if (not Source_Indexes (S).Found)
and then Source.Object_Path = Object_Path
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := S_Id;
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Path));
Write_Line (" is not an object of any project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of characters, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Path));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
end if;
end if;
end if;
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Source /= 0;
-- Archive needs to be rebuilt
else
-- If archive already exists, first delete it
-- Comment needed on why we discard result???
if Is_Regular_File (Archive_Name) then
Delete_File (Archive_Name, Discard);
end if;
Last_Argument := 0;
-- Start with the options found in MLib.Tgt (usually just "rc")
Add_Arguments (Archive_Builder_Options.all, True);
-- Followed by the archive name
Add_Argument (Archive_Name, True);
First_Object := Last_Argument;
-- Followed by all the object files of the non library projects
for Proj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Proj);
if not Data.Library then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
-- Only include object file name that have not been
-- overriden in extending projects.
if Is_Included_In_Global_Archive
(Source.Object_Name, Proj)
then
Add_Argument
(Get_Name_String (Source.Object_Path), Verbose_Mode);
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- No need to create a global archive, if there is no object
-- file to put into.
Global_Archive_Exists := Last_Argument > First_Object;
if Global_Archive_Exists then
-- If the archive is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
-- Spawn the archive builder (ar)
Saved_Last_Argument := Last_Argument;
Last_Argument := First_Object + Max_In_Archives;
loop
if Last_Argument > Saved_Last_Argument then
Last_Argument := Saved_Last_Argument;
end if;
Display_Command (Archive_Builder, Archive_Builder_Path);
Spawn
(Archive_Builder_Path.all,
Arguments (1 .. Last_Argument),
Success);
exit when not Success;
exit when Last_Argument = Saved_Last_Argument;
Arguments (1) := r;
Arguments (3 .. Saved_Last_Argument - Last_Argument + 2) :=
Arguments (Last_Argument + 1 .. Saved_Last_Argument);
Saved_Last_Argument := Saved_Last_Argument - Last_Argument + 2;
end loop;
-- If the archive was built, run the archive indexer (ranlib)
-- if there is one.
if Success then
-- If the archive was built, run the archive indexer (ranlib),
-- if there is one.
if Archive_Indexer_Path /= null then
Last_Argument := 0;
Add_Argument (Archive_Name, True);
Display_Command (Archive_Indexer, Archive_Indexer_Path);
Spawn
(Archive_Indexer_Path.all, Arguments (1 .. 1), Success);
if not Success then
-- Running ranlib failed, delete the dependency file,
-- if it exists.
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("running" & Archive_Indexer & " for project """,
Get_Name_String (Data.Name),
""" failed");
return;
end if;
end if;
-- The archive was correctly built, create its dependency file
Create_Global_Archive_Dependency_File (Archive_Dep_Name);
-- Building the archive failed, delete dependency file if one
-- exists.
else
if Is_Regular_File (Archive_Dep_Name) then
Delete_File (Archive_Dep_Name, Success);
end if;
-- And report the error
Report_Error
("building archive for project """,
Get_Name_String (Data.Name),
""" failed");
end if;
end if;
end if;
end Build_Global_Archive;
-------------------
-- Build_Library --
-------------------
procedure Build_Library (Project : Project_Id; Unconditionally : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Archive_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & '.' & Archive_Ext;
-- The name of the archive file for this project
Archive_Dep_Name : constant String :=
"lib" & Get_Name_String (Data.Name) & ".deps";
-- The name of the archive dependency file for this project
Need_To_Rebuild : Boolean := Unconditionally;
-- When True, archive will be rebuilt
File : Prj.Util.Text_File;
Object_Name : Name_Id;
Time_Stamp : Time_Stamp_Type;
Driver_Name : Name_Id := No_Name;
Lib_Opts : Argument_List_Access := No_Argument'Access;
begin
Check_Archive_Builder;
-- If Unconditionally is False, check if the archive need to be built
if not Need_To_Rebuild then
if Verbose_Mode then
Write_Str (" Checking ");
Write_Line (Archive_Name);
end if;
-- If the archive does not exist, of course it needs to be built
if not Is_Regular_File (Archive_Name) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Line (" -> archive does not exist");
end if;
-- Archive does exist
else
-- Check the archive dependency file
Open (File, Archive_Dep_Name);
-- If the archive dependency file does not exist, we need to
-- to rebuild the archive and to create its dependency file.
if not Is_Valid (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Str (Archive_Dep_Name);
Write_Line (" does not exist");
end if;
else
-- Put all sources of language other than Ada in Source_Indexes
Last_Source := 0;
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Add_Source_Id (Project, Source_Id);
Source_Id := Project_Tree.Other_Sources.Table
(Source_Id).Next;
end loop;
-- Read the dependency file, line by line
while not End_Of_File (File) loop
Get_Line (File, Name_Buffer, Name_Len);
-- First line is the name of an object file
Object_Name := Name_Find;
Source_Id := No_Other_Source;
-- Check if this object file is for a source of this project
for S in 1 .. Last_Source loop
if (not Source_Indexes (S).Found)
and then
Project_Tree.Other_Sources.Table
(Source_Indexes (S).Id).Object_Name = Object_Name
then
-- We have found the object file: get the source
-- data, and mark it as found.
Source_Id := Source_Indexes (S).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Source_Indexes (S).Found := True;
exit;
end if;
end loop;
-- If it is not for a source of this project, then the
-- archive needs to be rebuilt.
if Source_Id = No_Other_Source then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Get_Name_String (Object_Name));
Write_Line (" is not an object of the project");
end if;
exit;
end if;
-- The second line is the time stamp of the object file.
-- If there is no next line, then the dependency file is
-- truncated, and the archive need to be rebuilt.
if End_Of_File (File) then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is truncated");
end if;
exit;
end if;
Get_Line (File, Name_Buffer, Name_Len);
-- If the line has the wrong number of character, then
-- the dependency file is incorrectly formatted, and the
-- archive needs to be rebuilt.
if Name_Len /= Time_Stamp_Length then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> archive dependency file ");
Write_Line (" is incorrectly formatted (time stamp)");
end if;
exit;
end if;
Time_Stamp := Time_Stamp_Type (Name_Buffer (1 .. Name_Len));
-- If the time stamp in the dependency file is different
-- from the time stamp of the object file, then the archive
-- needs to be rebuilt.
if Time_Stamp /= Source.Object_TS then
Need_To_Rebuild := True;
if Verbose_Mode then
Write_Str (" -> time stamp of ");
Write_Str (Get_Name_String (Object_Name));
Write_Str (" is incorrect in the archive");
Write_Line (" dependency file");
end if;
exit;
end if;
end loop;
Close (File);
if not Need_To_Rebuild then
-- Now, check if all object files of the project have been
-- accounted for. If any of them is not in the dependency
-- file, the archive needs to be rebuilt.
for Index in 1 .. Last_Source loop
if not Source_Indexes (Index).Found then
Need_To_Rebuild := True;
if Verbose_Mode then
Source_Id := Source_Indexes (Index).Id;
Source := Project_Tree.Other_Sources.Table
(Source_Id);
Write_Str (" -> ");
Write_Str (Get_Name_String (Source.Object_Name));
Write_Str (" is not in the archive ");
Write_Line ("dependency file");
end if;
exit;
end if;
end loop;
end if;
if (not Need_To_Rebuild) and Verbose_Mode then
Write_Line (" -> up to date");
end if;
end if;
end if;
end if;
-- Build the library if necessary
if Need_To_Rebuild then
-- If a library is built, then linking will need to occur
-- unconditionally.
Need_To_Relink := True;
Last_Argument := 0;
-- If there are sources in Ada, then gnatmake will build the
-- library, so nothing to do.
if not Data.Languages (Ada_Language_Index) then
-- Get all the object files of the project
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
Source_Id := Source.Next;
end loop;
-- If it is a library, it need to be built it the same way
-- Ada libraries are built.
if Data.Library_Kind = Static then
MLib.Build_Library
(Ofiles => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Output_File => Get_Name_String (Data.Library_Name),
Output_Dir => Get_Name_String (Data.Library_Dir));
else
-- Link with g++ if C++ is one of the languages, otherwise
-- building the library may fail with unresolved symbols.
if C_Plus_Plus_Is_Used then
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
if Compiler_Is_Gcc (C_Plus_Plus_Language_Index) then
Name_Len := 0;
Add_Str_To_Name_Buffer
(Compiler_Names (C_Plus_Plus_Language_Index).all);
Driver_Name := Name_Find;
end if;
end if;
-- If Library_Options is specified, add these options
declare
Library_Options : constant Variable_Value :=
Value_Of
(Name_Library_Options,
Data.Decl.Attributes,
Project_Tree);
begin
if not Library_Options.Default then
declare
Current : String_List_Id := Library_Options.Values;
Element : String_Element;
begin
while Current /= Nil_String loop
Element := Project_Tree.String_Elements.
Table (Current);
Get_Name_String (Element.Value);
if Name_Len /= 0 then
Library_Opts.Increment_Last;
Library_Opts.Table (Library_Opts.Last) :=
new String'(Name_Buffer (1 .. Name_Len));
end if;
Current := Element.Next;
end loop;
end;
end if;
Lib_Opts :=
new Argument_List'(Argument_List
(Library_Opts.Table (1 .. Library_Opts.Last)));
end;
MLib.Tgt.Build_Dynamic_Library
(Ofiles => Arguments (1 .. Last_Argument),
Foreign => Arguments (1 .. Last_Argument),
Afiles => No_Argument,
Options => No_Argument,
Options_2 => Lib_Opts.all,
Interfaces => No_Argument,
Lib_Filename => Get_Name_String (Data.Library_Name),
Lib_Dir => Get_Name_String (Data.Library_Dir),
Symbol_Data => No_Symbols,
Driver_Name => Driver_Name,
Lib_Version => "",
Auto_Init => False);
end if;
end if;
-- Create fake empty archive, so we can check its time stamp later
declare
Archive : Ada.Text_IO.File_Type;
begin
Create (Archive, Out_File, Archive_Name);
Close (Archive);
end;
Create_Archive_Dependency_File
(Archive_Dep_Name, Data.First_Other_Source);
end if;
end Build_Library;
-----------
-- Check --
-----------
procedure Check (Option : String) is
First : Positive := Option'First;
Last : Natural;
begin
for Index in Option'First + 1 .. Option'Last - 1 loop
if Option (Index) = ' ' and then Option (Index + 1) = '-' then
Write_Str ("warning: switch """);
Write_Str (Option);
Write_Str (""" is suspicious; consider using ");
Last := First;
while Last <= Option'Last loop
if Option (Last) = ' ' then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last - 1));
Write_Char ('"');
while Last <= Option'Last and then Option (Last) = ' ' loop
Last := Last + 1;
end loop;
First := Last;
else
if Last = Option'Last then
if First /= Option'First then
Write_Str (", ");
end if;
Write_Char ('"');
Write_Str (Option (First .. Last));
Write_Char ('"');
end if;
Last := Last + 1;
end if;
end loop;
Write_Line (" instead");
exit;
end if;
end loop;
end Check;
---------------------------
-- Check_Archive_Builder --
---------------------------
procedure Check_Archive_Builder is
begin
-- First, make sure that the archive builder (ar) is on the path
if Archive_Builder_Path = null then
Archive_Builder_Path := Locate_Exec_On_Path (Archive_Builder);
if Archive_Builder_Path = null then
Osint.Fail
("unable to locate archive builder """,
Archive_Builder,
"""");
end if;
-- If there is an archive indexer (ranlib), try to locate it on the
-- path. Don't fail if it is not found.
if Archive_Indexer /= "" then
Archive_Indexer_Path := Locate_Exec_On_Path (Archive_Indexer);
end if;
end if;
end Check_Archive_Builder;
------------------------------
-- Check_Compilation_Needed --
------------------------------
procedure Check_Compilation_Needed
(Source : Other_Source;
Need_To_Compile : out Boolean)
is
Source_Name : constant String := Get_Name_String (Source.File_Name);
Source_Path : constant String := Get_Name_String (Source.Path_Name);
Object_Name : constant String := Get_Name_String (Source.Object_Name);
Dep_Name : constant String := Get_Name_String (Source.Dep_Name);
Source_In_Dependencies : Boolean := False;
-- Set True if source was found in dependency file of its object file
Dep_File : Prj.Util.Text_File;
Start : Natural;
Finish : Natural;
begin
-- Assume the worst, so that statement "return;" may be used if there
-- is any problem.
Need_To_Compile := True;
if Verbose_Mode then
Write_Str (" Checking ");
Write_Str (Source_Name);
Write_Line (" ... ");
end if;
-- If object file does not exist, of course source need to be compiled
if Source.Object_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- If the object file has been created before the last modification
-- of the source, the source need to be recompiled.
if Source.Object_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> object file ");
Write_Str (Object_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- If there is no dependency file, then the source needs to be
-- recompiled and the dependency file need to be created.
if Source.Dep_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" does not exist");
end if;
return;
end if;
-- The source needs to be recompiled if the source has been modified
-- after the dependency file has been created.
if Source.Dep_TS < Source.Source_TS then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has time stamp earlier than source");
end if;
return;
end if;
-- Look for all dependencies
Open (Dep_File, Dep_Name);
-- If dependency file cannot be open, we need to recompile the source
if not Is_Valid (Dep_File) then
if Verbose_Mode then
Write_Str (" -> could not open dependency file ");
Write_Line (Dep_Name);
end if;
return;
end if;
declare
End_Of_File_Reached : Boolean := False;
begin
loop
if End_Of_File (Dep_File) then
End_Of_File_Reached := True;
exit;
end if;
Get_Line (Dep_File, Name_Buffer, Name_Len);
exit when Name_Len > 0 and then Name_Buffer (1) /= '#';
end loop;
-- If dependency file contains only empty lines or comments, then
-- dependencies are unknown, and the source needs to be recompiled.
if End_Of_File_Reached then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" is empty");
end if;
Close (Dep_File);
return;
end if;
end;
Start := 1;
Finish := Index (Name_Buffer (1 .. Name_Len), ": ");
-- First line must start with name of object file, followed by colon
if Finish = 0 or else Name_Buffer (1 .. Finish - 1) /= Object_Name then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
else
Start := Finish + 2;
-- Process each line
Line_Loop : loop
declare
Line : constant String := Name_Buffer (1 .. Name_Len);
Last : constant Natural := Name_Len;
begin
Name_Loop : loop
-- Find the beginning of the next source path name
while Start < Last and then Line (Start) = ' ' loop
Start := Start + 1;
end loop;
-- Go to next line when there is a continuation character \
-- at the end of the line.
exit Name_Loop when Start = Last
and then Line (Start) = '\';
-- We should not be at the end of the line, without
-- a continuation character \.
if Start = Last then
if Verbose_Mode then
Write_Str (" -> dependency file ");
Write_Str (Dep_Name);
Write_Line (" has wrong format");
end if;
Close (Dep_File);
return;
end if;
-- Look for the end of the source path name
Finish := Start;
while Finish < Last and then Line (Finish + 1) /= ' ' loop
Finish := Finish + 1;
end loop;
-- Check this source
declare
Src_Name : constant String :=
Normalize_Pathname
(Name => Line (Start .. Finish),
Case_Sensitive => False);
Src_TS : Time_Stamp_Type;
begin
-- If it is original source, set Source_In_Dependencies
if Src_Name = Source_Path then
Source_In_Dependencies := True;
end if;
Name_Len := 0;
Add_Str_To_Name_Buffer (Src_Name);
Src_TS := File_Stamp (Name_Find);
-- If the source does not exist, we need to recompile
if Src_TS = Empty_Time_Stamp then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line (" does not exist");
end if;
Close (Dep_File);
return;
-- If the source has been modified after the object file,
-- we need to recompile.
elsif Src_TS > Source.Object_TS then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Src_Name);
Write_Line
(" has time stamp later than object file");
end if;
Close (Dep_File);
return;
end if;
end;
-- If the source path name ends the line, we are done
exit Line_Loop when Finish = Last;
-- Go get the next source on the line
Start := Finish + 1;
end loop Name_Loop;
end;
-- If we are here, we had a continuation character \ at the end
-- of the line, so we continue with the next line.
Get_Line (Dep_File, Name_Buffer, Name_Len);
Start := 1;
end loop Line_Loop;
end if;
Close (Dep_File);
-- If the original sources were not in the dependency file, then we
-- need to recompile. It may mean that we are using a different source
-- (different variant) for this object file.
if not Source_In_Dependencies then
if Verbose_Mode then
Write_Str (" -> source ");
Write_Str (Source_Path);
Write_Line (" is not in the dependencies");
end if;
return;
end if;
-- If we are here, then everything is OK, and we don't need
-- to recompile.
if Verbose_Mode then
Write_Line (" -> up to date");
end if;
Need_To_Compile := False;
end Check_Compilation_Needed;
---------------------------
-- Check_For_C_Plus_Plus --
---------------------------
procedure Check_For_C_Plus_Plus is
begin
C_Plus_Plus_Is_Used := False;
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if
Project_Tree.Projects.Table (Project).Languages
(C_Plus_Plus_Language_Index)
then
C_Plus_Plus_Is_Used := True;
exit;
end if;
end loop;
end Check_For_C_Plus_Plus;
-------------
-- Compile --
-------------
procedure Compile
(Source_Id : Other_Source_Id;
Data : Project_Data;
Local_Errors : in out Boolean)
is
Source : Other_Source :=
Project_Tree.Other_Sources.Table (Source_Id);
Success : Boolean;
CPATH : String_Access := null;
begin
-- If the compiler is not known yet, get its path name
if Compiler_Names (Source.Language) = null then
Get_Compiler (Source.Language);
end if;
-- For non GCC compilers, get the dependency file, first calling the
-- compiler with the switch -M.
if not Compiler_Is_Gcc (Source.Language) then
Last_Argument := 0;
-- Add the source name, preceded by -M
Add_Argument (Dash_M, True);
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Add the compiling switches for the language specified
-- on the command line, if any.
for
J in 1 .. Comp_Opts.Last (Options (Source.Language))
loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add imported directory switches for this project file
Add_Search_Directories (Data, Source.Language);
-- And invoke the compiler using GNAT.Expect
Display_Command
(Compiler_Names (Source.Language).all,
Compiler_Paths (Source.Language));
begin
Non_Blocking_Spawn
(FD,
Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Buffer_Size => 0,
Err_To_Out => True);
declare
Dep_File : Ada.Text_IO.File_Type;
Result : Expect_Match;
Status : Integer;
begin
-- Create the dependency file
Create (Dep_File, Out_File, Get_Name_String (Source.Dep_Name));
loop
Expect (FD, Result, Line_Matcher);
exit when Result = Expect_Timeout;
declare
S : constant String := Strip_CR_LF (Expect_Out (FD));
begin
-- Each line of the output is put in the dependency
-- file, including errors. If there are errors, the
-- syntax of the dependency file will be incorrect and
-- recompilation will occur automatically the next time
-- the dependencies are checked.
Put_Line (Dep_File, S);
end;
end loop;
-- If we are here, it means we had a timeout, so the
-- dependency file may be incomplete. It is safer to
-- delete it, otherwise the dependencies may be wrong.
Close (FD, Status);
Close (Dep_File);
Delete_File (Get_Name_String (Source.Dep_Name), Success);
exception
when Process_Died =>
-- This is the normal outcome. Just close the file
Close (FD, Status);
Close (Dep_File);
when others =>
-- Something wrong happened. It is safer to delete the
-- dependency file, otherwise the dependencies may be wrong.
Close (FD, Status);
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
exception
-- If we cannot spawn the compiler, then the dependencies are
-- not updated. It is safer then to delete the dependency file,
-- otherwise the dependencies may be wrong.
when Invalid_Process =>
Delete_File (Get_Name_String (Source.Dep_Name), Success);
end;
end if;
Last_Argument := 0;
-- For GCC compilers, make sure the language is always specified to
-- to the GCC driver, in case the extension is not recognized by the
-- GCC driver as a source of the language.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument (Dash_x, Verbose_Mode);
Add_Argument
(Get_Name_String (Language_Names.Table (Source.Language)),
Verbose_Mode);
end if;
Add_Argument (Dash_c, True);
-- Add the compiling switches for this source found in
-- package Compiler of the project file, if they exist.
Add_Switches
(Data, Compiler, Source.Language, Source.File_Name);
-- Specify the source to be compiled
Add_Argument (Get_Name_String (Source.Path_Name), True);
-- If non static library project, compile with the PIC option if there
-- is one (when there is no PIC option, function MLib.Tgt.PIC_Option
-- returns an empty string, and Add_Argument with an empty string has
-- no effect).
if Data.Library and then Data.Library_Kind /= Static then
Add_Argument (PIC_Option, True);
end if;
-- Indicate the name of the object
Add_Argument (Dash_o, True);
Add_Argument (Get_Name_String (Source.Object_Name), True);
-- When compiler is GCC, use the magic switch that creates
-- the dependency file in the correct format.
if Compiler_Is_Gcc (Source.Language) then
Add_Argument
("-Wp,-MD," & Get_Name_String (Source.Dep_Name),
Verbose_Mode);
end if;
-- Add the compiling switches for the language specified
-- on the command line, if any.
for J in 1 .. Comp_Opts.Last (Options (Source.Language)) loop
Add_Argument (Options (Source.Language).Table (J), True);
end loop;
-- Finally, add the imported directory switches for this
-- project file (or, for gcc compilers, set up the CPATH env var
-- if needed).
Add_Search_Directories (Data, Source.Language);
-- Set CPATH, if compiler is GCC
if Compiler_Is_Gcc (Source.Language) then
CPATH := Current_Include_Paths (Source.Language);
end if;
-- And invoke the compiler
Display_Command
(Name => Compiler_Names (Source.Language).all,
Path => Compiler_Paths (Source.Language),
CPATH => CPATH);
Spawn
(Compiler_Paths (Source.Language).all,
Arguments (1 .. Last_Argument),
Success);
-- Case of successful compilation
if Success then
-- Update the time stamp of the object file
Source.Object_TS := File_Stamp (Source.Object_Name);
-- Do some sanity checks
if Source.Object_TS = Empty_Time_Stamp then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been created");
elsif Source.Object_TS < Source.Source_TS then
Local_Errors := True;
Report_Error
("object file ",
Get_Name_String (Source.Object_Name),
" has not been modified");
else
-- Everything looks fine, update the Other_Sources table
Project_Tree.Other_Sources.Table (Source_Id) := Source;
end if;
-- Compilation failed
else
Local_Errors := True;
Report_Error
("compilation of ",
Get_Name_String (Source.Path_Name),
" failed");
end if;
end Compile;
--------------------------------
-- Compile_Individual_Sources --
--------------------------------
procedure Compile_Individual_Sources is
Data : Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Source_Id : Other_Source_Id;
Source : Other_Source;
Source_Name : Name_Id;
Project_Name : String := Get_Name_String (Data.Name);
Dummy : Boolean := False;
Ada_Is_A_Language : constant Boolean :=
Data.Languages (Ada_Language_Index);
begin
Ada_Mains.Init;
To_Mixed (Project_Name);
Compile_Only := True;
Get_Imported_Directories (Main_Project, Data);
Project_Tree.Projects.Table (Main_Project) := Data;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
if not Data.Other_Sources_Present then
if Ada_Is_A_Language then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
end;
end loop;
else
Osint.Fail
("project ", Project_Name, " contains no source");
end if;
else
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
Name_Len := Main'Length;
exit when Name_Len = 0;
Name_Buffer (1 .. Name_Len) := Main;
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Source_Name := Name_Find;
if not Sources_Compiled.Get (Source_Name) then
Sources_Compiled.Set (Source_Name, True);
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Source_Name;
Source_Id := Source.Next;
end loop;
if Source_Id = No_Other_Source then
if Ada_Is_A_Language then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
else
Report_Error
(Main,
" is not a valid source of project ",
Project_Name);
end if;
else
Compile (Source_Id, Data, Dummy);
end if;
end if;
end;
end loop;
end if;
if Ada_Mains.Last > 0 then
-- Invoke gnatmake for all Ada sources
Last_Argument := 0;
Add_Argument (Dash_u, True);
for Index in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Index), True);
end loop;
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
end Compile_Individual_Sources;
--------------------------------
-- Compile_Link_With_Gnatmake --
--------------------------------
procedure Compile_Link_With_Gnatmake (Mains_Specified : Boolean) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Success : Boolean;
begin
-- Array Arguments may already contain some arguments, so we don't
-- set Last_Argument to 0.
-- Get the gnatmake to invoke
Get_Compiler (Ada_Language_Index);
-- Specify the project file
Add_Argument (Dash_P, True);
Add_Argument (Get_Name_String (Data.Path_Name), True);
-- Add the -X switches, if any
for Index in 1 .. X_Switches.Last loop
Add_Argument (X_Switches.Table (Index), True);
end loop;
-- If Mains_Specified is True, find the mains in package Mains
if Mains_Specified then
Mains.Reset;
loop
declare
Main : constant String := Mains.Next_Main;
begin
exit when Main'Length = 0;
Add_Argument (Main, True);
end;
end loop;
end if;
-- Specify output file name, if any was specified on the command line
if Output_File_Name /= null then
Add_Argument (Dash_o, True);
Add_Argument (Output_File_Name, True);
end if;
-- Transmit some switches to gnatmake
-- -c
if Compile_Only then
Add_Argument (Dash_c, True);
end if;
-- -d
if Display_Compilation_Progress then
Add_Argument (Dash_d, True);
end if;
-- -k
if Keep_Going then
Add_Argument (Dash_k, True);
end if;
-- -f
if Force_Compilations then
Add_Argument (Dash_f, True);
end if;
-- -v
if Verbose_Mode then
Add_Argument (Dash_v, True);
end if;
-- -q
if Quiet_Output then
Add_Argument (Dash_q, True);
end if;
-- -vP1 and -vP2
case Current_Verbosity is
when Default =>
null;
when Medium =>
Add_Argument (Dash_vP1, True);
when High =>
Add_Argument (Dash_vP2, True);
end case;
-- If there are compiling options for Ada, transmit them to gnatmake
if Comp_Opts.Last (Options (Ada_Language_Index)) /= 0 then
Add_Argument (Dash_cargs, True);
for Arg in 1 .. Comp_Opts.Last (Options (Ada_Language_Index)) loop
Add_Argument (Options (Ada_Language_Index).Table (Arg), True);
end loop;
end if;
if not Compile_Only then
-- Linking options
if Linker_Options.Last /= 0 then
Add_Argument (Dash_largs, True);
else
Add_Argument (Dash_largs, Verbose_Mode);
end if;
-- Add the archives
Add_Archives (For_Gnatmake => True);
-- If there are linking options from the command line,
-- transmit them to gnatmake.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
end if;
-- And invoke gnatmake
Display_Command
(Compiler_Names (Ada_Language_Index).all,
Compiler_Paths (Ada_Language_Index));
Spawn
(Compiler_Paths (Ada_Language_Index).all,
Arguments (1 .. Last_Argument),
Success);
-- Report an error if call to gnatmake failed
if not Success then
Report_Error
("invocation of ",
Compiler_Names (Ada_Language_Index).all,
" failed");
end if;
end Compile_Link_With_Gnatmake;
---------------------
-- Compile_Sources --
---------------------
procedure Compile_Sources is
Data : Project_Data;
Source_Id : Other_Source_Id;
Source : Other_Source;
Local_Errors : Boolean := False;
-- Set to True when there is a compilation error. Used only when
-- Keep_Going is True, to inhibit the building of the archive.
Need_To_Compile : Boolean;
-- Set to True when a source needs to be compiled/recompiled
Need_To_Rebuild_Archive : Boolean := Force_Compilations;
-- True when the archive needs to be built/rebuilt unconditionally
Total_Number_Of_Sources : Int := 0;
Current_Source_Number : Int := 0;
begin
-- First, get the number of sources
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Data := Project_Tree.Projects.Table (Project);
if (not Data.Virtual) and then Data.Other_Sources_Present then
Source_Id := Data.First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Total_Number_Of_Sources := Total_Number_Of_Sources + 1;
Source_Id := Source.Next;
end loop;
end if;
end loop;
-- Loop through project files
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Local_Errors := False;
Data := Project_Tree.Projects.Table (Project);
-- Nothing to do when no sources of language other than Ada
if (not Data.Virtual) and then Data.Other_Sources_Present then
-- If the imported directory switches are unknown, compute them
if not Data.Include_Data_Set then
Get_Imported_Directories (Project, Data);
Data.Include_Data_Set := True;
Project_Tree.Projects.Table (Project) := Data;
end if;
Need_To_Rebuild_Archive := Force_Compilations;
-- Compilation will occur in the object directory
Change_Dir (Get_Name_String (Data.Object_Directory));
Source_Id := Data.First_Other_Source;
-- Process each source one by one
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Current_Source_Number := Current_Source_Number + 1;
Need_To_Compile := Force_Compilations;
-- Check if compilation is needed
if not Need_To_Compile then
Check_Compilation_Needed (Source, Need_To_Compile);
end if;
-- Proceed, if compilation is needed
if Need_To_Compile then
-- If a source is compiled/recompiled, of course the
-- archive will need to be built/rebuilt.
Need_To_Rebuild_Archive := True;
Compile (Source_Id, Data, Local_Errors);
end if;
if Display_Compilation_Progress then
Write_Str ("completed ");
Write_Int (Current_Source_Number);
Write_Str (" out of ");
Write_Int (Total_Number_Of_Sources);
Write_Str (" (");
Write_Int
((Current_Source_Number * 100) / Total_Number_Of_Sources);
Write_Str ("%)...");
Write_Eol;
end if;
-- Next source, if any
Source_Id := Source.Next;
end loop;
if Need_To_Rebuild_Archive and then (not Data.Library) then
Need_To_Rebuild_Global_Archive := True;
end if;
-- If there was no compilation error and -c was not used,
-- build / rebuild the archive if necessary.
if not Local_Errors
and then Data.Library
and then not Data.Languages (Ada_Language_Index)
and then not Compile_Only
then
Build_Library (Project, Need_To_Rebuild_Archive);
end if;
end if;
end loop;
end Compile_Sources;
---------------
-- Copyright --
---------------
procedure Copyright is
begin
-- Only output the Copyright notice once
if not Copyright_Output then
Copyright_Output := True;
Write_Eol;
Write_Str ("GPRMAKE ");
Write_Str (Gnatvsn.Gnat_Version_String);
Write_Str (" Copyright 2004 Free Software Foundation, Inc.");
Write_Eol;
end if;
end Copyright;
------------------------------------
-- Create_Archive_Dependency_File --
------------------------------------
procedure Create_Archive_Dependency_File
(Name : String;
First_Source : Other_Source_Id)
is
Source_Id : Other_Source_Id := First_Source;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
Put_Line (Dep_File, Get_Name_String (Source.Object_Name));
Put_Line (Dep_File, String (Source.Object_TS));
Source_Id := Source.Next;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Archive_Dependency_File;
-------------------------------------------
-- Create_Global_Archive_Dependency_File --
-------------------------------------------
procedure Create_Global_Archive_Dependency_File (Name : String) is
Source_Id : Other_Source_Id;
Source : Other_Source;
Dep_File : Ada.Text_IO.File_Type;
begin
-- Create the file in Append mode, to avoid automatic insertion of
-- an end of line if file is empty.
Create (Dep_File, Append_File, Name);
-- Get all the object files of non-Ada sources in non-library projects
for Project in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
if not Project_Tree.Projects.Table (Project).Library then
Source_Id :=
Project_Tree.Projects.Table (Project).First_Other_Source;
while Source_Id /= No_Other_Source loop
Source := Project_Tree.Other_Sources.Table (Source_Id);
-- Put only those object files that are in the global archive
if Is_Included_In_Global_Archive
(Source.Object_Name, Project)
then
Put_Line (Dep_File, Get_Name_String (Source.Object_Path));
Put_Line (Dep_File, String (Source.Object_TS));
end if;
Source_Id := Source.Next;
end loop;
end if;
end loop;
Close (Dep_File);
exception
when others =>
if Is_Open (Dep_File) then
Close (Dep_File);
end if;
end Create_Global_Archive_Dependency_File;
---------------------
-- Display_Command --
---------------------
procedure Display_Command
(Name : String;
Path : String_Access;
CPATH : String_Access := null)
is
begin
-- Only display the command in Verbose Mode (-v) or when
-- not in Quiet Output (no -q).
if Verbose_Mode or (not Quiet_Output) then
-- In Verbose Mode output the full path of the spawned process
if Verbose_Mode then
if CPATH /= null then
Write_Str ("CPATH = ");
Write_Line (CPATH.all);
end if;
Write_Str (Path.all);
else
Write_Str (Name);
end if;
-- Display only the arguments for which the display flag is set
-- (in Verbose Mode, the display flag is set for all arguments)
for Arg in 1 .. Last_Argument loop
if Arguments_Displayed (Arg) then
Write_Char (' ');
Write_Str (Arguments (Arg).all);
end if;
end loop;
Write_Eol;
end if;
end Display_Command;
------------------
-- Get_Compiler --
------------------
procedure Get_Compiler (For_Language : First_Language_Indexes) is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Ide : constant Package_Id :=
Value_Of
(Name_Ide,
In_Packages => Data.Decl.Packages,
In_Tree => Project_Tree);
-- The id of the package IDE in the project file
Compiler : constant Variable_Value :=
Value_Of
(Name => Language_Names.Table (For_Language),
Index => 0,
Attribute_Or_Array_Name => Name_Compiler_Command,
In_Package => Ide,
In_Tree => Project_Tree);
-- The value of Compiler_Command ("language") in package IDE, if defined
begin
-- No need to do it again if the compiler is known for this language
if Compiler_Names (For_Language) = null then
-- If compiler command is not defined for this language in package
-- IDE, use the default compiler for this language.
if Compiler = Nil_Variable_Value then
if For_Language in Default_Compiler_Names'Range then
Compiler_Names (For_Language) :=
Default_Compiler_Names (For_Language);
else
Osint.Fail
("unknow compiler name for language """,
Get_Name_String (Language_Names.Table (For_Language)),
"""");
end if;
else
Compiler_Names (For_Language) :=
new String'(Get_Name_String (Compiler.Value));
end if;
-- Check we have a GCC compiler (name ends with "gcc" or "g++")
declare
Comp_Name : constant String := Compiler_Names (For_Language).all;
Last3 : String (1 .. 3);
begin
if Comp_Name'Length >= 3 then
Last3 := Comp_Name (Comp_Name'Last - 2 .. Comp_Name'Last);
Compiler_Is_Gcc (For_Language) :=
(Last3 = "gcc") or (Last3 = "g++");
else
Compiler_Is_Gcc (For_Language) := False;
end if;
end;
-- Locate the compiler on the path
Compiler_Paths (For_Language) :=
Locate_Exec_On_Path (Compiler_Names (For_Language).all);
-- Fail if compiler cannot be found
if Compiler_Paths (For_Language) = null then
if For_Language = Ada_Language_Index then
Osint.Fail
("unable to locate """,
Compiler_Names (For_Language).all,
"""");
else
Osint.Fail
("unable to locate " &
Get_Name_String (Language_Names.Table (For_Language)),
" compiler """, Compiler_Names (For_Language).all & '"');
end if;
end if;
end if;
end Get_Compiler;
------------------------------
-- Get_Imported_Directories --
------------------------------
procedure Get_Imported_Directories
(Project : Project_Id;
Data : in out Project_Data)
is
Imported_Projects : Project_List := Data.Imported_Projects;
Path_Length : Natural := 0;
Position : Natural := 0;
procedure Add (Source_Dirs : String_List_Id);
-- Add a list of source directories
procedure Recursive_Get_Dirs (Prj : Project_Id);
-- Recursive procedure to get the source directories of this project
-- file and of the project files it imports, in the correct order.
---------
-- Add --
---------
procedure Add (Source_Dirs : String_List_Id) is
Element_Id : String_List_Id := Source_Dirs;
Element : String_Element;
Add_Arg : Boolean := True;
begin
-- Add each source directory path name, preceded by "-I" to Arguments
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table (Element_Id);
if Element.Value /= No_Name then
Get_Name_String (Element.Value);
if Name_Len > 0 then
-- Remove a trailing directory separator: this may cause
-- problems on Windows.
if Name_Len > 1
and then Name_Buffer (Name_Len) = Directory_Separator
then
Name_Len := Name_Len - 1;
end if;
declare
Arg : constant String :=
"-I" & Name_Buffer (1 .. Name_Len);
begin
-- Check if directory is already in the list.
-- If it is, no need to put it again.
for Index in 1 .. Last_Argument loop
if Arguments (Index).all = Arg then
Add_Arg := False;
exit;
end if;
end loop;
if Add_Arg then
if Path_Length /= 0 then
Path_Length := Path_Length + 1;
end if;
Path_Length := Path_Length + Name_Len;
Add_Argument (Arg, True);
end if;
end;
end if;
end if;
Element_Id := Element.Next;
end loop;
end Add;
------------------------
-- Recursive_Get_Dirs --
------------------------
procedure Recursive_Get_Dirs (Prj : Project_Id) is
Data : Project_Data;
Imported : Project_List;
begin
-- Nothing to do if project is undefined
if Prj /= No_Project then
Data := Project_Tree.Projects.Table (Prj);
-- Nothing to do if project has already been processed
if not Data.Seen then
-- Mark the project as processed, to avoid multiple processing
-- of the same project.
Project_Tree.Projects.Table (Prj).Seen := True;
-- Add the source directories of this project
if not Data.Virtual then
Add (Data.Source_Dirs);
end if;
Recursive_Get_Dirs (Data.Extends);
Imported := Data.Imported_Projects;
-- Call itself for all imported projects, if any
while Imported /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported).Project);
Imported :=
Project_Tree.Project_Lists.Table (Imported).Next;
end loop;
end if;
end if;
end Recursive_Get_Dirs;
-- Start of processing for Get_Imported_Directories
begin
-- First, mark all project as not processed
for J in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Project_Tree.Projects.Table (J).Seen := False;
end loop;
-- Empty Arguments
Last_Argument := 0;
-- Process this project individually, project data are already known
Project_Tree.Projects.Table (Project).Seen := True;
Add (Data.Source_Dirs);
Recursive_Get_Dirs (Data.Extends);
while Imported_Projects /= Empty_Project_List loop
Recursive_Get_Dirs
(Project_Tree.Project_Lists.Table
(Imported_Projects).Project);
Imported_Projects := Project_Tree.Project_Lists.Table
(Imported_Projects).Next;
end loop;
Data.Imported_Directories_Switches :=
new Argument_List'(Arguments (1 .. Last_Argument));
-- Create the Include_Path, from the Arguments
Data.Include_Path := new String (1 .. Path_Length);
Data.Include_Path (1 .. Arguments (1)'Length - 2) :=
Arguments (1)(Arguments (1)'First + 2 .. Arguments (1)'Last);
Position := Arguments (1)'Length - 2;
for Arg in 2 .. Last_Argument loop
Position := Position + 1;
Data.Include_Path (Position) := Path_Separator;
Data.Include_Path
(Position + 1 .. Position + Arguments (Arg)'Length - 2) :=
Arguments (Arg)(Arguments (Arg)'First + 2 .. Arguments (Arg)'Last);
Position := Position + Arguments (Arg)'Length - 2;
end loop;
Last_Argument := 0;
end Get_Imported_Directories;
-------------
-- Gprmake --
-------------
procedure Gprmake is
begin
Makegpr.Initialize;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""".");
Write_Eol;
end if;
-- Parse and process project files for other languages (not for Ada)
Prj.Pars.Parse
(Project => Main_Project,
In_Tree => Project_Tree,
Project_File_Name => Project_File_Name.all,
Packages_To_Check => Packages_To_Check);
-- Fail if parsing/processing was unsuccessful
if Main_Project = No_Project then
Osint.Fail ("""", Project_File_Name.all, """ processing failed");
end if;
if Verbose_Mode then
Write_Eol;
Write_Str ("Parsing of Project File """);
Write_Str (Project_File_Name.all);
Write_Str (""" is finished.");
Write_Eol;
end if;
-- If -f was specified, we will certainly need to link (except when
-- -u or -c were specified, of course).
Need_To_Relink := Force_Compilations;
if Unique_Compile then
if Mains.Number_Of_Mains = 0 then
Osint.Fail
("No source specified to compile in 'unique compile' mode");
else
Compile_Individual_Sources;
Report_Total_Errors ("compilation");
end if;
else
declare
Data : constant Prj.Project_Data :=
Project_Tree.Projects.Table (Main_Project);
begin
if Data.Library and then Mains.Number_Of_Mains /= 0 then
Osint.Fail
("Cannot specify mains on the command line " &
"for a Library Project");
end if;
-- First check for C++, to link libraries with g++,
-- rather than gcc.
Check_For_C_Plus_Plus;
-- Compile sources and build archives for library project,
-- if necessary.
Compile_Sources;
-- When Keep_Going is True, if we had some errors, fail now,
-- reporting the number of compilation errors.
-- Do not attempt to link.
Report_Total_Errors ("compilation");
-- If -c was not specified, link the executables,
-- if there are any.
if not Compile_Only
and then not Data.Library
and then Data.Object_Directory /= No_Name
then
Build_Global_Archive;
Link_Executables;
end if;
-- When Keep_Going is True, if we had some errors, fail, reporting
-- the number of linking errors.
Report_Total_Errors ("linking");
end;
end if;
end Gprmake;
----------------
-- Initialize --
----------------
procedure Initialize is
begin
-- Do some necessary package initializations
Csets.Initialize;
Namet.Initialize;
Snames.Initialize;
Prj.Initialize (Project_Tree);
Mains.Delete;
-- Set Name_Ide and Name_Compiler_Command
Name_Len := 0;
Add_Str_To_Name_Buffer ("ide");
Name_Ide := Name_Find;
Name_Len := 0;
Add_Str_To_Name_Buffer ("compiler_command");
Name_Compiler_Command := Name_Find;
-- Make sure the -X switch table is empty
X_Switches.Set_Last (0);
-- Get the command line arguments
Scan_Args : for Next_Arg in 1 .. Argument_Count loop
Scan_Arg (Argument (Next_Arg));
end loop Scan_Args;
-- Fail if command line ended with "-P"
if Project_File_Name_Expected then
Osint.Fail ("project file name missing after -P");
-- Or if it ended with "-o"
elsif Output_File_Name_Expected then
Osint.Fail ("output file name missing after -o");
end if;
-- If no project file was specified, display the usage and fail
if Project_File_Name = null then
Usage;
Exit_Program (E_Success);
end if;
-- To be able of finding libgnat.a in MLib.Tgt, we need to have the
-- default search dirs established in Osint.
Osint.Add_Default_Search_Dirs;
end Initialize;
-----------------------------------
-- Is_Included_In_Global_Archive --
-----------------------------------
function Is_Included_In_Global_Archive
(Object_Name : Name_Id;
Project : Project_Id) return Boolean
is
Data : Project_Data := Project_Tree.Projects.Table (Project);
Source : Other_Source_Id;
begin
while Data.Extended_By /= No_Project loop
Data := Project_Tree.Projects.Table (Data.Extended_By);
Source := Data.First_Other_Source;
while Source /= No_Other_Source loop
if Project_Tree.Other_Sources.Table (Source).Object_Name =
Object_Name
then
return False;
else
Source :=
Project_Tree.Other_Sources.Table (Source).Next;
end if;
end loop;
end loop;
return True;
end Is_Included_In_Global_Archive;
----------------------
-- Link_Executables --
----------------------
procedure Link_Executables is
Data : constant Project_Data :=
Project_Tree.Projects.Table (Main_Project);
Mains_Specified : constant Boolean := Mains.Number_Of_Mains /= 0;
-- True if main sources were specified on the command line
Object_Dir : constant String := Get_Name_String (Data.Object_Directory);
-- Path of the object directory of the main project
Source_Id : Other_Source_Id;
Source : Other_Source;
Success : Boolean;
Linker_Name : String_Access;
Linker_Path : String_Access;
-- The linker name and path, when linking is not done by gnatlink
Link_Done : Boolean := False;
-- Set to True when the linker is invoked directly (not through
-- gnatmake) to be able to report if mains were up to date at the end
-- of execution.
procedure Add_C_Plus_Plus_Link_For_Gnatmake;
-- Add the --LINK= switch for gnatlink, depending on the C++ compiler
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type);
-- Check if there is an archive that is more recent than the executable
-- to decide if we need to relink.
procedure Choose_C_Plus_Plus_Link_Process;
-- If the C++ compiler is not g++, create the correct script to link
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source);
-- Link a non-Ada main, when there is no Ada code
---------------------------------------
-- Add_C_Plus_Plus_Link_For_Gnatmake --
---------------------------------------
procedure Add_C_Plus_Plus_Link_For_Gnatmake is
begin
Add_Argument
("--LINK=" & Compiler_Names (C_Plus_Plus_Language_Index).all,
Verbose_Mode);
end Add_C_Plus_Plus_Link_For_Gnatmake;
-----------------------
-- Check_Time_Stamps --
-----------------------
procedure Check_Time_Stamps (Exec_Time_Stamp : Time_Stamp_Type) is
Prj_Data : Project_Data;
begin
for Prj in Project_Table.First ..
Project_Table.Last (Project_Tree.Projects)
loop
Prj_Data := Project_Tree.Projects.Table (Prj);
-- There is an archive only in project
-- files with sources other than Ada
-- sources.
if Data.Other_Sources_Present then
declare
Archive_Path : constant String :=
Get_Name_String
(Prj_Data.Object_Directory) &
Directory_Separator &
"lib" &
Get_Name_String (Prj_Data.Name) &
'.' & Archive_Ext;
Archive_TS : Time_Stamp_Type;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer
(Archive_Path);
Archive_TS := File_Stamp (Name_Find);
-- If the archive is later than the
-- executable, we need to relink.
if Archive_TS /= Empty_Time_Stamp
and then
Exec_Time_Stamp < Archive_TS
then
Need_To_Relink := True;
if Verbose_Mode then
Write_Str (" -> ");
Write_Str (Archive_Path);
Write_Str (" has time stamp ");
Write_Str ("later than ");
Write_Line ("executable");
end if;
exit;
end if;
end;
end if;
end loop;
end Check_Time_Stamps;
-------------------------------------
-- Choose_C_Plus_Plus_Link_Process --
-------------------------------------
procedure Choose_C_Plus_Plus_Link_Process is
begin
if Compiler_Names (C_Plus_Plus_Language_Index) = null then
Get_Compiler (C_Plus_Plus_Language_Index);
end if;
end Choose_C_Plus_Plus_Link_Process;
------------------
-- Link_Foreign --
------------------
procedure Link_Foreign
(Main : String;
Main_Id : Name_Id;
Source : Other_Source)
is
Executable_Name : constant String :=
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False));
-- File name of the executable
Executable_Path : constant String :=
Get_Name_String
(Data.Exec_Directory) &
Directory_Separator &
Executable_Name;
-- Path name of the executable
Exec_Time_Stamp : Time_Stamp_Type;
begin
-- Now, check if the executable is up to date. It is considered
-- up to date if its time stamp is not earlier that the time stamp
-- of any archive. Only do that if we don't know if we need to link.
if not Need_To_Relink then
-- Get the time stamp of the executable
Name_Len := 0;
Add_Str_To_Name_Buffer (Executable_Path);
Exec_Time_Stamp := File_Stamp (Name_Find);
if Verbose_Mode then
Write_Str (" Checking executable ");
Write_Line (Executable_Name);
end if;
-- If executable does not exist, we need to link
if Exec_Time_Stamp = Empty_Time_Stamp then
Need_To_Relink := True;
if Verbose_Mode then
Write_Line (" -> not found");
end if;
-- Otherwise, get the time stamps of each archive. If one of
-- them is found later than the executable, we need to relink.
else
Check_Time_Stamps (Exec_Time_Stamp);
end if;
-- If Need_To_Relink is False, we are done
if Verbose_Mode and (not Need_To_Relink) then
Write_Line (" -> up to date");
end if;
end if;
-- Prepare to link
if Need_To_Relink then
Link_Done := True;
Last_Argument := 0;
-- Specify the executable path name
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String (Data.Exec_Directory) &
Directory_Separator &
Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)),
True);
-- Specify the object file of the main source
Add_Argument
(Object_Dir & Directory_Separator &
Get_Name_String (Source.Object_Name),
True);
-- Add all the archives, in a correct order
Add_Archives (For_Gnatmake => False);
-- Add the switches specified in package Linker of
-- the main project.
Add_Switches
(Data => Data,
Proc => Linker,
Language => Source.Language,
File_Name => Main_Id);
-- Add the switches specified in attribute
-- Linker_Options of packages Linker.
if Link_Options_Switches = null then
Link_Options_Switches :=
new Argument_List'
(Linker_Options_Switches (Main_Project, Project_Tree));
end if;
Add_Arguments (Link_Options_Switches.all, True);
-- Add the linking options specified on the
-- command line.
for Arg in 1 .. Linker_Options.Last loop
Add_Argument (Linker_Options.Table (Arg), True);
end loop;
-- If there are shared libraries and the run path
-- option is supported, add the run path switch.
if Lib_Path.Last > 0 then
Add_Argument
(Path_Option.all &
String (Lib_Path.Table (1 .. Lib_Path.Last)),
Verbose_Mode);
end if;
-- And invoke the linker
Display_Command (Linker_Name.all, Linker_Path);
Spawn
(Linker_Path.all,
Arguments (1 .. Last_Argument),
Success);
if not Success then
Report_Error ("could not link ", Main);
end if;
end if;
end Link_Foreign;
-- Start of processing of Link_Executables
begin
-- If no mains specified, get mains from attribute Main, if it exists
if not Mains_Specified then
declare
Element_Id : String_List_Id := Data.Mains;
Element : String_Element;
begin
while Element_Id /= Nil_String loop
Element := Project_Tree.String_Elements.Table
(Element_Id);
if Element.Value /= No_Name then
Mains.Add_Main (Get_Name_String (Element.Value));
end if;
Element_Id := Element.Next;
end loop;
end;
end if;
if Mains.Number_Of_Mains = 0 then
-- If the attribute Main is an empty list or not specified,
-- there is nothing to do.
if Verbose_Mode then
Write_Line ("No main to link");
end if;
return;
end if;
-- Check if -o was used for several mains
if Output_File_Name /= null and then Mains.Number_Of_Mains > 1 then
Osint.Fail ("cannot specify an executable name for several mains");
end if;
-- Check how we are going to do the link
if not Data.Other_Sources_Present then
-- Only Ada sources in the main project, and even maybe not
if not Data.Languages (Ada_Language_Index) then
-- Fail if the main project has no source of any language
Osint.Fail
("project """,
Get_Name_String (Data.Name),
""" has no sources, so no main can be linked");
else
-- Only Ada sources in the main project, call gnatmake directly
Last_Argument := 0;
-- Choose correct linker if there is C++ code in other projects
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
Compile_Link_With_Gnatmake (Mains_Specified);
end if;
else
-- There are other language sources. First check if there are also
-- sources in Ada.
if Data.Languages (Ada_Language_Index) then
-- There is a mix of Ada and other language sources in the main
-- project. Any main that is not a source of the other languages
-- will be deemed to be an Ada main.
-- Find the mains of the other languages and the Ada mains
Mains.Reset;
Ada_Mains.Set_Last (0);
Other_Mains.Set_Last (0);
-- For each main
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the main file name
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of a language other than Ada
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- If it is not, put it in the list of Ada mains
if Source_Id = No_Other_Source then
Ada_Mains.Increment_Last;
Ada_Mains.Table (Ada_Mains.Last) := new String'(Main);
-- Otherwise, put it in the list of other mains
else
Other_Mains.Increment_Last;
Other_Mains.Table (Other_Mains.Last) := Source;
end if;
end;
end loop;
-- If C++ is one of the other language, create the shell script
-- to do the link.
if C_Plus_Plus_Is_Used then
Choose_C_Plus_Plus_Link_Process;
end if;
-- Call gnatmake with the necessary switches for each non-Ada
-- main, if there are some.
for Main in 1 .. Other_Mains.Last loop
declare
Source : constant Other_Source := Other_Mains.Table (Main);
begin
Last_Argument := 0;
-- Add -o if -o was specified
if Output_File_Name = null then
Add_Argument (Dash_o, True);
Add_Argument
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Other_Mains.Table (Main).File_Name,
Index => 0,
Ada_Main => False)),
True);
end if;
-- Call gnatmake with the -B switch
Add_Argument (Dash_B, True);
-- Add to the linking options the object file of the source
Add_Argument (Dash_largs, Verbose_Mode);
Add_Argument
(Get_Name_String (Source.Object_Name), Verbose_Mode);
-- If C++ is one of the language, add the --LINK switch
-- to the linking switches.
if C_Plus_Plus_Is_Used then
Add_C_Plus_Plus_Link_For_Gnatmake;
end if;
-- Add -margs so that the following switches are for
-- gnatmake
Add_Argument (Dash_margs, Verbose_Mode);
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end;
end loop;
-- If there are also Ada mains, call gnatmake for all these mains
if Ada_Mains.Last /= 0 then
Last_Argument := 0;
-- Put all the Ada mains as the first arguments
for Main in 1 .. Ada_Mains.Last loop
Add_Argument (Ada_Mains.Table (Main).all, True);
end loop;
-- If C++ is one of the languages, add the --LINK switch to
-- the linking switches.
if Data.Languages (C_Plus_Plus_Language_Index) then
Add_Argument (Dash_largs, Verbose_Mode);
Add_C_Plus_Plus_Link_For_Gnatmake;
Add_Argument (Dash_margs, Verbose_Mode);
end if;
-- And link with gnatmake
Compile_Link_With_Gnatmake (Mains_Specified => False);
end if;
else
-- No Ada source in main project
-- First, get the linker to invoke
if Data.Languages (C_Plus_Plus_Language_Index) then
Get_Compiler (C_Plus_Plus_Language_Index);
Linker_Name := Compiler_Names (C_Plus_Plus_Language_Index);
Linker_Path := Compiler_Paths (C_Plus_Plus_Language_Index);
else
Get_Compiler (C_Language_Index);
Linker_Name := Compiler_Names (C_Language_Index);
Linker_Path := Compiler_Paths (C_Language_Index);
end if;
Link_Done := False;
Mains.Reset;
-- Get each main, check if it is a source of the main project,
-- and if it is, invoke the linker.
loop
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
exit when Main'Length = 0;
-- Get the file name of the main
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
Main_Id := Name_Find;
Source_Id := Data.First_Other_Source;
-- Check if it is a source of the main project file
while Source_Id /= No_Other_Source loop
Source :=
Project_Tree.Other_Sources.Table (Source_Id);
exit when Source.File_Name = Main_Id;
Source_Id := Source.Next;
end loop;
-- Report an error if it is not
if Source_Id = No_Other_Source then
Report_Error
(Main, "is not a source of project ",
Get_Name_String (Data.Name));
else
Link_Foreign (Main, Main_Id, Source);
end if;
end;
end loop;
-- If no linking was done, report it, except in Quiet Output
if (Verbose_Mode or (not Quiet_Output)) and (not Link_Done) then
Osint.Write_Program_Name;
if Mains.Number_Of_Mains = 1 then
-- If there is only one executable, report its name too
Write_Str (": """);
Mains.Reset;
declare
Main : constant String := Mains.Next_Main;
Main_Id : Name_Id;
begin
Name_Len := 0;
Add_Str_To_Name_Buffer (Main);
Main_Id := Name_Find;
Write_Str
(Get_Name_String
(Executable_Of
(Project => Main_Project,
In_Tree => Project_Tree,
Main => Main_Id,
Index => 0,
Ada_Main => False)));
Write_Line (""" up to date");
end;
else
Write_Line (": all executables up to date");
end if;
end if;
end if;
end if;
end Link_Executables;
------------------
-- Report_Error --
------------------
procedure Report_Error
(S1 : String;
S2 : String := "";
S3 : String := "")
is
begin
-- If Keep_Going is True, output error message preceded by error header
if Keep_Going then
Total_Number_Of_Errors := Total_Number_Of_Errors + 1;
Write_Str (Error_Header);
Write_Str (S1);
Write_Str (S2);
Write_Str (S3);
Write_Eol;
-- Otherwise just fail
else
Osint.Fail (S1, S2, S3);
end if;
end Report_Error;
-------------------------
-- Report_Total_Errors --
-------------------------
procedure Report_Total_Errors (Kind : String) is
begin
if Total_Number_Of_Errors /= 0 then
if Total_Number_Of_Errors = 1 then
Osint.Fail
("One ", Kind, " error");
else
Osint.Fail
("Total of" & Total_Number_Of_Errors'Img,
' ' & Kind & " errors");
end if;
end if;
end Report_Total_Errors;
--------------
-- Scan_Arg --
--------------
procedure Scan_Arg (Arg : String) is
begin
pragma Assert (Arg'First = 1);
if Arg'Length = 0 then
return;
end if;
-- If preceding switch was -P, a project file name need to be
-- specified, not a switch.
if Project_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("project file name missing after -P");
else
Project_File_Name_Expected := False;
Project_File_Name := new String'(Arg);
end if;
-- If preceding switch was -o, an executable name need to be
-- specified, not a switch.
elsif Output_File_Name_Expected then
if Arg (1) = '-' then
Osint.Fail ("output file name missing after -o");
else
Output_File_Name_Expected := False;
Output_File_Name := new String'(Arg);
end if;
-- Set the processor/language for the following switches
-- -cargs: Ada compiler arguments
elsif Arg = "-cargs" then
Current_Language := Ada_Language_Index;
Current_Processor := Compiler;
elsif Arg'Length > 7 and then Arg (1 .. 7) = "-cargs:" then
Name_Len := 0;
Add_Str_To_Name_Buffer (Arg (8 .. Arg'Last));
To_Lower (Name_Buffer (1 .. Name_Len));
declare
Lang : constant Name_Id := Name_Find;
begin
Current_Language := Language_Indexes.Get (Lang);
if Current_Language = No_Language_Index then
Add_Language_Name (Lang);
Current_Language := Last_Language_Index;
end if;
Current_Processor := Compiler;
end;
elsif Arg = "-largs" then
Current_Processor := Linker;
-- -gargs: gprmake
elsif Arg = "-gargs" then
Current_Processor := None;
-- A special test is needed for the -o switch within a -largs since
-- that is another way to specify the name of the final executable.
elsif Current_Processor = Linker and then Arg = "-o" then
Osint.Fail
("switch -o not allowed within a -largs. Use -o directly.");
-- If current processor is not gprmake directly, store the option in
-- the appropriate table.
elsif Current_Processor /= None then
Add_Option (Arg);
-- Switches start with '-'
elsif Arg (1) = '-' then
if Arg = "-c" then
Compile_Only := True;
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Mains.Number_Of_Mains > 0 then
Unique_Compile := True;
end if;
elsif Arg = "-d" then
Display_Compilation_Progress := True;
elsif Arg = "-f" then
Force_Compilations := True;
elsif Arg = "-h" then
Usage;
elsif Arg = "-k" then
Keep_Going := True;
elsif Arg = "-o" then
if Output_File_Name /= null then
Osint.Fail ("cannot specify several -o switches");
else
Output_File_Name_Expected := True;
end if;
elsif Arg'Length >= 2 and then Arg (2) = 'P' then
if Project_File_Name /= null then
Osint.Fail ("cannot have several project files specified");
elsif Arg'Length = 2 then
Project_File_Name_Expected := True;
else
Project_File_Name := new String'(Arg (3 .. Arg'Last));
end if;
elsif Arg = "-q" then
Quiet_Output := True;
elsif Arg = "-u" then
Unique_Compile := True;
Compile_Only := True;
elsif Arg = "-v" then
Verbose_Mode := True;
Copyright;
elsif Arg'Length = 4 and then Arg (1 .. 3) = "-vP"
and then Arg (4) in '0' .. '2'
then
case Arg (4) is
when '0' =>
Current_Verbosity := Prj.Default;
when '1' =>
Current_Verbosity := Prj.Medium;
when '2' =>
Current_Verbosity := Prj.High;
when others =>
null;
end case;
elsif Arg'Length >= 3 and then Arg (2) = 'X'
and then Is_External_Assignment (Arg)
then
-- Is_External_Assignment has side effects when it returns True
-- Record the -X switch, so that they can be passed to gnatmake,
-- if gnatmake is called.
X_Switches.Increment_Last;
X_Switches.Table (X_Switches.Last) := new String'(Arg);
else
Osint.Fail ("illegal option """, Arg, """");
end if;
else
-- Not a switch: must be a main
Mains.Add_Main (Arg);
-- Make sure that when a main is specified and switch -c is used,
-- only the main(s) is/are compiled.
if Compile_Only then
Unique_Compile := True;
end if;
end if;
end Scan_Arg;
-----------------
-- Strip_CR_LF --
-----------------
function Strip_CR_LF (Text : String) return String is
To : String (1 .. Text'Length);
Index_To : Natural := 0;
begin
for Index in Text'Range loop
if (Text (Index) /= ASCII.CR) and then (Text (Index) /= ASCII.LF) then
Index_To := Index_To + 1;
To (Index_To) := Text (Index);
end if;
end loop;
return To (1 .. Index_To);
end Strip_CR_LF;
-----------
-- Usage --
-----------
procedure Usage is
begin
if not Usage_Output then
Usage_Output := True;
Copyright;
Write_Str ("Usage: ");
Osint.Write_Program_Name;
Write_Str (" -P<project file> [opts] [name] {");
for Lang in First_Language_Indexes loop
Write_Str ("[-cargs:lang opts] ");
end loop;
Write_Str ("[-largs opts] [-gargs opts]}");
Write_Eol;
Write_Eol;
Write_Str (" name is zero or more file names");
Write_Eol;
Write_Eol;
-- GPRMAKE switches
Write_Str ("gprmake switches:");
Write_Eol;
-- Line for -c
Write_Str (" -c Compile only");
Write_Eol;
-- Line for -f
Write_Str (" -f Force recompilations");
Write_Eol;
-- Line for -k
Write_Str (" -k Keep going after compilation errors");
Write_Eol;
-- Line for -o
Write_Str (" -o name Choose an alternate executable name");
Write_Eol;
-- Line for -P
Write_Str (" -Pproj Use GNAT Project File proj");
Write_Eol;
-- Line for -q
Write_Str (" -q Be quiet/terse");
Write_Eol;
-- Line for -u
Write_Str
(" -u Unique compilation. Only compile the given files");
Write_Eol;
-- Line for -v
Write_Str (" -v Verbose output");
Write_Eol;
-- Line for -vPx
Write_Str (" -vPx Specify verbosity when parsing Project Files");
Write_Eol;
-- Line for -X
Write_Str (" -Xnm=val Specify an external reference for " &
"Project Files");
Write_Eol;
Write_Eol;
-- Line for -cargs
Write_Line (" -cargs opts opts are passed to the Ada compiler");
-- Line for -cargs:lang
Write_Line (" -cargs:<lang> opts");
Write_Line (" opts are passed to the compiler " &
"for language < lang > ");
-- Line for -largs
Write_Str (" -largs opts opts are passed to the linker");
Write_Eol;
-- Line for -gargs
Write_Str (" -gargs opts opts directly interpreted by gprmake");
Write_Eol;
Write_Eol;
end if;
end Usage;
begin
Makeutl.Do_Fail := Report_Error'Access;
end Makegpr;
|
[
{
"context": "\n-- Author: A. Ireland\n--\n-- Address: School Mathematical & ",
"end": 35,
"score": 0.9998865127563477,
"start": 25,
"tag": "NAME",
"value": "A. Ireland"
},
{
"context": " Edinburgh, EH14 4AS\n--\n-- E-mail: a.ireland@hw.ac.uk\n--\n-- Last modified: 13.9.2019\n--\n-- Filena",
"end": 239,
"score": 0.9999319314956665,
"start": 221,
"tag": "EMAIL",
"value": "a.ireland@hw.ac.uk"
}
] | alloy/coursework_two/handler.ads | m-f-1998/university | 0 |
-- Author: A. Ireland
--
-- Address: School Mathematical & Computer Sciences
-- Heriot-Watt University
-- Edinburgh, EH14 4AS
--
-- E-mail: a.ireland@hw.ac.uk
--
-- Last modified: 13.9.2019
--
-- Filename: handler.ads
--
-- Description: Provides the drivers required for simulating the
-- environment in which the WTP system operates as
-- well as a logging capability.
pragma SPARK_Mode (Off);
package Handler is
subtype Sensor_Range is Integer range 0..2100;
type Water_Level_Cat is (Low, Normal, High, Undef);
procedure Update_Env;
function At_End return Boolean;
procedure Open_Env_File;
procedure Close_Env_File;
procedure Update_Log;
procedure Open_Log_File;
procedure Close_Log_File;
end Handler;
| 20548 |
-- Author: <NAME>
--
-- Address: School Mathematical & Computer Sciences
-- Heriot-Watt University
-- Edinburgh, EH14 4AS
--
-- E-mail: <EMAIL>
--
-- Last modified: 13.9.2019
--
-- Filename: handler.ads
--
-- Description: Provides the drivers required for simulating the
-- environment in which the WTP system operates as
-- well as a logging capability.
pragma SPARK_Mode (Off);
package Handler is
subtype Sensor_Range is Integer range 0..2100;
type Water_Level_Cat is (Low, Normal, High, Undef);
procedure Update_Env;
function At_End return Boolean;
procedure Open_Env_File;
procedure Close_Env_File;
procedure Update_Log;
procedure Open_Log_File;
procedure Close_Log_File;
end Handler;
| true |
-- Author: PI:NAME:<NAME>END_PI
--
-- Address: School Mathematical & Computer Sciences
-- Heriot-Watt University
-- Edinburgh, EH14 4AS
--
-- E-mail: PI:EMAIL:<EMAIL>END_PI
--
-- Last modified: 13.9.2019
--
-- Filename: handler.ads
--
-- Description: Provides the drivers required for simulating the
-- environment in which the WTP system operates as
-- well as a logging capability.
pragma SPARK_Mode (Off);
package Handler is
subtype Sensor_Range is Integer range 0..2100;
type Water_Level_Cat is (Low, Normal, High, Undef);
procedure Update_Env;
function At_End return Boolean;
procedure Open_Env_File;
procedure Close_Env_File;
procedure Update_Log;
procedure Open_Log_File;
procedure Close_Log_File;
end Handler;
|
[
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.9998877644538879,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999317526817322,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/mof/cmof/amf-internals-cmof_package_merges.adb | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Visitors.CMOF_Iterators;
with AMF.Visitors.CMOF_Visitors;
package body AMF.Internals.CMOF_Package_Merges is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Enter_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Leave_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class then
AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class
(Iterator).Visit_Package_Merge
(Visitor,
AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Visit_Element;
------------------------
-- All_Owned_Elements --
------------------------
overriding function All_Owned_Elements
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owned_Elements unimplemented");
raise Program_Error;
return All_Owned_Elements (Self);
end All_Owned_Elements;
-------------------------
-- Get_Related_Element --
-------------------------
overriding function Get_Related_Element
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Related_Element unimplemented");
raise Program_Error;
return Get_Related_Element (Self);
end Get_Related_Element;
---------------------------
-- Get_Receiving_Package --
---------------------------
overriding function Get_Receiving_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Receiving_Package unimplemented");
raise Program_Error;
return Get_Receiving_Package (Self);
end Get_Receiving_Package;
---------------------------
-- Set_Receiving_Package --
---------------------------
overriding procedure Set_Receiving_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Receiving_Package unimplemented");
raise Program_Error;
end Set_Receiving_Package;
------------------------
-- Get_Merged_Package --
------------------------
overriding function Get_Merged_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Merged_Package unimplemented");
raise Program_Error;
return Get_Merged_Package (Self);
end Get_Merged_Package;
------------------------
-- Set_Merged_Package --
------------------------
overriding procedure Set_Merged_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Merged_Package unimplemented");
raise Program_Error;
end Set_Merged_Package;
end AMF.Internals.CMOF_Package_Merges;
| 24270 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Visitors.CMOF_Iterators;
with AMF.Visitors.CMOF_Visitors;
package body AMF.Internals.CMOF_Package_Merges is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Enter_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Leave_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class then
AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class
(Iterator).Visit_Package_Merge
(Visitor,
AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Visit_Element;
------------------------
-- All_Owned_Elements --
------------------------
overriding function All_Owned_Elements
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owned_Elements unimplemented");
raise Program_Error;
return All_Owned_Elements (Self);
end All_Owned_Elements;
-------------------------
-- Get_Related_Element --
-------------------------
overriding function Get_Related_Element
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Related_Element unimplemented");
raise Program_Error;
return Get_Related_Element (Self);
end Get_Related_Element;
---------------------------
-- Get_Receiving_Package --
---------------------------
overriding function Get_Receiving_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Receiving_Package unimplemented");
raise Program_Error;
return Get_Receiving_Package (Self);
end Get_Receiving_Package;
---------------------------
-- Set_Receiving_Package --
---------------------------
overriding procedure Set_Receiving_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Receiving_Package unimplemented");
raise Program_Error;
end Set_Receiving_Package;
------------------------
-- Get_Merged_Package --
------------------------
overriding function Get_Merged_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Merged_Package unimplemented");
raise Program_Error;
return Get_Merged_Package (Self);
end Get_Merged_Package;
------------------------
-- Set_Merged_Package --
------------------------
overriding procedure Set_Merged_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Merged_Package unimplemented");
raise Program_Error;
end Set_Merged_Package;
end AMF.Internals.CMOF_Package_Merges;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Visitors.CMOF_Iterators;
with AMF.Visitors.CMOF_Visitors;
package body AMF.Internals.CMOF_Package_Merges is
-------------------
-- Enter_Element --
-------------------
overriding procedure Enter_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Enter_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Enter_Element;
-------------------
-- Leave_Element --
-------------------
overriding procedure Leave_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Visitor in AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class then
AMF.Visitors.CMOF_Visitors.CMOF_Visitor'Class
(Visitor).Leave_Package_Merge
(AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Leave_Element;
-------------------
-- Visit_Element --
-------------------
overriding procedure Visit_Element
(Self : not null access constant CMOF_Package_Merge_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control) is
begin
if Iterator in AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class then
AMF.Visitors.CMOF_Iterators.CMOF_Iterator'Class
(Iterator).Visit_Package_Merge
(Visitor,
AMF.CMOF.Package_Merges.CMOF_Package_Merge_Access (Self),
Control);
end if;
end Visit_Element;
------------------------
-- All_Owned_Elements --
------------------------
overriding function All_Owned_Elements
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "All_Owned_Elements unimplemented");
raise Program_Error;
return All_Owned_Elements (Self);
end All_Owned_Elements;
-------------------------
-- Get_Related_Element --
-------------------------
overriding function Get_Related_Element
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Elements.Collections.Set_Of_CMOF_Element
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Related_Element unimplemented");
raise Program_Error;
return Get_Related_Element (Self);
end Get_Related_Element;
---------------------------
-- Get_Receiving_Package --
---------------------------
overriding function Get_Receiving_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Receiving_Package unimplemented");
raise Program_Error;
return Get_Receiving_Package (Self);
end Get_Receiving_Package;
---------------------------
-- Set_Receiving_Package --
---------------------------
overriding procedure Set_Receiving_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Receiving_Package unimplemented");
raise Program_Error;
end Set_Receiving_Package;
------------------------
-- Get_Merged_Package --
------------------------
overriding function Get_Merged_Package
(Self : not null access constant CMOF_Package_Merge_Proxy)
return AMF.CMOF.Packages.CMOF_Package_Access
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Get_Merged_Package unimplemented");
raise Program_Error;
return Get_Merged_Package (Self);
end Get_Merged_Package;
------------------------
-- Set_Merged_Package --
------------------------
overriding procedure Set_Merged_Package
(Self : not null access CMOF_Package_Merge_Proxy;
To : AMF.CMOF.Packages.CMOF_Package_Access)
is
begin
-- Generated stub: replace with real body!
pragma Compile_Time_Warning (Standard.True, "Set_Merged_Package unimplemented");
raise Program_Error;
end Set_Merged_Package;
end AMF.Internals.CMOF_Package_Merges;
|
[
{
"context": "---------------------\n-- G E L A A S I S --\n-",
"end": 109,
"score": 0.7338326573371887,
"start": 108,
"tag": "NAME",
"value": "G"
},
{
"context": "---------------------\n-- Copyright (c) 2008-2013, Maxim Reznik\n-- All rights reserved.\n--\n-- Redistribution an",
"end": 11757,
"score": 0.9998543858528137,
"start": 11745,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "the distribution.\n-- * Neither the name of the Maxim Reznik, IE nor the names of its\n-- contributors ma",
"end": 12358,
"score": 0.9995059967041016,
"start": 12346,
"tag": "NAME",
"value": "Maxim Reznik"
}
] | source/asis/asis-gela-private_operations.adb | faelys/gela-asis | 4 | ------------------------------------------------------------------------------
-- G E L A A S I S --
-- ASIS implementation for Gela project, a portable Ada compiler --
-- http://gela.ada-ru.org --
-- - - - - - - - - - - - - - - - --
-- Read copyright and license at the end of this file --
------------------------------------------------------------------------------
-- $Revision: 209 $ $Date: 2013-11-30 21:03:24 +0200 (Сб., 30 нояб. 2013) $:
with Asis.Elements;
with Asis.Declarations;
with Asis.Gela.Utils;
with Asis.Gela.Implicit;
with Asis.Gela.Inheritance;
with Ada.Wide_Text_IO;
package body Asis.Gela.Private_Operations is
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info);
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point);
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info);
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access;
------------------------
-- Check_Derived_Type --
------------------------
procedure Check_Derived_Type
(Tipe_Decl : in Asis.Declaration;
From : in Asis.Element;
Point : in out Visibility.Point)
is
use Asis.Elements;
Def : Asis.Definition;
begin
case Declaration_Kind (Tipe_Decl) is
when An_Ordinary_Type_Declaration
| A_Private_Type_Declaration
| A_Formal_Type_Declaration
=>
Def := Asis.Declarations.Type_Declaration_View (Tipe_Decl);
case Type_Kind (Def) is
when A_Derived_Type_Definition |
A_Derived_Record_Extension_Definition =>
Inheritance.Check_Inherited_Subprograms
(Tipe_Decl, From, Point);
when others =>
null;
end case;
when others =>
null;
end case;
end Check_Derived_Type;
---------------------
-- Check_Dependent --
---------------------
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point)
is
use Type_Info_Lists;
use Asis.Gela.Classes;
Dependent : Cursor;
Found : Type_Data_Access;
Refreshed : Type_Info;
begin
Dependent := First (Exist.Dependent);
while Has_Element (Dependent) loop
Found := Find (Data, Type_Info_Lists.Element (Dependent));
if Found = null then
raise Internal_Error;
end if;
Refreshed := Type_From_Declaration
(Get_Declaration (Found.Info), Tipe);
if not Is_Equal_Class (Found.Info, Refreshed) or
Is_Limited (Found.Info) /= Is_Limited (Refreshed)
then
Implicit.Make_Operations
(Tipe => Refreshed,
Was => Found.Info,
Point => Point);
Found.Info := Refreshed;
Check_Dependent (Tipe, Found, Data, Refreshed, Point);
end if;
Dependent := Next (Dependent);
end loop;
end Check_Dependent;
------------
-- Greate --
------------
function Create (Element : in Asis.Declaration) return Package_Data is
Result : constant Package_Data := new Package_Data_Node;
begin
Result.Element := Element;
return Result;
end Create;
----------------
-- Check_Type --
----------------
procedure Check_Type
(Element : in Asis.Declaration;
Data : in Package_Data;
Point : in out Visibility.Point)
is
use Asis.Elements;
use Asis.Gela.Classes;
Info : constant Type_Info := Type_From_Declaration (Element, Element);
Found : Type_Data_Access;
begin
if Declaration_Kind (Element) = Asis.A_Private_Type_Declaration then
Create_Type_Data (Data, Info);
else
Found := Find (Data, Info);
if Found /= null then
if not Is_Equal_Class (Found.Info, Info) or
Is_Limited (Found.Info) /= Is_Limited (Info)
then
Found.Info := Info;
Check_Dependent (Element, Found, Data, Info, Point);
end if;
elsif Is_Composite (Info) then
Fill_Dependencies (Element, Data, Info);
end if;
end if;
end Check_Type;
----------------------
-- Create_Type_Data --
----------------------
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info)
is
Result : constant Type_Data_Access := new Type_Data;
begin
Result.Info := Info;
Type_Data_List.Append (Data.Types, Result);
end Create_Type_Data;
-----------------------
-- Fill_Dependencies --
-----------------------
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info)
is
procedure Check_Component (Component_Type : Classes.Type_Info) is
use Type_Info_Lists;
Found : constant Type_Data_Access := Find (Data, Component_Type);
begin
-- If component type is subject to change:
if Found /= null then
-- If not in dependencies list yet:
if not Contains (Found.Dependent, Info) then
Append (Found.Dependent, Info);
-- If new type not in subject_to_change list
if Find (Data, Info) = null then
-- Add it to the list
Create_Type_Data (Data, Info);
end if;
end if;
end if;
end Check_Component;
procedure Walk_Variant
(Item : in Asis.Variant;
Continue : out Boolean) is
begin
Continue := True;
end Walk_Variant;
procedure Walk_Companent
(Item : in Asis.Declaration;
Continue : out Boolean)
is
Component_Type : constant Classes.Type_Info :=
Classes.Type_Of_Declaration (Item, Element);
begin
Check_Component (Component_Type);
Continue := True;
end Walk_Companent;
procedure Walk_Components is new
Utils.Walk_Components (Element, Walk_Variant, Walk_Companent);
Continue : Boolean;
begin
if Classes.Is_Array (Info) then
Check_Component (Classes.Get_Array_Element_Type (Info));
-- elsif Derived?
else
Walk_Components (Element, Continue);
end if;
end Fill_Dependencies;
----------
-- Find --
----------
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access
is
use Type_Data_List;
Next : aliased Type_Data_Access;
begin
while Iterate (Data.Types, Next'Access) loop
if Classes.Is_Equal (Next.Info, Info) then
return Next;
end if;
end loop;
return null;
end Find;
---------------------
-- On_Package_Body --
---------------------
procedure On_Package_Body
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
function Specification (Element : Asis.Declaration)
return Asis.Declaration
is
use Asis.Declarations;
Item : Asis.Declaration := Element;
begin
if Is_Subunit(Item) then
Item := Corresponding_Body_Stub (Item);
end if;
return Corresponding_Declaration (Item);
end Specification;
Spec : constant Asis.Declaration := Specification (Element);
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Spec);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Spec);
From : Type_Info;
To : Type_Info;
Body_View : constant Asis.Element :=
Visibility.End_Of_Package (Element);
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Spec);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), Spec_View);
To := Type_From_Declaration (List (J), Body_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
-- Ada.Wide_Text_IO.Put_Line ("Old:" & Debug_Image (From));
-- Ada.Wide_Text_IO.Put_Line ("New:" & Debug_Image (To));
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Body_View, Point);
end loop;
end On_Package_Body;
---------------------
-- On_Private_Part --
---------------------
procedure On_Private_Part
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Element);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Element);
From : Type_Info;
To : Type_Info;
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Element);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), List (List'Last));
To := Type_From_Declaration (List (J), Spec_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Spec_View, Point);
end loop;
end On_Private_Part;
----------
-- Push --
----------
procedure Push
(Stack : in out Package_Data_Stack;
Item : in Package_Data)
is
begin
Prepend (Stack, Item);
end Push;
procedure Pop (Stack : in out Package_Data_Stack) is
Item : Package_Data;
begin
Delete_First (Stack, Item);
end Pop;
function Top (Stack : Package_Data_Stack) return Package_Data is
begin
return First (Stack);
end Top;
function Get_Next (Item : Package_Data) return Package_Data is
begin
return Item.Next;
end Get_Next;
function Get_Next (Item : Type_Data_Access) return Type_Data_Access is
begin
return Item.Next;
end Get_Next;
procedure Set_Next (Item, Next : Package_Data) is
begin
Item.Next := Next;
end Set_Next;
procedure Set_Next (Item, Next : Type_Data_Access) is
begin
Item.Next := Next;
end Set_Next;
end Asis.Gela.Private_Operations;
------------------------------------------------------------------------------
-- Copyright (c) 2008-2013, Maxim Reznik
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
--
-- * Redistributions of source code must retain the above copyright notice,
-- this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * Neither the name of the Maxim Reznik, IE nor the names of its
-- contributors may be used to endorse or promote products derived from
-- this software without specific prior written permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
-- LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
-- CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
-- SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
-- INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
-- CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
-- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
-- POSSIBILITY OF SUCH DAMAGE.
------------------------------------------------------------------------------
| 12131 | ------------------------------------------------------------------------------
-- <NAME> E L A A S I S --
-- ASIS implementation for Gela project, a portable Ada compiler --
-- http://gela.ada-ru.org --
-- - - - - - - - - - - - - - - - --
-- Read copyright and license at the end of this file --
------------------------------------------------------------------------------
-- $Revision: 209 $ $Date: 2013-11-30 21:03:24 +0200 (Сб., 30 нояб. 2013) $:
with Asis.Elements;
with Asis.Declarations;
with Asis.Gela.Utils;
with Asis.Gela.Implicit;
with Asis.Gela.Inheritance;
with Ada.Wide_Text_IO;
package body Asis.Gela.Private_Operations is
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info);
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point);
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info);
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access;
------------------------
-- Check_Derived_Type --
------------------------
procedure Check_Derived_Type
(Tipe_Decl : in Asis.Declaration;
From : in Asis.Element;
Point : in out Visibility.Point)
is
use Asis.Elements;
Def : Asis.Definition;
begin
case Declaration_Kind (Tipe_Decl) is
when An_Ordinary_Type_Declaration
| A_Private_Type_Declaration
| A_Formal_Type_Declaration
=>
Def := Asis.Declarations.Type_Declaration_View (Tipe_Decl);
case Type_Kind (Def) is
when A_Derived_Type_Definition |
A_Derived_Record_Extension_Definition =>
Inheritance.Check_Inherited_Subprograms
(Tipe_Decl, From, Point);
when others =>
null;
end case;
when others =>
null;
end case;
end Check_Derived_Type;
---------------------
-- Check_Dependent --
---------------------
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point)
is
use Type_Info_Lists;
use Asis.Gela.Classes;
Dependent : Cursor;
Found : Type_Data_Access;
Refreshed : Type_Info;
begin
Dependent := First (Exist.Dependent);
while Has_Element (Dependent) loop
Found := Find (Data, Type_Info_Lists.Element (Dependent));
if Found = null then
raise Internal_Error;
end if;
Refreshed := Type_From_Declaration
(Get_Declaration (Found.Info), Tipe);
if not Is_Equal_Class (Found.Info, Refreshed) or
Is_Limited (Found.Info) /= Is_Limited (Refreshed)
then
Implicit.Make_Operations
(Tipe => Refreshed,
Was => Found.Info,
Point => Point);
Found.Info := Refreshed;
Check_Dependent (Tipe, Found, Data, Refreshed, Point);
end if;
Dependent := Next (Dependent);
end loop;
end Check_Dependent;
------------
-- Greate --
------------
function Create (Element : in Asis.Declaration) return Package_Data is
Result : constant Package_Data := new Package_Data_Node;
begin
Result.Element := Element;
return Result;
end Create;
----------------
-- Check_Type --
----------------
procedure Check_Type
(Element : in Asis.Declaration;
Data : in Package_Data;
Point : in out Visibility.Point)
is
use Asis.Elements;
use Asis.Gela.Classes;
Info : constant Type_Info := Type_From_Declaration (Element, Element);
Found : Type_Data_Access;
begin
if Declaration_Kind (Element) = Asis.A_Private_Type_Declaration then
Create_Type_Data (Data, Info);
else
Found := Find (Data, Info);
if Found /= null then
if not Is_Equal_Class (Found.Info, Info) or
Is_Limited (Found.Info) /= Is_Limited (Info)
then
Found.Info := Info;
Check_Dependent (Element, Found, Data, Info, Point);
end if;
elsif Is_Composite (Info) then
Fill_Dependencies (Element, Data, Info);
end if;
end if;
end Check_Type;
----------------------
-- Create_Type_Data --
----------------------
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info)
is
Result : constant Type_Data_Access := new Type_Data;
begin
Result.Info := Info;
Type_Data_List.Append (Data.Types, Result);
end Create_Type_Data;
-----------------------
-- Fill_Dependencies --
-----------------------
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info)
is
procedure Check_Component (Component_Type : Classes.Type_Info) is
use Type_Info_Lists;
Found : constant Type_Data_Access := Find (Data, Component_Type);
begin
-- If component type is subject to change:
if Found /= null then
-- If not in dependencies list yet:
if not Contains (Found.Dependent, Info) then
Append (Found.Dependent, Info);
-- If new type not in subject_to_change list
if Find (Data, Info) = null then
-- Add it to the list
Create_Type_Data (Data, Info);
end if;
end if;
end if;
end Check_Component;
procedure Walk_Variant
(Item : in Asis.Variant;
Continue : out Boolean) is
begin
Continue := True;
end Walk_Variant;
procedure Walk_Companent
(Item : in Asis.Declaration;
Continue : out Boolean)
is
Component_Type : constant Classes.Type_Info :=
Classes.Type_Of_Declaration (Item, Element);
begin
Check_Component (Component_Type);
Continue := True;
end Walk_Companent;
procedure Walk_Components is new
Utils.Walk_Components (Element, Walk_Variant, Walk_Companent);
Continue : Boolean;
begin
if Classes.Is_Array (Info) then
Check_Component (Classes.Get_Array_Element_Type (Info));
-- elsif Derived?
else
Walk_Components (Element, Continue);
end if;
end Fill_Dependencies;
----------
-- Find --
----------
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access
is
use Type_Data_List;
Next : aliased Type_Data_Access;
begin
while Iterate (Data.Types, Next'Access) loop
if Classes.Is_Equal (Next.Info, Info) then
return Next;
end if;
end loop;
return null;
end Find;
---------------------
-- On_Package_Body --
---------------------
procedure On_Package_Body
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
function Specification (Element : Asis.Declaration)
return Asis.Declaration
is
use Asis.Declarations;
Item : Asis.Declaration := Element;
begin
if Is_Subunit(Item) then
Item := Corresponding_Body_Stub (Item);
end if;
return Corresponding_Declaration (Item);
end Specification;
Spec : constant Asis.Declaration := Specification (Element);
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Spec);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Spec);
From : Type_Info;
To : Type_Info;
Body_View : constant Asis.Element :=
Visibility.End_Of_Package (Element);
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Spec);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), Spec_View);
To := Type_From_Declaration (List (J), Body_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
-- Ada.Wide_Text_IO.Put_Line ("Old:" & Debug_Image (From));
-- Ada.Wide_Text_IO.Put_Line ("New:" & Debug_Image (To));
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Body_View, Point);
end loop;
end On_Package_Body;
---------------------
-- On_Private_Part --
---------------------
procedure On_Private_Part
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Element);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Element);
From : Type_Info;
To : Type_Info;
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Element);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), List (List'Last));
To := Type_From_Declaration (List (J), Spec_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Spec_View, Point);
end loop;
end On_Private_Part;
----------
-- Push --
----------
procedure Push
(Stack : in out Package_Data_Stack;
Item : in Package_Data)
is
begin
Prepend (Stack, Item);
end Push;
procedure Pop (Stack : in out Package_Data_Stack) is
Item : Package_Data;
begin
Delete_First (Stack, Item);
end Pop;
function Top (Stack : Package_Data_Stack) return Package_Data is
begin
return First (Stack);
end Top;
function Get_Next (Item : Package_Data) return Package_Data is
begin
return Item.Next;
end Get_Next;
function Get_Next (Item : Type_Data_Access) return Type_Data_Access is
begin
return Item.Next;
end Get_Next;
procedure Set_Next (Item, Next : Package_Data) is
begin
Item.Next := Next;
end Set_Next;
procedure Set_Next (Item, Next : Type_Data_Access) is
begin
Item.Next := Next;
end Set_Next;
end Asis.Gela.Private_Operations;
------------------------------------------------------------------------------
-- Copyright (c) 2008-2013, <NAME>
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
--
-- * Redistributions of source code must retain the above copyright notice,
-- this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * Neither the name of the <NAME>, IE nor the names of its
-- contributors may be used to endorse or promote products derived from
-- this software without specific prior written permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
-- LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
-- CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
-- SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
-- INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
-- CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
-- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
-- POSSIBILITY OF SUCH DAMAGE.
------------------------------------------------------------------------------
| true | ------------------------------------------------------------------------------
-- PI:NAME:<NAME>END_PI E L A A S I S --
-- ASIS implementation for Gela project, a portable Ada compiler --
-- http://gela.ada-ru.org --
-- - - - - - - - - - - - - - - - --
-- Read copyright and license at the end of this file --
------------------------------------------------------------------------------
-- $Revision: 209 $ $Date: 2013-11-30 21:03:24 +0200 (Сб., 30 нояб. 2013) $:
with Asis.Elements;
with Asis.Declarations;
with Asis.Gela.Utils;
with Asis.Gela.Implicit;
with Asis.Gela.Inheritance;
with Ada.Wide_Text_IO;
package body Asis.Gela.Private_Operations is
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info);
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point);
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info);
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access;
------------------------
-- Check_Derived_Type --
------------------------
procedure Check_Derived_Type
(Tipe_Decl : in Asis.Declaration;
From : in Asis.Element;
Point : in out Visibility.Point)
is
use Asis.Elements;
Def : Asis.Definition;
begin
case Declaration_Kind (Tipe_Decl) is
when An_Ordinary_Type_Declaration
| A_Private_Type_Declaration
| A_Formal_Type_Declaration
=>
Def := Asis.Declarations.Type_Declaration_View (Tipe_Decl);
case Type_Kind (Def) is
when A_Derived_Type_Definition |
A_Derived_Record_Extension_Definition =>
Inheritance.Check_Inherited_Subprograms
(Tipe_Decl, From, Point);
when others =>
null;
end case;
when others =>
null;
end case;
end Check_Derived_Type;
---------------------
-- Check_Dependent --
---------------------
procedure Check_Dependent
(Tipe : in Asis.Declaration;
Exist : in Type_Data_Access;
Data : in Package_Data;
Info : in Classes.Type_Info;
Point : in out Visibility.Point)
is
use Type_Info_Lists;
use Asis.Gela.Classes;
Dependent : Cursor;
Found : Type_Data_Access;
Refreshed : Type_Info;
begin
Dependent := First (Exist.Dependent);
while Has_Element (Dependent) loop
Found := Find (Data, Type_Info_Lists.Element (Dependent));
if Found = null then
raise Internal_Error;
end if;
Refreshed := Type_From_Declaration
(Get_Declaration (Found.Info), Tipe);
if not Is_Equal_Class (Found.Info, Refreshed) or
Is_Limited (Found.Info) /= Is_Limited (Refreshed)
then
Implicit.Make_Operations
(Tipe => Refreshed,
Was => Found.Info,
Point => Point);
Found.Info := Refreshed;
Check_Dependent (Tipe, Found, Data, Refreshed, Point);
end if;
Dependent := Next (Dependent);
end loop;
end Check_Dependent;
------------
-- Greate --
------------
function Create (Element : in Asis.Declaration) return Package_Data is
Result : constant Package_Data := new Package_Data_Node;
begin
Result.Element := Element;
return Result;
end Create;
----------------
-- Check_Type --
----------------
procedure Check_Type
(Element : in Asis.Declaration;
Data : in Package_Data;
Point : in out Visibility.Point)
is
use Asis.Elements;
use Asis.Gela.Classes;
Info : constant Type_Info := Type_From_Declaration (Element, Element);
Found : Type_Data_Access;
begin
if Declaration_Kind (Element) = Asis.A_Private_Type_Declaration then
Create_Type_Data (Data, Info);
else
Found := Find (Data, Info);
if Found /= null then
if not Is_Equal_Class (Found.Info, Info) or
Is_Limited (Found.Info) /= Is_Limited (Info)
then
Found.Info := Info;
Check_Dependent (Element, Found, Data, Info, Point);
end if;
elsif Is_Composite (Info) then
Fill_Dependencies (Element, Data, Info);
end if;
end if;
end Check_Type;
----------------------
-- Create_Type_Data --
----------------------
procedure Create_Type_Data
(Data : in Package_Data;
Info : in Classes.Type_Info)
is
Result : constant Type_Data_Access := new Type_Data;
begin
Result.Info := Info;
Type_Data_List.Append (Data.Types, Result);
end Create_Type_Data;
-----------------------
-- Fill_Dependencies --
-----------------------
procedure Fill_Dependencies
(Element : in Asis.Declaration;
Data : in Package_Data;
Info : in Classes.Type_Info)
is
procedure Check_Component (Component_Type : Classes.Type_Info) is
use Type_Info_Lists;
Found : constant Type_Data_Access := Find (Data, Component_Type);
begin
-- If component type is subject to change:
if Found /= null then
-- If not in dependencies list yet:
if not Contains (Found.Dependent, Info) then
Append (Found.Dependent, Info);
-- If new type not in subject_to_change list
if Find (Data, Info) = null then
-- Add it to the list
Create_Type_Data (Data, Info);
end if;
end if;
end if;
end Check_Component;
procedure Walk_Variant
(Item : in Asis.Variant;
Continue : out Boolean) is
begin
Continue := True;
end Walk_Variant;
procedure Walk_Companent
(Item : in Asis.Declaration;
Continue : out Boolean)
is
Component_Type : constant Classes.Type_Info :=
Classes.Type_Of_Declaration (Item, Element);
begin
Check_Component (Component_Type);
Continue := True;
end Walk_Companent;
procedure Walk_Components is new
Utils.Walk_Components (Element, Walk_Variant, Walk_Companent);
Continue : Boolean;
begin
if Classes.Is_Array (Info) then
Check_Component (Classes.Get_Array_Element_Type (Info));
-- elsif Derived?
else
Walk_Components (Element, Continue);
end if;
end Fill_Dependencies;
----------
-- Find --
----------
function Find
(Data : in Package_Data;
Info : in Classes.Type_Info) return Type_Data_Access
is
use Type_Data_List;
Next : aliased Type_Data_Access;
begin
while Iterate (Data.Types, Next'Access) loop
if Classes.Is_Equal (Next.Info, Info) then
return Next;
end if;
end loop;
return null;
end Find;
---------------------
-- On_Package_Body --
---------------------
procedure On_Package_Body
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
function Specification (Element : Asis.Declaration)
return Asis.Declaration
is
use Asis.Declarations;
Item : Asis.Declaration := Element;
begin
if Is_Subunit(Item) then
Item := Corresponding_Body_Stub (Item);
end if;
return Corresponding_Declaration (Item);
end Specification;
Spec : constant Asis.Declaration := Specification (Element);
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Spec);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Spec);
From : Type_Info;
To : Type_Info;
Body_View : constant Asis.Element :=
Visibility.End_Of_Package (Element);
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Spec);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), Spec_View);
To := Type_From_Declaration (List (J), Body_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
-- Ada.Wide_Text_IO.Put_Line ("Old:" & Debug_Image (From));
-- Ada.Wide_Text_IO.Put_Line ("New:" & Debug_Image (To));
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Body_View, Point);
end loop;
end On_Package_Body;
---------------------
-- On_Private_Part --
---------------------
procedure On_Private_Part
(Element : in Asis.Declaration;
Point : in out Visibility.Point)
is
use Asis.Gela.Classes;
List : constant Asis.Declarative_Item_List :=
Asis.Declarations.Visible_Part_Declarative_Items (Element);
Priv : constant Asis.Declarative_Item_List :=
Asis.Declarations.Private_Part_Declarative_Items (Element);
From : Type_Info;
To : Type_Info;
Spec_View : Asis.Element;
begin
if Priv'Length = 0 then
Spec_View := Visibility.End_Of_Package (Element);
else
Spec_View := Priv (Priv'Last);
end if;
for J in List'Range loop
From := Type_From_Declaration (List (J), List (List'Last));
To := Type_From_Declaration (List (J), Spec_View);
if not Is_Equal_Class (From, To) or
Is_Limited (From) /= Is_Limited (To)
then
Implicit.Make_Operations
(Tipe => To,
Was => From,
Point => Point);
end if;
Check_Derived_Type (List (J), Spec_View, Point);
end loop;
end On_Private_Part;
----------
-- Push --
----------
procedure Push
(Stack : in out Package_Data_Stack;
Item : in Package_Data)
is
begin
Prepend (Stack, Item);
end Push;
procedure Pop (Stack : in out Package_Data_Stack) is
Item : Package_Data;
begin
Delete_First (Stack, Item);
end Pop;
function Top (Stack : Package_Data_Stack) return Package_Data is
begin
return First (Stack);
end Top;
function Get_Next (Item : Package_Data) return Package_Data is
begin
return Item.Next;
end Get_Next;
function Get_Next (Item : Type_Data_Access) return Type_Data_Access is
begin
return Item.Next;
end Get_Next;
procedure Set_Next (Item, Next : Package_Data) is
begin
Item.Next := Next;
end Set_Next;
procedure Set_Next (Item, Next : Type_Data_Access) is
begin
Item.Next := Next;
end Set_Next;
end Asis.Gela.Private_Operations;
------------------------------------------------------------------------------
-- Copyright (c) 2008-2013, PI:NAME:<NAME>END_PI
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
--
-- * Redistributions of source code must retain the above copyright notice,
-- this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * Neither the name of the PI:NAME:<NAME>END_PI, IE nor the names of its
-- contributors may be used to endorse or promote products derived from
-- this software without specific prior written permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
-- LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
-- CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
-- SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
-- INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
-- CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
-- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
-- POSSIBILITY OF SUCH DAMAGE.
------------------------------------------------------------------------------
|
[
{
"context": "les -- File and directories\n-- Copyright (C) 2014 Stephane.Carrez\n-- Written by Stephane.Carrez (Stephane.Carrez@g",
"end": 148,
"score": 0.9998822808265686,
"start": 133,
"tag": "NAME",
"value": "Stephane.Carrez"
},
{
"context": " Copyright (C) 2014 Stephane.Carrez\n-- Written by Stephane.Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 179,
"score": 0.9998859763145447,
"start": 164,
"tag": "NAME",
"value": "Stephane.Carrez"
},
{
"context": "4 Stephane.Carrez\n-- Written by Stephane.Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 206,
"score": 0.999925971031189,
"start": 181,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/babel-files.ads | stcarrez/babel | 1 | -----------------------------------------------------------------------
-- bkp-files -- File and directories
-- Copyright (C) 2014 Stephane.Carrez
-- Written by Stephane.Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Calendar;
with Ada.Strings.Unbounded;
with Ada.Containers.Vectors;
with Ada.Containers.Hashed_Maps;
with Util.Strings;
with Util.Systems.Types;
with Util.Encoders.SHA1;
with ADO;
package Babel.Files is
NO_IDENTIFIER : constant ADO.Identifier := ADO.NO_IDENTIFIER;
subtype File_Identifier is ADO.Identifier;
subtype Directory_Identifier is ADO.Identifier;
subtype File_Size is Long_Long_Integer;
subtype File_Mode is Util.Systems.Types.mode_t;
-- type File_Mode is mod 2**16;
type File_Type is private;
type File_Type_Array is array (Positive range <>) of File_Type;
type File_Type_Array_Access is access all File_Type_Array;
type Directory_Type is private;
type Directory_Type_Array is array (Positive range <>) of Directory_Type;
type Directory_Type_Array_Access is access all Directory_Type_Array;
NO_DIRECTORY : constant Directory_Type;
NO_FILE : constant File_Type;
type Status_Type is mod 2**16;
-- The file was modified.
FILE_MODIFIED : constant Status_Type := 16#0001#;
-- There was some error while processing this file.
FILE_ERROR : constant Status_Type := 16#8000#;
-- The SHA1 signature for the file is known and valid.
FILE_HAS_SHA1 : constant Status_Type := 16#0002#;
-- Allocate a File_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return File_Type;
-- Allocate a Directory_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return Directory_Type;
type File (Len : Positive) is record
Id : File_Identifier := NO_IDENTIFIER;
Size : File_Size := 0;
Dir : Directory_Type := NO_DIRECTORY;
Mode : File_Mode := 8#644#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Status : Status_Type := 0;
Date : Ada.Calendar.Time;
SHA1 : Util.Encoders.SHA1.Hash_Array;
Name : aliased String (1 .. Len);
end record;
-- Compare two files on their name and directory.
function "<" (Left, Right : in File_Type) return Boolean;
-- Return true if the file was modified and need a backup.
function Is_Modified (Element : in File_Type) return Boolean;
-- Return true if the file is a new file.
function Is_New (Element : in File_Type) return Boolean;
-- Set the file as modified.
procedure Set_Modified (Element : in File_Type);
-- Set the SHA1 signature that was computed for this file.
-- If the computed signature is different from the current signature,
-- the FILE_MODIFIED flag is set on the file. The FILE_HAS_SHA1 flag
-- is set on the file.
procedure Set_Signature (Element : in File_Type;
Signature : in Util.Encoders.SHA1.Hash_Array);
-- Set the file size. If the new size is different, the FILE_MODIFIED
-- flag is set on the file.
procedure Set_Size (Element : in File_Type;
Size : in File_Size);
-- Set the owner and group of the file.
procedure Set_Owner (Element : in File_Type;
User : in Uid_Type;
Group : in Gid_Type);
-- Set the file modification date.
procedure Set_Date (Element : in File_Type;
Date : in Util.Systems.Types.Timespec);
procedure Set_Date (Element : in File_Type;
Date : in Ada.Calendar.Time);
-- Return the path for the file.
function Get_Path (Element : in File_Type) return String;
-- Return the path for the directory.
function Get_Path (Element : in Directory_Type) return String;
-- Return the SHA1 signature computed for the file.
function Get_SHA1 (Element : in File_Type) return String;
-- Return the file size.
function Get_Size (Element : in File_Type) return File_Size;
-- Return the file modification date.
function Get_Date (Element : in File_Type) return Ada.Calendar.Time;
-- Return the user uid.
function Get_User (Element : in File_Type) return Uid_Type;
-- Return the group gid.
function Get_Group (Element : in File_Type) return Gid_Type;
-- Return the file unix mode.
function Get_Mode (Element : in File_Type) return File_Mode;
type File_Container is limited interface;
-- Add the file with the given name in the container.
procedure Add_File (Into : in out File_Container;
Element : in File_Type) is abstract;
-- Add the directory with the given name in the container.
procedure Add_Directory (Into : in out File_Container;
Element : in Directory_Type) is abstract;
-- Create a new file instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return File_Type is abstract;
-- Create a new directory instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
function Find (From : in File_Container;
Name : in String) return File_Type is abstract;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
function Find (From : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Set the directory object associated with the container.
procedure Set_Directory (Into : in out File_Container;
Directory : in Directory_Type) is abstract;
-- Execute the Process procedure on each directory found in the container.
procedure Each_Directory (Container : in File_Container;
Process : not null access
procedure (Dir : in Directory_Type)) is abstract;
-- Execute the Process procedure on each file found in the container.
procedure Each_File (Container : in File_Container;
Process : not null access
procedure (F : in File_Type)) is abstract;
type Default_Container is new File_Container with private;
-- Add the file with the given name in the container.
overriding
procedure Add_File (Into : in out Default_Container;
Element : in File_Type);
-- Add the directory with the given name in the container.
overriding
procedure Add_Directory (Into : in out Default_Container;
Element : in Directory_Type);
-- Create a new file instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return File_Type;
-- Create a new directory instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return Directory_Type;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return File_Type;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return Directory_Type;
-- Set the directory object associated with the container.
overriding
procedure Set_Directory (Into : in out Default_Container;
Directory : in Directory_Type);
-- Execute the Process procedure on each directory found in the container.
overriding
procedure Each_Directory (Container : in Default_Container;
Process : not null access
procedure (Dir : in Directory_Type));
-- Execute the Process procedure on each file found in the container.
overriding
procedure Each_File (Container : in Default_Container;
Process : not null access
procedure (F : in File_Type));
private
type Directory;
type String_Access is access all String;
type File_Type is access all File;
type Directory_Type is access all Directory;
package File_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => File_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
package Directory_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => Directory_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
type Directory is record
Id : Directory_Identifier := NO_IDENTIFIER;
Parent : Directory_Type;
Mode : File_Mode := 8#755#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Files : File_Maps.Map;
Children : Directory_Maps.Map;
-- Children : Directory_Type_Array_Access;
Name_Pos : Natural := 0;
Name : String_Access;
end record;
package File_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => File_Type,
"=" => "=");
package Directory_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Directory_Type,
"=" => "=");
subtype Directory_Vector is Directory_Vectors.Vector;
type Default_Container is new Babel.Files.File_Container with record
Current : Directory_Type;
Files : File_Vectors.Vector;
Dirs : Directory_Vectors.Vector;
end record;
NO_DIRECTORY : constant Directory_Type := null;
NO_FILE : constant File_Type := null;
end Babel.Files;
| 2900 | -----------------------------------------------------------------------
-- bkp-files -- File and directories
-- Copyright (C) 2014 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Calendar;
with Ada.Strings.Unbounded;
with Ada.Containers.Vectors;
with Ada.Containers.Hashed_Maps;
with Util.Strings;
with Util.Systems.Types;
with Util.Encoders.SHA1;
with ADO;
package Babel.Files is
NO_IDENTIFIER : constant ADO.Identifier := ADO.NO_IDENTIFIER;
subtype File_Identifier is ADO.Identifier;
subtype Directory_Identifier is ADO.Identifier;
subtype File_Size is Long_Long_Integer;
subtype File_Mode is Util.Systems.Types.mode_t;
-- type File_Mode is mod 2**16;
type File_Type is private;
type File_Type_Array is array (Positive range <>) of File_Type;
type File_Type_Array_Access is access all File_Type_Array;
type Directory_Type is private;
type Directory_Type_Array is array (Positive range <>) of Directory_Type;
type Directory_Type_Array_Access is access all Directory_Type_Array;
NO_DIRECTORY : constant Directory_Type;
NO_FILE : constant File_Type;
type Status_Type is mod 2**16;
-- The file was modified.
FILE_MODIFIED : constant Status_Type := 16#0001#;
-- There was some error while processing this file.
FILE_ERROR : constant Status_Type := 16#8000#;
-- The SHA1 signature for the file is known and valid.
FILE_HAS_SHA1 : constant Status_Type := 16#0002#;
-- Allocate a File_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return File_Type;
-- Allocate a Directory_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return Directory_Type;
type File (Len : Positive) is record
Id : File_Identifier := NO_IDENTIFIER;
Size : File_Size := 0;
Dir : Directory_Type := NO_DIRECTORY;
Mode : File_Mode := 8#644#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Status : Status_Type := 0;
Date : Ada.Calendar.Time;
SHA1 : Util.Encoders.SHA1.Hash_Array;
Name : aliased String (1 .. Len);
end record;
-- Compare two files on their name and directory.
function "<" (Left, Right : in File_Type) return Boolean;
-- Return true if the file was modified and need a backup.
function Is_Modified (Element : in File_Type) return Boolean;
-- Return true if the file is a new file.
function Is_New (Element : in File_Type) return Boolean;
-- Set the file as modified.
procedure Set_Modified (Element : in File_Type);
-- Set the SHA1 signature that was computed for this file.
-- If the computed signature is different from the current signature,
-- the FILE_MODIFIED flag is set on the file. The FILE_HAS_SHA1 flag
-- is set on the file.
procedure Set_Signature (Element : in File_Type;
Signature : in Util.Encoders.SHA1.Hash_Array);
-- Set the file size. If the new size is different, the FILE_MODIFIED
-- flag is set on the file.
procedure Set_Size (Element : in File_Type;
Size : in File_Size);
-- Set the owner and group of the file.
procedure Set_Owner (Element : in File_Type;
User : in Uid_Type;
Group : in Gid_Type);
-- Set the file modification date.
procedure Set_Date (Element : in File_Type;
Date : in Util.Systems.Types.Timespec);
procedure Set_Date (Element : in File_Type;
Date : in Ada.Calendar.Time);
-- Return the path for the file.
function Get_Path (Element : in File_Type) return String;
-- Return the path for the directory.
function Get_Path (Element : in Directory_Type) return String;
-- Return the SHA1 signature computed for the file.
function Get_SHA1 (Element : in File_Type) return String;
-- Return the file size.
function Get_Size (Element : in File_Type) return File_Size;
-- Return the file modification date.
function Get_Date (Element : in File_Type) return Ada.Calendar.Time;
-- Return the user uid.
function Get_User (Element : in File_Type) return Uid_Type;
-- Return the group gid.
function Get_Group (Element : in File_Type) return Gid_Type;
-- Return the file unix mode.
function Get_Mode (Element : in File_Type) return File_Mode;
type File_Container is limited interface;
-- Add the file with the given name in the container.
procedure Add_File (Into : in out File_Container;
Element : in File_Type) is abstract;
-- Add the directory with the given name in the container.
procedure Add_Directory (Into : in out File_Container;
Element : in Directory_Type) is abstract;
-- Create a new file instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return File_Type is abstract;
-- Create a new directory instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
function Find (From : in File_Container;
Name : in String) return File_Type is abstract;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
function Find (From : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Set the directory object associated with the container.
procedure Set_Directory (Into : in out File_Container;
Directory : in Directory_Type) is abstract;
-- Execute the Process procedure on each directory found in the container.
procedure Each_Directory (Container : in File_Container;
Process : not null access
procedure (Dir : in Directory_Type)) is abstract;
-- Execute the Process procedure on each file found in the container.
procedure Each_File (Container : in File_Container;
Process : not null access
procedure (F : in File_Type)) is abstract;
type Default_Container is new File_Container with private;
-- Add the file with the given name in the container.
overriding
procedure Add_File (Into : in out Default_Container;
Element : in File_Type);
-- Add the directory with the given name in the container.
overriding
procedure Add_Directory (Into : in out Default_Container;
Element : in Directory_Type);
-- Create a new file instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return File_Type;
-- Create a new directory instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return Directory_Type;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return File_Type;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return Directory_Type;
-- Set the directory object associated with the container.
overriding
procedure Set_Directory (Into : in out Default_Container;
Directory : in Directory_Type);
-- Execute the Process procedure on each directory found in the container.
overriding
procedure Each_Directory (Container : in Default_Container;
Process : not null access
procedure (Dir : in Directory_Type));
-- Execute the Process procedure on each file found in the container.
overriding
procedure Each_File (Container : in Default_Container;
Process : not null access
procedure (F : in File_Type));
private
type Directory;
type String_Access is access all String;
type File_Type is access all File;
type Directory_Type is access all Directory;
package File_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => File_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
package Directory_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => Directory_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
type Directory is record
Id : Directory_Identifier := NO_IDENTIFIER;
Parent : Directory_Type;
Mode : File_Mode := 8#755#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Files : File_Maps.Map;
Children : Directory_Maps.Map;
-- Children : Directory_Type_Array_Access;
Name_Pos : Natural := 0;
Name : String_Access;
end record;
package File_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => File_Type,
"=" => "=");
package Directory_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Directory_Type,
"=" => "=");
subtype Directory_Vector is Directory_Vectors.Vector;
type Default_Container is new Babel.Files.File_Container with record
Current : Directory_Type;
Files : File_Vectors.Vector;
Dirs : Directory_Vectors.Vector;
end record;
NO_DIRECTORY : constant Directory_Type := null;
NO_FILE : constant File_Type := null;
end Babel.Files;
| true | -----------------------------------------------------------------------
-- bkp-files -- File and directories
-- Copyright (C) 2014 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Calendar;
with Ada.Strings.Unbounded;
with Ada.Containers.Vectors;
with Ada.Containers.Hashed_Maps;
with Util.Strings;
with Util.Systems.Types;
with Util.Encoders.SHA1;
with ADO;
package Babel.Files is
NO_IDENTIFIER : constant ADO.Identifier := ADO.NO_IDENTIFIER;
subtype File_Identifier is ADO.Identifier;
subtype Directory_Identifier is ADO.Identifier;
subtype File_Size is Long_Long_Integer;
subtype File_Mode is Util.Systems.Types.mode_t;
-- type File_Mode is mod 2**16;
type File_Type is private;
type File_Type_Array is array (Positive range <>) of File_Type;
type File_Type_Array_Access is access all File_Type_Array;
type Directory_Type is private;
type Directory_Type_Array is array (Positive range <>) of Directory_Type;
type Directory_Type_Array_Access is access all Directory_Type_Array;
NO_DIRECTORY : constant Directory_Type;
NO_FILE : constant File_Type;
type Status_Type is mod 2**16;
-- The file was modified.
FILE_MODIFIED : constant Status_Type := 16#0001#;
-- There was some error while processing this file.
FILE_ERROR : constant Status_Type := 16#8000#;
-- The SHA1 signature for the file is known and valid.
FILE_HAS_SHA1 : constant Status_Type := 16#0002#;
-- Allocate a File_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return File_Type;
-- Allocate a Directory_Type entry with the given name for the directory.
function Allocate (Name : in String;
Dir : in Directory_Type) return Directory_Type;
type File (Len : Positive) is record
Id : File_Identifier := NO_IDENTIFIER;
Size : File_Size := 0;
Dir : Directory_Type := NO_DIRECTORY;
Mode : File_Mode := 8#644#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Status : Status_Type := 0;
Date : Ada.Calendar.Time;
SHA1 : Util.Encoders.SHA1.Hash_Array;
Name : aliased String (1 .. Len);
end record;
-- Compare two files on their name and directory.
function "<" (Left, Right : in File_Type) return Boolean;
-- Return true if the file was modified and need a backup.
function Is_Modified (Element : in File_Type) return Boolean;
-- Return true if the file is a new file.
function Is_New (Element : in File_Type) return Boolean;
-- Set the file as modified.
procedure Set_Modified (Element : in File_Type);
-- Set the SHA1 signature that was computed for this file.
-- If the computed signature is different from the current signature,
-- the FILE_MODIFIED flag is set on the file. The FILE_HAS_SHA1 flag
-- is set on the file.
procedure Set_Signature (Element : in File_Type;
Signature : in Util.Encoders.SHA1.Hash_Array);
-- Set the file size. If the new size is different, the FILE_MODIFIED
-- flag is set on the file.
procedure Set_Size (Element : in File_Type;
Size : in File_Size);
-- Set the owner and group of the file.
procedure Set_Owner (Element : in File_Type;
User : in Uid_Type;
Group : in Gid_Type);
-- Set the file modification date.
procedure Set_Date (Element : in File_Type;
Date : in Util.Systems.Types.Timespec);
procedure Set_Date (Element : in File_Type;
Date : in Ada.Calendar.Time);
-- Return the path for the file.
function Get_Path (Element : in File_Type) return String;
-- Return the path for the directory.
function Get_Path (Element : in Directory_Type) return String;
-- Return the SHA1 signature computed for the file.
function Get_SHA1 (Element : in File_Type) return String;
-- Return the file size.
function Get_Size (Element : in File_Type) return File_Size;
-- Return the file modification date.
function Get_Date (Element : in File_Type) return Ada.Calendar.Time;
-- Return the user uid.
function Get_User (Element : in File_Type) return Uid_Type;
-- Return the group gid.
function Get_Group (Element : in File_Type) return Gid_Type;
-- Return the file unix mode.
function Get_Mode (Element : in File_Type) return File_Mode;
type File_Container is limited interface;
-- Add the file with the given name in the container.
procedure Add_File (Into : in out File_Container;
Element : in File_Type) is abstract;
-- Add the directory with the given name in the container.
procedure Add_Directory (Into : in out File_Container;
Element : in Directory_Type) is abstract;
-- Create a new file instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return File_Type is abstract;
-- Create a new directory instance with the given name in the container.
function Create (Into : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
function Find (From : in File_Container;
Name : in String) return File_Type is abstract;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
function Find (From : in File_Container;
Name : in String) return Directory_Type is abstract;
-- Set the directory object associated with the container.
procedure Set_Directory (Into : in out File_Container;
Directory : in Directory_Type) is abstract;
-- Execute the Process procedure on each directory found in the container.
procedure Each_Directory (Container : in File_Container;
Process : not null access
procedure (Dir : in Directory_Type)) is abstract;
-- Execute the Process procedure on each file found in the container.
procedure Each_File (Container : in File_Container;
Process : not null access
procedure (F : in File_Type)) is abstract;
type Default_Container is new File_Container with private;
-- Add the file with the given name in the container.
overriding
procedure Add_File (Into : in out Default_Container;
Element : in File_Type);
-- Add the directory with the given name in the container.
overriding
procedure Add_Directory (Into : in out Default_Container;
Element : in Directory_Type);
-- Create a new file instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return File_Type;
-- Create a new directory instance with the given name in the container.
overriding
function Create (Into : in Default_Container;
Name : in String) return Directory_Type;
-- Find the file with the given name in this file container.
-- Returns NO_FILE if the file was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return File_Type;
-- Find the directory with the given name in this file container.
-- Returns NO_DIRECTORY if the directory was not found.
overriding
function Find (From : in Default_Container;
Name : in String) return Directory_Type;
-- Set the directory object associated with the container.
overriding
procedure Set_Directory (Into : in out Default_Container;
Directory : in Directory_Type);
-- Execute the Process procedure on each directory found in the container.
overriding
procedure Each_Directory (Container : in Default_Container;
Process : not null access
procedure (Dir : in Directory_Type));
-- Execute the Process procedure on each file found in the container.
overriding
procedure Each_File (Container : in Default_Container;
Process : not null access
procedure (F : in File_Type));
private
type Directory;
type String_Access is access all String;
type File_Type is access all File;
type Directory_Type is access all Directory;
package File_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => File_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
package Directory_Maps is new
Ada.Containers.Hashed_Maps (Key_Type => Util.Strings.Name_Access,
Element_Type => Directory_Type,
Hash => Util.Strings.Hash,
Equivalent_Keys => Util.Strings.Equivalent_Keys,
"=" => "=");
type Directory is record
Id : Directory_Identifier := NO_IDENTIFIER;
Parent : Directory_Type;
Mode : File_Mode := 8#755#;
User : Uid_Type := 0;
Group : Gid_Type := 0;
Files : File_Maps.Map;
Children : Directory_Maps.Map;
-- Children : Directory_Type_Array_Access;
Name_Pos : Natural := 0;
Name : String_Access;
end record;
package File_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => File_Type,
"=" => "=");
package Directory_Vectors is new
Ada.Containers.Vectors (Index_Type => Positive,
Element_Type => Directory_Type,
"=" => "=");
subtype Directory_Vector is Directory_Vectors.Vector;
type Default_Container is new Babel.Files.File_Container with record
Current : Directory_Type;
Files : File_Vectors.Vector;
Dirs : Directory_Vectors.Vector;
end record;
NO_DIRECTORY : constant Directory_Type := null;
NO_FILE : constant File_Type := null;
end Babel.Files;
|
[
{
"context": "elock);\n -- GStreamer\n -- * Copyright (C) <2005> Philippe Khalaf <burger@speedy.org>\n -- *\n -- * This library is",
"end": 2516,
"score": 0.9998792409896851,
"start": 2501,
"tag": "NAME",
"value": "Philippe Khalaf"
},
{
"context": "amer\n -- * Copyright (C) <2005> Philippe Khalaf <burger@speedy.org>\n -- *\n -- * This library is free software; you",
"end": 2535,
"score": 0.9999299645423889,
"start": 2518,
"tag": "EMAIL",
"value": "burger@speedy.org"
}
] | src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_rtp_gstbasertpdepayload_h.ads | persan/A-gst | 1 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
-- with GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
-- limited with GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
with glib;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h is
-- unsupported macro: GST_TYPE_BASE_RTP_DEPAYLOAD (gst_base_rtp_depayload_get_type())
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayload);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS ((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SINKPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).sinkpad;
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SRCPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).srcpad;
-- arg-macro: function QUEUE_LOCK_INIT (base)
-- return g_static_rec_mutex_init(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK_FREE (base)
-- return g_static_rec_mutex_free(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK (base)
-- return g_static_rec_mutex_lock(andbase.queuelock);
-- arg-macro: function QUEUE_UNLOCK (base)
-- return g_static_rec_mutex_unlock(andbase.queuelock);
-- GStreamer
-- * Copyright (C) <2005> Philippe Khalaf <burger@speedy.org>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- this was presumably never meant to be public API, or should at least
-- * have been prefixed if it was. Don't use. (FIXME: remove in 0.11)
type GstBaseRTPDepayload;
type u_GstBaseRTPDepayload_u_gst_reserved_array is array (0 .. 2) of System.Address;
--subtype GstBaseRTPDepayload is u_GstBaseRTPDepayload; -- gst/rtp/gstbasertpdepayload.h:52
type GstBaseRTPDepayloadClass;
type u_GstBaseRTPDepayloadClass_u_gst_reserved_array is array (0 .. 1) of System.Address;
--subtype GstBaseRTPDepayloadClass is u_GstBaseRTPDepayloadClass; -- gst/rtp/gstbasertpdepayload.h:53
-- skipped empty struct u_GstBaseRTPDepayloadPrivate
-- skipped empty struct GstBaseRTPDepayloadPrivate
type GstBaseRTPDepayload is record
parent : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/rtp/gstbasertpdepayload.h:58
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
queuelock : aliased GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h.GStaticRecMutex; -- gst/rtp/gstbasertpdepayload.h:64
thread_running : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:67
thread : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GThread; -- gst/rtp/gstbasertpdepayload.h:69
clock_rate : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:73
queue_delay : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:77
queue : access GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h.GQueue; -- gst/rtp/gstbasertpdepayload.h:84
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/rtp/gstbasertpdepayload.h:86
need_newsegment : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:87
priv : System.Address; -- gst/rtp/gstbasertpdepayload.h:90
u_gst_reserved : u_GstBaseRTPDepayload_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:92
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayload); -- gst/rtp/gstbasertpdepayload.h:56
-- lock to protect the queue, deprecated
-- deprecated
-- the releaser thread, deprecated
-- this attribute must be set by the child
-- this value can be modified by the child if needed, deprecated
-- we will queue up to RTP_QUEUEDELAY ms of packets,
-- * reordering them if necessary
-- * dropping any packets that are more than
-- * RTP_QUEUEDELAY ms late, deprecated
--< private >
--*
-- * GstBaseRTPDepayloadClass:
-- * @parent_class: the parent class
-- * @set_caps: configure the depayloader
-- * @add_to_queue: (deprecated)
-- * @process: process incoming rtp packets
-- * @set_gst_timestamp: convert from RTP timestamp to GST timestamp
-- * @packet_lost: signal the depayloader about packet loss
-- * @handle_event: custom event handling
-- *
-- * Base class for audio RTP payloader.
--
type GstBaseRTPDepayloadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/rtp/gstbasertpdepayload.h:109
set_caps : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:112
add_to_queue : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:116
process : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer; -- gst/rtp/gstbasertpdepayload.h:123
set_gst_timestamp : access procedure
(arg1 : access GstBaseRTPDepayload;
arg2 : GLIB.guint32;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/rtp/gstbasertpdepayload.h:127
packet_lost : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:132
handle_event : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:137
u_gst_reserved : u_GstBaseRTPDepayloadClass_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:140
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayloadClass); -- gst/rtp/gstbasertpdepayload.h:107
-- virtuals, inform the subclass of the caps.
-- non-pure function, default implementation in base class
-- * this does buffering, reordering and dropping, deprecated
-- pure virtual function, child must use this to process incoming
-- * rtp packets. If the child returns a buffer without a valid timestamp,
-- * the timestamp of @in will be applied to the result buffer and the
-- * buffer will be pushed. If this function returns %NULL, nothing is
-- * pushed.
-- non-pure function used to convert from RTP timestamp to GST timestamp
-- * this function is used by the child class before gst_pad_pushing
-- non-pure function used to to signal the depayloader about packet loss. the
-- * timestamp and duration are the estimated values of the lost packet.
-- * The default implementation of this message pushes a segment update.
-- the default implementation does the default actions for events but
-- * implementation can override.
-- * Since: 0.10.32
--< private >
function gst_base_rtp_depayload_get_type return GLIB.GType; -- gst/rtp/gstbasertpdepayload.h:143
pragma Import (C, gst_base_rtp_depayload_get_type, "gst_base_rtp_depayload_get_type");
function gst_base_rtp_depayload_push (filter : access GstBaseRTPDepayload; out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:145
pragma Import (C, gst_base_rtp_depayload_push, "gst_base_rtp_depayload_push");
function gst_base_rtp_depayload_push_ts
(filter : access GstBaseRTPDepayload;
timestamp : GLIB.guint32;
out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:146
pragma Import (C, gst_base_rtp_depayload_push_ts, "gst_base_rtp_depayload_push_ts");
function gst_base_rtp_depayload_push_list (filter : access GstBaseRTPDepayload; out_list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:148
pragma Import (C, gst_base_rtp_depayload_push_list, "gst_base_rtp_depayload_push_list");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h;
| 25589 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
-- with GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
-- limited with GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
with glib;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h is
-- unsupported macro: GST_TYPE_BASE_RTP_DEPAYLOAD (gst_base_rtp_depayload_get_type())
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayload);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS ((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SINKPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).sinkpad;
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SRCPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).srcpad;
-- arg-macro: function QUEUE_LOCK_INIT (base)
-- return g_static_rec_mutex_init(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK_FREE (base)
-- return g_static_rec_mutex_free(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK (base)
-- return g_static_rec_mutex_lock(andbase.queuelock);
-- arg-macro: function QUEUE_UNLOCK (base)
-- return g_static_rec_mutex_unlock(andbase.queuelock);
-- GStreamer
-- * Copyright (C) <2005> <NAME> <<EMAIL>>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- this was presumably never meant to be public API, or should at least
-- * have been prefixed if it was. Don't use. (FIXME: remove in 0.11)
type GstBaseRTPDepayload;
type u_GstBaseRTPDepayload_u_gst_reserved_array is array (0 .. 2) of System.Address;
--subtype GstBaseRTPDepayload is u_GstBaseRTPDepayload; -- gst/rtp/gstbasertpdepayload.h:52
type GstBaseRTPDepayloadClass;
type u_GstBaseRTPDepayloadClass_u_gst_reserved_array is array (0 .. 1) of System.Address;
--subtype GstBaseRTPDepayloadClass is u_GstBaseRTPDepayloadClass; -- gst/rtp/gstbasertpdepayload.h:53
-- skipped empty struct u_GstBaseRTPDepayloadPrivate
-- skipped empty struct GstBaseRTPDepayloadPrivate
type GstBaseRTPDepayload is record
parent : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/rtp/gstbasertpdepayload.h:58
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
queuelock : aliased GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h.GStaticRecMutex; -- gst/rtp/gstbasertpdepayload.h:64
thread_running : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:67
thread : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GThread; -- gst/rtp/gstbasertpdepayload.h:69
clock_rate : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:73
queue_delay : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:77
queue : access GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h.GQueue; -- gst/rtp/gstbasertpdepayload.h:84
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/rtp/gstbasertpdepayload.h:86
need_newsegment : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:87
priv : System.Address; -- gst/rtp/gstbasertpdepayload.h:90
u_gst_reserved : u_GstBaseRTPDepayload_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:92
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayload); -- gst/rtp/gstbasertpdepayload.h:56
-- lock to protect the queue, deprecated
-- deprecated
-- the releaser thread, deprecated
-- this attribute must be set by the child
-- this value can be modified by the child if needed, deprecated
-- we will queue up to RTP_QUEUEDELAY ms of packets,
-- * reordering them if necessary
-- * dropping any packets that are more than
-- * RTP_QUEUEDELAY ms late, deprecated
--< private >
--*
-- * GstBaseRTPDepayloadClass:
-- * @parent_class: the parent class
-- * @set_caps: configure the depayloader
-- * @add_to_queue: (deprecated)
-- * @process: process incoming rtp packets
-- * @set_gst_timestamp: convert from RTP timestamp to GST timestamp
-- * @packet_lost: signal the depayloader about packet loss
-- * @handle_event: custom event handling
-- *
-- * Base class for audio RTP payloader.
--
type GstBaseRTPDepayloadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/rtp/gstbasertpdepayload.h:109
set_caps : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:112
add_to_queue : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:116
process : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer; -- gst/rtp/gstbasertpdepayload.h:123
set_gst_timestamp : access procedure
(arg1 : access GstBaseRTPDepayload;
arg2 : GLIB.guint32;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/rtp/gstbasertpdepayload.h:127
packet_lost : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:132
handle_event : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:137
u_gst_reserved : u_GstBaseRTPDepayloadClass_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:140
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayloadClass); -- gst/rtp/gstbasertpdepayload.h:107
-- virtuals, inform the subclass of the caps.
-- non-pure function, default implementation in base class
-- * this does buffering, reordering and dropping, deprecated
-- pure virtual function, child must use this to process incoming
-- * rtp packets. If the child returns a buffer without a valid timestamp,
-- * the timestamp of @in will be applied to the result buffer and the
-- * buffer will be pushed. If this function returns %NULL, nothing is
-- * pushed.
-- non-pure function used to convert from RTP timestamp to GST timestamp
-- * this function is used by the child class before gst_pad_pushing
-- non-pure function used to to signal the depayloader about packet loss. the
-- * timestamp and duration are the estimated values of the lost packet.
-- * The default implementation of this message pushes a segment update.
-- the default implementation does the default actions for events but
-- * implementation can override.
-- * Since: 0.10.32
--< private >
function gst_base_rtp_depayload_get_type return GLIB.GType; -- gst/rtp/gstbasertpdepayload.h:143
pragma Import (C, gst_base_rtp_depayload_get_type, "gst_base_rtp_depayload_get_type");
function gst_base_rtp_depayload_push (filter : access GstBaseRTPDepayload; out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:145
pragma Import (C, gst_base_rtp_depayload_push, "gst_base_rtp_depayload_push");
function gst_base_rtp_depayload_push_ts
(filter : access GstBaseRTPDepayload;
timestamp : GLIB.guint32;
out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:146
pragma Import (C, gst_base_rtp_depayload_push_ts, "gst_base_rtp_depayload_push_ts");
function gst_base_rtp_depayload_push_list (filter : access GstBaseRTPDepayload; out_list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:148
pragma Import (C, gst_base_rtp_depayload_push_list, "gst_base_rtp_depayload_push_list");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h;
| true | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
-- with GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
-- limited with GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h;
with System;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
with glib;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h is
-- unsupported macro: GST_TYPE_BASE_RTP_DEPAYLOAD (gst_base_rtp_depayload_get_type())
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayload);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS ((obj),GST_TYPE_BASE_RTP_DEPAYLOAD,GstBaseRTPDepayloadClass);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_IS_BASE_RTP_DEPAYLOAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_RTP_DEPAYLOAD);
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SINKPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).sinkpad;
-- arg-macro: function GST_BASE_RTP_DEPAYLOAD_SRCPAD (depayload)
-- return GST_BASE_RTP_DEPAYLOAD (depayload).srcpad;
-- arg-macro: function QUEUE_LOCK_INIT (base)
-- return g_static_rec_mutex_init(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK_FREE (base)
-- return g_static_rec_mutex_free(andbase.queuelock);
-- arg-macro: function QUEUE_LOCK (base)
-- return g_static_rec_mutex_lock(andbase.queuelock);
-- arg-macro: function QUEUE_UNLOCK (base)
-- return g_static_rec_mutex_unlock(andbase.queuelock);
-- GStreamer
-- * Copyright (C) <2005> PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- this was presumably never meant to be public API, or should at least
-- * have been prefixed if it was. Don't use. (FIXME: remove in 0.11)
type GstBaseRTPDepayload;
type u_GstBaseRTPDepayload_u_gst_reserved_array is array (0 .. 2) of System.Address;
--subtype GstBaseRTPDepayload is u_GstBaseRTPDepayload; -- gst/rtp/gstbasertpdepayload.h:52
type GstBaseRTPDepayloadClass;
type u_GstBaseRTPDepayloadClass_u_gst_reserved_array is array (0 .. 1) of System.Address;
--subtype GstBaseRTPDepayloadClass is u_GstBaseRTPDepayloadClass; -- gst/rtp/gstbasertpdepayload.h:53
-- skipped empty struct u_GstBaseRTPDepayloadPrivate
-- skipped empty struct GstBaseRTPDepayloadPrivate
type GstBaseRTPDepayload is record
parent : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/rtp/gstbasertpdepayload.h:58
sinkpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
srcpad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/rtp/gstbasertpdepayload.h:60
queuelock : aliased GStreamer.GST_Low_Level.glib_2_0_glib_deprecated_gthread_h.GStaticRecMutex; -- gst/rtp/gstbasertpdepayload.h:64
thread_running : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:67
thread : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GThread; -- gst/rtp/gstbasertpdepayload.h:69
clock_rate : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:73
queue_delay : aliased GLIB.guint; -- gst/rtp/gstbasertpdepayload.h:77
queue : access GStreamer.GST_Low_Level.glib_2_0_glib_gqueue_h.GQueue; -- gst/rtp/gstbasertpdepayload.h:84
segment : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstsegment_h.GstSegment; -- gst/rtp/gstbasertpdepayload.h:86
need_newsegment : aliased GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:87
priv : System.Address; -- gst/rtp/gstbasertpdepayload.h:90
u_gst_reserved : u_GstBaseRTPDepayload_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:92
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayload); -- gst/rtp/gstbasertpdepayload.h:56
-- lock to protect the queue, deprecated
-- deprecated
-- the releaser thread, deprecated
-- this attribute must be set by the child
-- this value can be modified by the child if needed, deprecated
-- we will queue up to RTP_QUEUEDELAY ms of packets,
-- * reordering them if necessary
-- * dropping any packets that are more than
-- * RTP_QUEUEDELAY ms late, deprecated
--< private >
--*
-- * GstBaseRTPDepayloadClass:
-- * @parent_class: the parent class
-- * @set_caps: configure the depayloader
-- * @add_to_queue: (deprecated)
-- * @process: process incoming rtp packets
-- * @set_gst_timestamp: convert from RTP timestamp to GST timestamp
-- * @packet_lost: signal the depayloader about packet loss
-- * @handle_event: custom event handling
-- *
-- * Base class for audio RTP payloader.
--
type GstBaseRTPDepayloadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElementClass; -- gst/rtp/gstbasertpdepayload.h:109
set_caps : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:112
add_to_queue : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:116
process : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer; -- gst/rtp/gstbasertpdepayload.h:123
set_gst_timestamp : access procedure
(arg1 : access GstBaseRTPDepayload;
arg2 : GLIB.guint32;
arg3 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/rtp/gstbasertpdepayload.h:127
packet_lost : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:132
handle_event : access function (arg1 : access GstBaseRTPDepayload; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/rtp/gstbasertpdepayload.h:137
u_gst_reserved : u_GstBaseRTPDepayloadClass_u_gst_reserved_array; -- gst/rtp/gstbasertpdepayload.h:140
end record;
pragma Convention (C_Pass_By_Copy, GstBaseRTPDepayloadClass); -- gst/rtp/gstbasertpdepayload.h:107
-- virtuals, inform the subclass of the caps.
-- non-pure function, default implementation in base class
-- * this does buffering, reordering and dropping, deprecated
-- pure virtual function, child must use this to process incoming
-- * rtp packets. If the child returns a buffer without a valid timestamp,
-- * the timestamp of @in will be applied to the result buffer and the
-- * buffer will be pushed. If this function returns %NULL, nothing is
-- * pushed.
-- non-pure function used to convert from RTP timestamp to GST timestamp
-- * this function is used by the child class before gst_pad_pushing
-- non-pure function used to to signal the depayloader about packet loss. the
-- * timestamp and duration are the estimated values of the lost packet.
-- * The default implementation of this message pushes a segment update.
-- the default implementation does the default actions for events but
-- * implementation can override.
-- * Since: 0.10.32
--< private >
function gst_base_rtp_depayload_get_type return GLIB.GType; -- gst/rtp/gstbasertpdepayload.h:143
pragma Import (C, gst_base_rtp_depayload_get_type, "gst_base_rtp_depayload_get_type");
function gst_base_rtp_depayload_push (filter : access GstBaseRTPDepayload; out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:145
pragma Import (C, gst_base_rtp_depayload_push, "gst_base_rtp_depayload_push");
function gst_base_rtp_depayload_push_ts
(filter : access GstBaseRTPDepayload;
timestamp : GLIB.guint32;
out_buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:146
pragma Import (C, gst_base_rtp_depayload_push_ts, "gst_base_rtp_depayload_push_ts");
function gst_base_rtp_depayload_push_list (filter : access GstBaseRTPDepayload; out_list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/rtp/gstbasertpdepayload.h:148
pragma Import (C, gst_base_rtp_depayload_push_list, "gst_base_rtp_depayload_push_list");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_rtp_gstbasertpdepayload_h;
|
[
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998579025268555,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999307990074158,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/oasis/program-elements-discriminant_specifications.ads | optikos/oasis | 0 | -- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Element_Vectors;
with Program.Elements.Declarations;
with Program.Elements.Defining_Identifiers;
with Program.Lexical_Elements;
with Program.Elements.Expressions;
package Program.Elements.Discriminant_Specifications is
pragma Pure (Program.Elements.Discriminant_Specifications);
type Discriminant_Specification is
limited interface and Program.Elements.Declarations.Declaration;
type Discriminant_Specification_Access is
access all Discriminant_Specification'Class with Storage_Size => 0;
not overriding function Names
(Self : Discriminant_Specification)
return not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Vector_Access is abstract;
not overriding function Object_Subtype
(Self : Discriminant_Specification)
return not null Program.Elements.Element_Access is abstract;
not overriding function Default_Expression
(Self : Discriminant_Specification)
return Program.Elements.Expressions.Expression_Access is abstract;
not overriding function Has_Not_Null
(Self : Discriminant_Specification)
return Boolean is abstract;
type Discriminant_Specification_Text is limited interface;
type Discriminant_Specification_Text_Access is
access all Discriminant_Specification_Text'Class with Storage_Size => 0;
not overriding function To_Discriminant_Specification_Text
(Self : aliased in out Discriminant_Specification)
return Discriminant_Specification_Text_Access is abstract;
not overriding function Colon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Not_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Null_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Assignment_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Semicolon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
type Discriminant_Specification_Vector is
limited interface and Program.Element_Vectors.Element_Vector;
type Discriminant_Specification_Vector_Access is
access all Discriminant_Specification_Vector'Class with Storage_Size => 0;
overriding function Element
(Self : Discriminant_Specification_Vector;
Index : Positive)
return not null Program.Elements.Element_Access is abstract
with Post'Class => Element'Result.Is_Discriminant_Specification;
function To_Discriminant_Specification
(Self : Discriminant_Specification_Vector'Class;
Index : Positive)
return not null Discriminant_Specification_Access
is (Self.Element (Index).To_Discriminant_Specification);
end Program.Elements.Discriminant_Specifications;
| 660 | -- Copyright (c) 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Element_Vectors;
with Program.Elements.Declarations;
with Program.Elements.Defining_Identifiers;
with Program.Lexical_Elements;
with Program.Elements.Expressions;
package Program.Elements.Discriminant_Specifications is
pragma Pure (Program.Elements.Discriminant_Specifications);
type Discriminant_Specification is
limited interface and Program.Elements.Declarations.Declaration;
type Discriminant_Specification_Access is
access all Discriminant_Specification'Class with Storage_Size => 0;
not overriding function Names
(Self : Discriminant_Specification)
return not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Vector_Access is abstract;
not overriding function Object_Subtype
(Self : Discriminant_Specification)
return not null Program.Elements.Element_Access is abstract;
not overriding function Default_Expression
(Self : Discriminant_Specification)
return Program.Elements.Expressions.Expression_Access is abstract;
not overriding function Has_Not_Null
(Self : Discriminant_Specification)
return Boolean is abstract;
type Discriminant_Specification_Text is limited interface;
type Discriminant_Specification_Text_Access is
access all Discriminant_Specification_Text'Class with Storage_Size => 0;
not overriding function To_Discriminant_Specification_Text
(Self : aliased in out Discriminant_Specification)
return Discriminant_Specification_Text_Access is abstract;
not overriding function Colon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Not_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Null_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Assignment_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Semicolon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
type Discriminant_Specification_Vector is
limited interface and Program.Element_Vectors.Element_Vector;
type Discriminant_Specification_Vector_Access is
access all Discriminant_Specification_Vector'Class with Storage_Size => 0;
overriding function Element
(Self : Discriminant_Specification_Vector;
Index : Positive)
return not null Program.Elements.Element_Access is abstract
with Post'Class => Element'Result.Is_Discriminant_Specification;
function To_Discriminant_Specification
(Self : Discriminant_Specification_Vector'Class;
Index : Positive)
return not null Discriminant_Specification_Access
is (Self.Element (Index).To_Discriminant_Specification);
end Program.Elements.Discriminant_Specifications;
| true | -- Copyright (c) 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Program.Element_Vectors;
with Program.Elements.Declarations;
with Program.Elements.Defining_Identifiers;
with Program.Lexical_Elements;
with Program.Elements.Expressions;
package Program.Elements.Discriminant_Specifications is
pragma Pure (Program.Elements.Discriminant_Specifications);
type Discriminant_Specification is
limited interface and Program.Elements.Declarations.Declaration;
type Discriminant_Specification_Access is
access all Discriminant_Specification'Class with Storage_Size => 0;
not overriding function Names
(Self : Discriminant_Specification)
return not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Vector_Access is abstract;
not overriding function Object_Subtype
(Self : Discriminant_Specification)
return not null Program.Elements.Element_Access is abstract;
not overriding function Default_Expression
(Self : Discriminant_Specification)
return Program.Elements.Expressions.Expression_Access is abstract;
not overriding function Has_Not_Null
(Self : Discriminant_Specification)
return Boolean is abstract;
type Discriminant_Specification_Text is limited interface;
type Discriminant_Specification_Text_Access is
access all Discriminant_Specification_Text'Class with Storage_Size => 0;
not overriding function To_Discriminant_Specification_Text
(Self : aliased in out Discriminant_Specification)
return Discriminant_Specification_Text_Access is abstract;
not overriding function Colon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Not_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Null_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Assignment_Token
(Self : Discriminant_Specification_Text)
return Program.Lexical_Elements.Lexical_Element_Access is abstract;
not overriding function Semicolon_Token
(Self : Discriminant_Specification_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
type Discriminant_Specification_Vector is
limited interface and Program.Element_Vectors.Element_Vector;
type Discriminant_Specification_Vector_Access is
access all Discriminant_Specification_Vector'Class with Storage_Size => 0;
overriding function Element
(Self : Discriminant_Specification_Vector;
Index : Positive)
return not null Program.Elements.Element_Access is abstract
with Post'Class => Element'Result.Is_Discriminant_Specification;
function To_Discriminant_Specification
(Self : Discriminant_Specification_Vector'Class;
Index : Positive)
return not null Discriminant_Specification_Access
is (Self.Element (Index).To_Discriminant_Specification);
end Program.Elements.Discriminant_Specifications;
|
[
{
"context": "- Wiki renderer\n-- Copyright (C) 2015, 2016, 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 155,
"score": 0.999886691570282,
"start": 140,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "C) 2015, 2016, 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 186,
"score": 0.9998920559883118,
"start": 171,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "9 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 213,
"score": 0.9999263882637024,
"start": 188,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/wiki-render.adb | jquorning/ada-wiki | 18 | -----------------------------------------------------------------------
-- wiki-render -- Wiki renderer
-- Copyright (C) 2015, 2016, 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Wiki.Nodes.Lists;
package body Wiki.Render is
-- ------------------------------
-- Render the list of nodes from the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document;
List : in Wiki.Nodes.Node_List_Access) is
use type Wiki.Nodes.Node_List_Access;
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
if List /= null then
Wiki.Nodes.Lists.Iterate (List, Process'Access);
end if;
end Render;
-- ------------------------------
-- Render the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document) is
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
Doc.Iterate (Process'Access);
Engine.Finish (Doc);
end Render;
end Wiki.Render;
| 4323 | -----------------------------------------------------------------------
-- wiki-render -- Wiki renderer
-- Copyright (C) 2015, 2016, 2019 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Wiki.Nodes.Lists;
package body Wiki.Render is
-- ------------------------------
-- Render the list of nodes from the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document;
List : in Wiki.Nodes.Node_List_Access) is
use type Wiki.Nodes.Node_List_Access;
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
if List /= null then
Wiki.Nodes.Lists.Iterate (List, Process'Access);
end if;
end Render;
-- ------------------------------
-- Render the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document) is
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
Doc.Iterate (Process'Access);
Engine.Finish (Doc);
end Render;
end Wiki.Render;
| true | -----------------------------------------------------------------------
-- wiki-render -- Wiki renderer
-- Copyright (C) 2015, 2016, 2019 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Wiki.Nodes.Lists;
package body Wiki.Render is
-- ------------------------------
-- Render the list of nodes from the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document;
List : in Wiki.Nodes.Node_List_Access) is
use type Wiki.Nodes.Node_List_Access;
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
if List /= null then
Wiki.Nodes.Lists.Iterate (List, Process'Access);
end if;
end Render;
-- ------------------------------
-- Render the document.
-- ------------------------------
procedure Render (Engine : in out Renderer'Class;
Doc : in Wiki.Documents.Document) is
procedure Process (Node : in Wiki.Nodes.Node_Type);
procedure Process (Node : in Wiki.Nodes.Node_Type) is
begin
Engine.Render (Doc, Node);
end Process;
begin
Doc.Iterate (Process'Access);
Engine.Finish (Doc);
end Render;
end Wiki.Render;
|
[
{
"context": "---------------------------\n-- Copyright (c) 2015, Natacha Porté --\n-- ",
"end": 115,
"score": 0.9998577833175659,
"start": 102,
"tag": "NAME",
"value": "Natacha Porté"
}
] | src/natools-web-backends-filesystem.ads | faelys/natools-web | 1 | ------------------------------------------------------------------------------
-- Copyright (c) 2015, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- Natools.Web.Backends.Filesystem provides a very simple filesystem-based --
-- implementation of Natools.Web.Backends.Backend. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Lockable;
private with Natools.S_Expressions.Atom_Refs;
package Natools.Web.Backends.Filesystem is
type File_Backend is new Backend with private;
overriding function Create
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Create a new file, which must not exist previously
overriding procedure Delete
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom);
-- Destroy a file, which must exist previously
overriding function Read
(Self : in File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Read the contents of an existing file
overriding function Append
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Return a stream to append data to the given file
overriding function Overwrite
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Reset the given file to empty and return a stream to write on it
overriding procedure Iterate
(Self : in File_Backend;
Directory : in S_Expressions.Atom;
Process : not null access procedure (Name : in S_Expressions.Atom));
-- Iterate over all the existing file names in Directory
not overriding function Create (Root : in String) return File_Backend;
function Create
(Arguments : in out S_Expressions.Lockable.Descriptor'Class)
return Backend'Class;
private
type File_Backend is new Backend with record
Root : S_Expressions.Atom_Refs.Immutable_Reference;
end record;
end Natools.Web.Backends.Filesystem;
| 18480 | ------------------------------------------------------------------------------
-- Copyright (c) 2015, <NAME> --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- Natools.Web.Backends.Filesystem provides a very simple filesystem-based --
-- implementation of Natools.Web.Backends.Backend. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Lockable;
private with Natools.S_Expressions.Atom_Refs;
package Natools.Web.Backends.Filesystem is
type File_Backend is new Backend with private;
overriding function Create
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Create a new file, which must not exist previously
overriding procedure Delete
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom);
-- Destroy a file, which must exist previously
overriding function Read
(Self : in File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Read the contents of an existing file
overriding function Append
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Return a stream to append data to the given file
overriding function Overwrite
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Reset the given file to empty and return a stream to write on it
overriding procedure Iterate
(Self : in File_Backend;
Directory : in S_Expressions.Atom;
Process : not null access procedure (Name : in S_Expressions.Atom));
-- Iterate over all the existing file names in Directory
not overriding function Create (Root : in String) return File_Backend;
function Create
(Arguments : in out S_Expressions.Lockable.Descriptor'Class)
return Backend'Class;
private
type File_Backend is new Backend with record
Root : S_Expressions.Atom_Refs.Immutable_Reference;
end record;
end Natools.Web.Backends.Filesystem;
| true | ------------------------------------------------------------------------------
-- Copyright (c) 2015, PI:NAME:<NAME>END_PI --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- Natools.Web.Backends.Filesystem provides a very simple filesystem-based --
-- implementation of Natools.Web.Backends.Backend. --
------------------------------------------------------------------------------
with Natools.S_Expressions.Lockable;
private with Natools.S_Expressions.Atom_Refs;
package Natools.Web.Backends.Filesystem is
type File_Backend is new Backend with private;
overriding function Create
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Create a new file, which must not exist previously
overriding procedure Delete
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom);
-- Destroy a file, which must exist previously
overriding function Read
(Self : in File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Read the contents of an existing file
overriding function Append
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Return a stream to append data to the given file
overriding function Overwrite
(Self : in out File_Backend;
Directory, Name : in S_Expressions.Atom)
return Ada.Streams.Root_Stream_Type'Class;
-- Reset the given file to empty and return a stream to write on it
overriding procedure Iterate
(Self : in File_Backend;
Directory : in S_Expressions.Atom;
Process : not null access procedure (Name : in S_Expressions.Atom));
-- Iterate over all the existing file names in Directory
not overriding function Create (Root : in String) return File_Backend;
function Create
(Arguments : in out S_Expressions.Lockable.Descriptor'Class)
return Backend'Class;
private
type File_Backend is new Backend with record
Root : S_Expressions.Atom_Refs.Immutable_Reference;
end record;
end Natools.Web.Backends.Filesystem;
|
[
{
"context": "s real valued matrices.\n-- Copyright (C) 2015-2018 Jonathan S. Parker\n--\n-- Permission to use, copy, modify, and/or dis",
"end": 183,
"score": 0.9998801350593567,
"start": 165,
"tag": "NAME",
"value": "Jonathan S. Parker"
}
] | linear_algebra/bidiagonal.adb | jscparker/math_packages | 30 |
-----------------------------------------------------------------------
-- package body Bidiagonal; bidiagonalizes real valued matrices.
-- Copyright (C) 2015-2018 Jonathan S. Parker
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-----------------------------------------------------------------------
with Ada.Numerics;
with Ada.Numerics.Generic_Elementary_Functions;
with Givens_Rotation;
package body Bidiagonal is
package math is new Ada.Numerics.Generic_Elementary_Functions (Real); use math;
package Rotate is new Givens_Rotation (Real); use Rotate;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
----------------
-- U_Identity --
----------------
function U_Identity return U_Matrix is
U : U_Matrix := (others => (others => Zero));
begin
for r in Row_Index loop
U(r, r) := One;
end loop;
return U;
end U_Identity;
----------------
-- V_Identity --
----------------
function V_Identity return V_Matrix is
V : V_Matrix := (others => (others => Zero));
begin
for c in Col_Index loop
V(c, c) := One;
end loop;
return V;
end V_Identity;
--------------------
-- Bi_Diagonalize --
--------------------
-- Operates only on square real blocks.
--
-- Want to use orthogonal transforms to make A into B,
-- a bi-diagonal matrix with the 1st sub-diagonal non-zero.
-- Let Uj be a 2x2 givens rotation matrix,
-- and let Uj' be its transpose (and inverse). Then form
--
-- A = non-zero
--
-- (U1*...*Un) * (Un'*...*U1') * A * (V1*...*Vn) * (Vn'*...*V1') =
--
-- U * B * V,
--
-- where B = U' * A * V'.
-- and A = U * B * V.
--
-- A = U * B * V where B is bi-diagonal, with the 1st lower off-diagonal
-- non-zero, and all upper off-diagonals zero. (So B is lower triangular.)
--
procedure Bi_Diagonalize
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : out V_Matrix; --
U : out U_Matrix; -- Initialized with Identity
Initial_V_Matrix : in V_Matrix; -- Normally just use function V_Identity.
Initial_U_Matrix : in U_Matrix; -- Normally just use function U_Identity.
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col, Lo_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
-- R_index contains Col_Index
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row+1);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
type Column is array(Row_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Col
(Col_Id : in Col_Index;
Starting_Row : in Row_Index;
Ending_Row : in Row_Index;
Col_Sums : out Column)
is
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
for i in Starting_Row+1 .. Ending_Row loop
Abs_A := Abs A(i, Col_Id);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Col_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Col_Sums(Starting_Row) := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
Compensated_Sum:
declare
val, Sum_tmp, Err, Sum : Real := Zero;
begin
for r in Starting_Row .. Ending_Row loop
Val := (Scale * A(r, Col_Id)) ** 2;
Val := Val - Err; -- correction to Val, next term in sum.
Sum_tmp := Sum + Val; -- now increment Sum
Err := (Sum_tmp - Sum) - Val;
Sum := Sum_tmp;
Col_Sums(r) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Col;
type Row is array(Col_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id : in Row_Index;
Starting_Col : in Col_Index;
Ending_Col : in Col_Index;
Row_Sums : out Row)
is
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
for c in Starting_Col+1 .. Ending_Col loop
Abs_A := Abs A(Row_Id, c);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Row_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Row_Sums(Starting_Col) := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
Compensated_Sum:
declare
Term, Sum_tmp, Err, Sum : Real := Zero;
begin
for c in Starting_Col .. Ending_Col loop
Term := (Scale * A(Row_Id, c)) ** 2;
Term := Term - Err; -- correction to Term, next term in sum.
Sum_tmp := Sum + Term; -- now increment Sum
Err := (Sum_tmp - Sum) - Term;
Sum := Sum_tmp;
Row_Sums(c) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Row;
Row_Sums : Row := (others => Zero);
Col_Sums : Column := (others => Zero);
begin
V := Initial_V_Matrix;
U := Initial_U_Matrix;
-- Always identity unless you preprocessed A with an L*Q transform etc.
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- take lo elements in col = Pivot_Col, and rotate them to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
-- rotate element from Low_Row to Pivot_Row
Get_Sqrt_of_Sum_of_Sqrs_of_Col -- gd
(Col_id => Pivot_Col,
Starting_Row => Pivot_Row,
Ending_Row => Final_Row,
Col_Sums => Col_Sums);
for Low_Row in Pivot_Row+1 .. Final_Row loop -- order important.
-- 50% slower because of M(r,c) c stuff
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Low_Row);
A(Low_Row, Pivot_Col) := Zero;
A(Pivot_Row, Pivot_Col) :=
Real'Copy_Sign (Col_Sums(Low_Row), A(Pivot_Row, Pivot_Col));
end loop;
-- A(Pivot_Row, Pivot_Col) :=
-- Real'Copy_Sign (Col_Sums(Final_Row), A(Pivot_Row, Pivot_Col));
-- Rotate columns.
-- Take hi elements in row = Pivot_Col, and Zero them out by
-- rotating them to 1st superdiagonal (column Pivot_Col + 1).
if Pivot_Col < Final_Col-1 then -- Lo_Col+1 below is Pivot_Col+2
Pivot_Row := Row_Index (Pivot_Col);
Lo_Col := Pivot_Col + 1; -- low to the eye
Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id => Pivot_Row,
Starting_Col => Lo_Col,
Ending_Col => Final_Col,
Row_Sums => Row_Sums);
for Hi_Col in Lo_Col+1 .. Final_Col loop
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Lo_Col,
Hi_Col => Hi_Col);
A(Pivot_Row, Hi_Col) := Zero;
A(Pivot_Row, Lo_Col) :=
Real'Copy_Sign (Row_Sums(Hi_Col), A(Pivot_Row, Lo_Col));
end loop; -- over Hi_Col
-- A(Pivot_Row, Lo_Col) :=
-- Real'Copy_Sign (Row_Sums(Final_Col), A(Pivot_Row, Lo_Col));
end if;
end loop; -- over Pivot_Col
end Bi_Diagonalize;
-- Must input matrices V and U. A must be bidiagonal - zero everywhere,
-- except the diagonal and the superdiagonal. This isn't checked.
-- Not optimized for speed.
procedure Zero_Shift_Bidiagonal_QR
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : in out V_Matrix; --
U : in out U_Matrix; -- Initialized with Identity
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
begin
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
-- Rotate away the superdiagonal by rotating Pivot_Col and Pivot_Col+1
for Pivot_Col in Starting_Col .. Final_Col-1 loop
-- Rotate columns.
-- Take hi element in (row, col) = (Pivot_Col, Pivot_Col+1) and
-- Zero it out by rotating to diagonal (column Pivot_Col).
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Pivot_Col,
Hi_Col => Pivot_Col + 1);
A(Pivot_Row, Pivot_Col + 1) := Zero;
end loop; -- over Pivot_Col
-- Rotate away the subdiagonal by rotating Pivot_Row and Pivot_Row+1
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- Rotate rows.
-- take lo element in col = Pivot_Col, and rotate it to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Pivot_Row + 1);
A(Pivot_Row + 1, Pivot_Col) := Zero;
end loop;
end Zero_Shift_Bidiagonal_QR;
end Bidiagonal;
| 29146 |
-----------------------------------------------------------------------
-- package body Bidiagonal; bidiagonalizes real valued matrices.
-- Copyright (C) 2015-2018 <NAME>
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-----------------------------------------------------------------------
with Ada.Numerics;
with Ada.Numerics.Generic_Elementary_Functions;
with Givens_Rotation;
package body Bidiagonal is
package math is new Ada.Numerics.Generic_Elementary_Functions (Real); use math;
package Rotate is new Givens_Rotation (Real); use Rotate;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
----------------
-- U_Identity --
----------------
function U_Identity return U_Matrix is
U : U_Matrix := (others => (others => Zero));
begin
for r in Row_Index loop
U(r, r) := One;
end loop;
return U;
end U_Identity;
----------------
-- V_Identity --
----------------
function V_Identity return V_Matrix is
V : V_Matrix := (others => (others => Zero));
begin
for c in Col_Index loop
V(c, c) := One;
end loop;
return V;
end V_Identity;
--------------------
-- Bi_Diagonalize --
--------------------
-- Operates only on square real blocks.
--
-- Want to use orthogonal transforms to make A into B,
-- a bi-diagonal matrix with the 1st sub-diagonal non-zero.
-- Let Uj be a 2x2 givens rotation matrix,
-- and let Uj' be its transpose (and inverse). Then form
--
-- A = non-zero
--
-- (U1*...*Un) * (Un'*...*U1') * A * (V1*...*Vn) * (Vn'*...*V1') =
--
-- U * B * V,
--
-- where B = U' * A * V'.
-- and A = U * B * V.
--
-- A = U * B * V where B is bi-diagonal, with the 1st lower off-diagonal
-- non-zero, and all upper off-diagonals zero. (So B is lower triangular.)
--
procedure Bi_Diagonalize
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : out V_Matrix; --
U : out U_Matrix; -- Initialized with Identity
Initial_V_Matrix : in V_Matrix; -- Normally just use function V_Identity.
Initial_U_Matrix : in U_Matrix; -- Normally just use function U_Identity.
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col, Lo_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
-- R_index contains Col_Index
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row+1);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
type Column is array(Row_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Col
(Col_Id : in Col_Index;
Starting_Row : in Row_Index;
Ending_Row : in Row_Index;
Col_Sums : out Column)
is
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
for i in Starting_Row+1 .. Ending_Row loop
Abs_A := Abs A(i, Col_Id);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Col_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Col_Sums(Starting_Row) := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
Compensated_Sum:
declare
val, Sum_tmp, Err, Sum : Real := Zero;
begin
for r in Starting_Row .. Ending_Row loop
Val := (Scale * A(r, Col_Id)) ** 2;
Val := Val - Err; -- correction to Val, next term in sum.
Sum_tmp := Sum + Val; -- now increment Sum
Err := (Sum_tmp - Sum) - Val;
Sum := Sum_tmp;
Col_Sums(r) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Col;
type Row is array(Col_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id : in Row_Index;
Starting_Col : in Col_Index;
Ending_Col : in Col_Index;
Row_Sums : out Row)
is
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
for c in Starting_Col+1 .. Ending_Col loop
Abs_A := Abs A(Row_Id, c);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Row_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Row_Sums(Starting_Col) := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
Compensated_Sum:
declare
Term, Sum_tmp, Err, Sum : Real := Zero;
begin
for c in Starting_Col .. Ending_Col loop
Term := (Scale * A(Row_Id, c)) ** 2;
Term := Term - Err; -- correction to Term, next term in sum.
Sum_tmp := Sum + Term; -- now increment Sum
Err := (Sum_tmp - Sum) - Term;
Sum := Sum_tmp;
Row_Sums(c) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Row;
Row_Sums : Row := (others => Zero);
Col_Sums : Column := (others => Zero);
begin
V := Initial_V_Matrix;
U := Initial_U_Matrix;
-- Always identity unless you preprocessed A with an L*Q transform etc.
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- take lo elements in col = Pivot_Col, and rotate them to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
-- rotate element from Low_Row to Pivot_Row
Get_Sqrt_of_Sum_of_Sqrs_of_Col -- gd
(Col_id => Pivot_Col,
Starting_Row => Pivot_Row,
Ending_Row => Final_Row,
Col_Sums => Col_Sums);
for Low_Row in Pivot_Row+1 .. Final_Row loop -- order important.
-- 50% slower because of M(r,c) c stuff
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Low_Row);
A(Low_Row, Pivot_Col) := Zero;
A(Pivot_Row, Pivot_Col) :=
Real'Copy_Sign (Col_Sums(Low_Row), A(Pivot_Row, Pivot_Col));
end loop;
-- A(Pivot_Row, Pivot_Col) :=
-- Real'Copy_Sign (Col_Sums(Final_Row), A(Pivot_Row, Pivot_Col));
-- Rotate columns.
-- Take hi elements in row = Pivot_Col, and Zero them out by
-- rotating them to 1st superdiagonal (column Pivot_Col + 1).
if Pivot_Col < Final_Col-1 then -- Lo_Col+1 below is Pivot_Col+2
Pivot_Row := Row_Index (Pivot_Col);
Lo_Col := Pivot_Col + 1; -- low to the eye
Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id => Pivot_Row,
Starting_Col => Lo_Col,
Ending_Col => Final_Col,
Row_Sums => Row_Sums);
for Hi_Col in Lo_Col+1 .. Final_Col loop
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Lo_Col,
Hi_Col => Hi_Col);
A(Pivot_Row, Hi_Col) := Zero;
A(Pivot_Row, Lo_Col) :=
Real'Copy_Sign (Row_Sums(Hi_Col), A(Pivot_Row, Lo_Col));
end loop; -- over Hi_Col
-- A(Pivot_Row, Lo_Col) :=
-- Real'Copy_Sign (Row_Sums(Final_Col), A(Pivot_Row, Lo_Col));
end if;
end loop; -- over Pivot_Col
end Bi_Diagonalize;
-- Must input matrices V and U. A must be bidiagonal - zero everywhere,
-- except the diagonal and the superdiagonal. This isn't checked.
-- Not optimized for speed.
procedure Zero_Shift_Bidiagonal_QR
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : in out V_Matrix; --
U : in out U_Matrix; -- Initialized with Identity
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
begin
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
-- Rotate away the superdiagonal by rotating Pivot_Col and Pivot_Col+1
for Pivot_Col in Starting_Col .. Final_Col-1 loop
-- Rotate columns.
-- Take hi element in (row, col) = (Pivot_Col, Pivot_Col+1) and
-- Zero it out by rotating to diagonal (column Pivot_Col).
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Pivot_Col,
Hi_Col => Pivot_Col + 1);
A(Pivot_Row, Pivot_Col + 1) := Zero;
end loop; -- over Pivot_Col
-- Rotate away the subdiagonal by rotating Pivot_Row and Pivot_Row+1
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- Rotate rows.
-- take lo element in col = Pivot_Col, and rotate it to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Pivot_Row + 1);
A(Pivot_Row + 1, Pivot_Col) := Zero;
end loop;
end Zero_Shift_Bidiagonal_QR;
end Bidiagonal;
| true |
-----------------------------------------------------------------------
-- package body Bidiagonal; bidiagonalizes real valued matrices.
-- Copyright (C) 2015-2018 PI:NAME:<NAME>END_PI
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-----------------------------------------------------------------------
with Ada.Numerics;
with Ada.Numerics.Generic_Elementary_Functions;
with Givens_Rotation;
package body Bidiagonal is
package math is new Ada.Numerics.Generic_Elementary_Functions (Real); use math;
package Rotate is new Givens_Rotation (Real); use Rotate;
Zero : constant Real := +0.0;
One : constant Real := +1.0;
Two : constant Real := +2.0;
----------------
-- U_Identity --
----------------
function U_Identity return U_Matrix is
U : U_Matrix := (others => (others => Zero));
begin
for r in Row_Index loop
U(r, r) := One;
end loop;
return U;
end U_Identity;
----------------
-- V_Identity --
----------------
function V_Identity return V_Matrix is
V : V_Matrix := (others => (others => Zero));
begin
for c in Col_Index loop
V(c, c) := One;
end loop;
return V;
end V_Identity;
--------------------
-- Bi_Diagonalize --
--------------------
-- Operates only on square real blocks.
--
-- Want to use orthogonal transforms to make A into B,
-- a bi-diagonal matrix with the 1st sub-diagonal non-zero.
-- Let Uj be a 2x2 givens rotation matrix,
-- and let Uj' be its transpose (and inverse). Then form
--
-- A = non-zero
--
-- (U1*...*Un) * (Un'*...*U1') * A * (V1*...*Vn) * (Vn'*...*V1') =
--
-- U * B * V,
--
-- where B = U' * A * V'.
-- and A = U * B * V.
--
-- A = U * B * V where B is bi-diagonal, with the 1st lower off-diagonal
-- non-zero, and all upper off-diagonals zero. (So B is lower triangular.)
--
procedure Bi_Diagonalize
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : out V_Matrix; --
U : out U_Matrix; -- Initialized with Identity
Initial_V_Matrix : in V_Matrix; -- Normally just use function V_Identity.
Initial_U_Matrix : in U_Matrix; -- Normally just use function U_Identity.
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col, Lo_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
-- R_index contains Col_Index
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Final_Col loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row+1);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Final_Row loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
type Column is array(Row_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Col
(Col_Id : in Col_Index;
Starting_Row : in Row_Index;
Ending_Row : in Row_Index;
Col_Sums : out Column)
is
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
for i in Starting_Row+1 .. Ending_Row loop
Abs_A := Abs A(i, Col_Id);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Col_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Col_Sums(Starting_Row) := Abs A(Starting_Row, Col_Id);
if Ending_Row > Starting_Row then
Compensated_Sum:
declare
val, Sum_tmp, Err, Sum : Real := Zero;
begin
for r in Starting_Row .. Ending_Row loop
Val := (Scale * A(r, Col_Id)) ** 2;
Val := Val - Err; -- correction to Val, next term in sum.
Sum_tmp := Sum + Val; -- now increment Sum
Err := (Sum_tmp - Sum) - Val;
Sum := Sum_tmp;
Col_Sums(r) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Col;
type Row is array(Col_Index) of Real;
procedure Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id : in Row_Index;
Starting_Col : in Col_Index;
Ending_Col : in Col_Index;
Row_Sums : out Row)
is
Emin : constant Integer := Real'Machine_Emin;
Emax : constant Integer := Real'Machine_Emax;
Max : Real := Zero;
Un_Scale, Scale : Real := Zero;
Abs_A : Real := Zero;
M_exp : Integer := 0;
begin
Max := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
for c in Starting_Col+1 .. Ending_Col loop
Abs_A := Abs A(Row_Id, c);
if Abs_A > Max then Max := Abs_A; end if;
end loop;
end if;
if Max < Two**Emin then Row_Sums := (others => Zero); return; end if;
if Max < Two**(Emin / 2) or else Max > Two**(Emax / 4) then
M_Exp := Real'Exponent (Max);
Scale := Two ** (-M_Exp);
Un_Scale := Two ** ( M_Exp);
else
Scale := One;
Un_Scale := One;
end if;
Row_Sums(Starting_Col) := Abs A(Row_Id, Starting_Col);
if Ending_Col > Starting_Col then
Compensated_Sum:
declare
Term, Sum_tmp, Err, Sum : Real := Zero;
begin
for c in Starting_Col .. Ending_Col loop
Term := (Scale * A(Row_Id, c)) ** 2;
Term := Term - Err; -- correction to Term, next term in sum.
Sum_tmp := Sum + Term; -- now increment Sum
Err := (Sum_tmp - Sum) - Term;
Sum := Sum_tmp;
Row_Sums(c) := Un_Scale * Sqrt (Sum);
end loop;
end Compensated_Sum;
end if;
end Get_Sqrt_of_Sum_of_Sqrs_of_Row;
Row_Sums : Row := (others => Zero);
Col_Sums : Column := (others => Zero);
begin
V := Initial_V_Matrix;
U := Initial_U_Matrix;
-- Always identity unless you preprocessed A with an L*Q transform etc.
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- take lo elements in col = Pivot_Col, and rotate them to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
-- rotate element from Low_Row to Pivot_Row
Get_Sqrt_of_Sum_of_Sqrs_of_Col -- gd
(Col_id => Pivot_Col,
Starting_Row => Pivot_Row,
Ending_Row => Final_Row,
Col_Sums => Col_Sums);
for Low_Row in Pivot_Row+1 .. Final_Row loop -- order important.
-- 50% slower because of M(r,c) c stuff
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Low_Row);
A(Low_Row, Pivot_Col) := Zero;
A(Pivot_Row, Pivot_Col) :=
Real'Copy_Sign (Col_Sums(Low_Row), A(Pivot_Row, Pivot_Col));
end loop;
-- A(Pivot_Row, Pivot_Col) :=
-- Real'Copy_Sign (Col_Sums(Final_Row), A(Pivot_Row, Pivot_Col));
-- Rotate columns.
-- Take hi elements in row = Pivot_Col, and Zero them out by
-- rotating them to 1st superdiagonal (column Pivot_Col + 1).
if Pivot_Col < Final_Col-1 then -- Lo_Col+1 below is Pivot_Col+2
Pivot_Row := Row_Index (Pivot_Col);
Lo_Col := Pivot_Col + 1; -- low to the eye
Get_Sqrt_of_Sum_of_Sqrs_of_Row
(Row_Id => Pivot_Row,
Starting_Col => Lo_Col,
Ending_Col => Final_Col,
Row_Sums => Row_Sums);
for Hi_Col in Lo_Col+1 .. Final_Col loop
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Lo_Col,
Hi_Col => Hi_Col);
A(Pivot_Row, Hi_Col) := Zero;
A(Pivot_Row, Lo_Col) :=
Real'Copy_Sign (Row_Sums(Hi_Col), A(Pivot_Row, Lo_Col));
end loop; -- over Hi_Col
-- A(Pivot_Row, Lo_Col) :=
-- Real'Copy_Sign (Row_Sums(Final_Col), A(Pivot_Row, Lo_Col));
end if;
end loop; -- over Pivot_Col
end Bi_Diagonalize;
-- Must input matrices V and U. A must be bidiagonal - zero everywhere,
-- except the diagonal and the superdiagonal. This isn't checked.
-- Not optimized for speed.
procedure Zero_Shift_Bidiagonal_QR
(A : in out A_Matrix; -- A becomes the B in A = U * B * V'
V : in out V_Matrix; --
U : in out U_Matrix; -- Initialized with Identity
Starting_Col : in Col_Index := Col_Index'First;
Final_Col : in Col_Index := Col_Index'Last;
Final_Row : in Row_Index := Row_Index'Last;
Matrix_U_Desired : in Boolean := True;
Matrix_V_Desired : in Boolean := True)
is
Starting_Row : constant Row_Index := Row_Index (Starting_Col);
type Integer64 is range -2**63+1 .. 2**63-1;
No_of_Rows : constant Integer64 := Integer64(Final_Row)-Integer64(Starting_Row)+1;
No_of_Cols : constant Integer64 := Integer64(Final_Col)-Integer64(Starting_Col)+1;
pragma Assert (No_of_Rows >= No_of_Cols);
Pivot_Row : Row_Index;
Final_Pivot_Col : Col_Index;
---------------------------------------
-- Rotate_to_Kill_Element_Lo_of_pCol --
---------------------------------------
-- Zero out A(Lo_Row, pCol)
procedure Rotate_to_Kill_Element_Lo_of_pCol
(pCol : in Col_Index;
Hi_Row : in Row_Index;
Lo_Row : in Row_Index)
is
Pivot_Col : Col_Index renames pCol;
Pivot_Row : Row_Index renames Hi_Row;
Low_Row : Row_Index renames Lo_Row;
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_L : Boolean;
Skip_Rotation : Boolean;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
L : constant Real := A(Low_Row, Pivot_Col);
A_pvt, A_low, U_pvt, U_low : Real;
begin
Get_Rotation_That_Zeros_Out_Low
(P, L, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_L, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate rows.
--
-- Want U B V' = A (B = bi-diagonal.)
--
-- So generally, I A I = A becomes,
-- (I * G' * G) * A * (F * F' * I) = A
-- U * B * V' = A
--
-- So the desired U will be the product of the G' matrices
-- which we obtain by repeatedly multiplying I on the RHS by G'.
--
-- Start by multiplying A on LHS by givens rotation G.
if P_bigger_than_L then -- |s| < |c|
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_pvt + ( cs_minus_1*A_pvt + sn*A_low);
A(Low_Row, c) := A_low + (-sn*A_pvt + cs_minus_1*A_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for c in Pivot_Col .. Pivot_Col+1 loop
A_pvt := A(Pivot_Row, c);
A_low := A(Low_Row, c);
A(Pivot_Row, c) := A_low + ( cs*A_pvt + sn_minus_1*A_low);
A(Low_Row, c) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_low);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding columns of U. (Multiply on RHS by G', the
-- transpose of above givens matrix to accumulate full U.)
--
-- U is (Row_Index x Row_Index).
if Matrix_U_Desired then
if P_bigger_than_L then -- |s| < |c|
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_pvt + ( cs_minus_1*U_pvt + sn*U_low);
U(r, Low_Row) := U_low + (-sn*U_pvt + cs_minus_1*U_low);
end loop;
else -- Abs_P <= Abs_L, so abs t := abs (P / L) <= 1
for r in Starting_Row .. Final_Row loop
U_pvt := U(r, Pivot_Row);
U_low := U(r, Low_Row);
U(r, Pivot_Row) := U_low + ( cs*U_pvt + sn_minus_1*U_low);
U(r, Low_Row) :=-U_pvt + (-sn_minus_1*U_pvt + cs*U_low);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Lo_of_pCol;
---------------------------------------
-- Rotate_to_Kill_Element_Hi_of_pRow --
---------------------------------------
-- Zero out A(pRow, Hi_Col)
procedure Rotate_to_Kill_Element_Hi_of_pRow
(pRow : in Row_Index;
Lo_Col : in Col_Index;
Hi_Col : in Col_Index)
is
sn, cs, cs_minus_1, sn_minus_1 : Real;
hypot : Real;
P_bigger_than_H : Boolean;
Skip_Rotation : Boolean;
Pivot_Row : Row_Index renames pRow;
Pivot_Col : Col_Index renames Lo_Col;
A_pvt, A_hi , V_pvt, V_hi : Real;
P : constant Real := A(Pivot_Row, Pivot_Col); -- P is for Pivot
H : constant Real := A(Pivot_Row, Hi_Col);
pragma Assert(Row_Index (Pivot_Col) = Pivot_Row);
begin
Get_Rotation_That_Zeros_Out_Low
(P, H, sn, cs, cs_minus_1, sn_minus_1, hypot, P_bigger_than_H, Skip_Rotation);
if Skip_Rotation then return; end if;
-- Rotate columns. Multiply on RHS by the above Givens matrix. (Hi_Col
-- is to the rt. visually, and its index is higher than Pivot's.)
if P_bigger_than_H then -- |s| < |c|
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_pvt + ( cs_minus_1*A_pvt + sn*A_hi);
A(r, Hi_Col) := A_hi + (-sn*A_pvt + cs_minus_1*A_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Pivot_Row .. Pivot_Row+1 loop
A_pvt := A(r, Pivot_Col);
A_hi := A(r, Hi_Col);
A(r, Pivot_Col) := A_hi + ( cs*A_pvt + sn_minus_1*A_hi);
A(r, Hi_Col) :=-A_pvt + (-sn_minus_1*A_pvt + cs*A_hi);
end loop;
end if;
A(Pivot_Row, Pivot_Col) := Real'Copy_Sign(hypot, A(Pivot_Row, Pivot_Col));
-- Rotate corresponding rows of V', hence the columns of V.
-- (Multiply on LHS of V' by transpose of above givens matrix to
-- accumulate full V.)
--
-- V is (Col_Index x Col_Index).
--
-- We are calculating U * B * V' by inserting pairs of givens
-- rotation matrices between the B and the V'. When we rotate rows
-- of V', we are rotating the 2 columns (Pivot_Col, Hi_Col) of V:
if Matrix_V_Desired then
if P_bigger_than_H then -- |s| < |c|
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_pvt + ( cs_minus_1*V_pvt + sn*V_hi);
V(r, Hi_Col) := V_hi + (-sn*V_pvt + cs_minus_1*V_hi);
end loop;
else -- Abs_P <= Abs_H, so abs t := abs (P / H) <= 1
for r in Starting_Col .. Final_Col loop
V_pvt := V(r, Pivot_Col);
V_hi := V(r, Hi_Col);
V(r, Pivot_Col) := V_hi + ( cs*V_pvt + sn_minus_1*V_hi);
V(r, Hi_Col) :=-V_pvt + (-sn_minus_1*V_pvt + cs*V_hi);
end loop;
end if;
end if;
end Rotate_to_Kill_Element_Hi_of_pRow;
begin
if No_of_Cols < 2 then return; end if; -- can do a 2x2
if Row_Index (Final_Col) < Final_Row then
Final_Pivot_Col := Final_Col;
else
Final_Pivot_Col := Final_Col - 1; -- A is square
end if;
-- Rotate away the superdiagonal by rotating Pivot_Col and Pivot_Col+1
for Pivot_Col in Starting_Col .. Final_Col-1 loop
-- Rotate columns.
-- Take hi element in (row, col) = (Pivot_Col, Pivot_Col+1) and
-- Zero it out by rotating to diagonal (column Pivot_Col).
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Hi_of_pRow -- zero out A(pRow, Hi_Col)
(pRow => Pivot_Row,
Lo_Col => Pivot_Col,
Hi_Col => Pivot_Col + 1);
A(Pivot_Row, Pivot_Col + 1) := Zero;
end loop; -- over Pivot_Col
-- Rotate away the subdiagonal by rotating Pivot_Row and Pivot_Row+1
for Pivot_Col in Starting_Col .. Final_Pivot_Col loop
-- Rotate rows.
-- take lo element in col = Pivot_Col, and rotate it to diagonal.
Pivot_Row := Row_Index (Pivot_Col);
Rotate_to_Kill_Element_Lo_of_pCol -- zero out A(Lo_Row, pCol)
(pCol => Pivot_Col,
Hi_Row => Pivot_Row, -- Hi = high to eye; its id is lower than Lo_Row.
Lo_Row => Pivot_Row + 1);
A(Pivot_Row + 1, Pivot_Col) := Zero;
end loop;
end Zero_Shift_Bidiagonal_QR;
end Bidiagonal;
|
[
{
"context": "-- MIT License\n\n-- Copyright (c) 2021 Stephen Merrony\n\n-- Permission is hereby granted, free of charge,",
"end": 53,
"score": 0.9998742341995239,
"start": 38,
"tag": "NAME",
"value": "Stephen Merrony"
}
] | virtual_memory/memory.ads | SMerrony/dgemua | 2 | -- MIT License
-- Copyright (c) 2021 Stephen Merrony
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Ada.Containers; use Ada.Containers;
with Ada.Containers.Hashed_Maps;
with Interfaces; use Interfaces;
with DG_Types; use DG_Types;
package Memory is
Words_Per_Page : constant Natural := 1024;
Ring_7_Page_0 : constant Natural := 16#001c_0000#;
-- Physical stuff that has to exist...
Mem_Size_Words : constant Integer := 8_388_608;
-- MemSizeLCPID is the code returned by the LCPID to indicate the size of RAM in half megabytes
Mem_Size_LCPID : constant Dword_T := 63;
-- MemSizeNCLID is the code returned by NCLID to indicate size of RAM in 32Kb increments
Mem_Size_NCLID : constant Word_T := Word_T(((Mem_Size_Words * 2) / (32 * 1024)) - 1);
type Memory_Region is array (Natural range <>) of Word_T;
type Page_T is array (0 .. Words_Per_Page - 1) of Word_T;
type Page_Arr_T is array (Natural range <>) of Page_T;
-- Page 0 special locations for stacks
WSFH_Loc : constant Phys_Addr_T := 8#14#;
WFP_Loc : constant Phys_Addr_T := 8#20#;
WSP_Loc : constant Phys_Addr_T := 8#22#;
WSL_Loc : constant Phys_Addr_T := 8#24#;
WSB_Loc : constant Phys_Addr_T := 8#26#;
NSP_Loc : constant Phys_Addr_T := 8#40#;
NFP_Loc : constant Phys_Addr_T := 8#41#;
NSL_Loc : constant Phys_Addr_T := 8#42#;
NSF_Loc : constant Phys_Addr_T := 8#43#;
-- Wide Stack Fault codes
WSF_Overflow : constant Dword_T := 0;
WSF_Pending : constant Dword_T := 1;
WSF_Too_Many_Args : constant Dword_T := 2;
WSF_Underflow : constant Dword_T := 3;
WSF_Return_Overflow : constant Dword_T := 4;
function NaturalHash (K : Natural) return Hash_Type is (Hash_Type (K));
package VRAM_Map is new Ada.Containers.Hashed_Maps (
Key_Type => Natural,
Hash => NaturalHash,
Equivalent_Keys => "=",
Element_Type => Page_T );
protected RAM is
procedure Init (Debug_Logging : in Boolean);
procedure Map_Page (Page : in Natural; Is_Shared : in Boolean);
function Page_Mapped (Page : in Natural) return Boolean;
function Get_Last_Unshared_Page return Dword_T;
function Get_First_Shared_Page return Dword_T;
function Get_Num_Shared_Pages return Dword_T;
function Get_Num_Unshared_Pages return Dword_T;
procedure Map_Range (Start_Addr : in Phys_Addr_T;
Region : in Memory_Region;
Is_Shared : in Boolean);
procedure Map_Shared_Pages (Start_Addr : in Phys_Addr_T; Pages : in Page_Arr_T);
-- function Address_Mapped (Addr : in Phys_Addr_T) return Boolean;
function Read_Word (Word_Addr : in Phys_Addr_T) return Word_T with Inline;
function Read_Dword (Word_Addr : in Phys_Addr_T) return Dword_T;
function Read_Qword (Word_Addr : in Phys_Addr_T) return Qword_T;
procedure Write_Word (Word_Addr : in Phys_Addr_T; Datum : Word_T);
procedure Write_Dword (Word_Addr : in Phys_Addr_T; Datum : Dword_T);
procedure Write_Qword (Word_Addr : in Phys_Addr_T; Datum : Qword_T);
function Read_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean) return Byte_T;
function Read_Byte_BA (BA : in Dword_T) return Byte_T;
procedure Write_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean; Byt : in Byte_T);
procedure Write_Byte_BA (BA : in Dword_T; Datum : in Byte_T);
procedure Copy_Byte_BA (Src, Dest : in Dword_T);
function Read_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T) return Byte_T;
procedure Write_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T; Datum : in Byte_T);
function Read_Bytes_BA (BA : in Dword_T; Num : in Natural) return Byte_Arr_T;
-- specific support for VS/Emua...
function Read_String_BA (BA : in Dword_T; Keep_NUL : in Boolean) return String;
procedure Write_String_BA (BA : in Dword_T; Str : in String);
private
VRAM : VRAM_Map.Map;
Logging : Boolean;
First_Shared_Page,
Last_Unshared_Page,
Num_Unshared_Pages,
Num_Shared_Pages : Natural;
end RAM;
protected Narrow_Stack is
procedure Push (Segment : in Phys_Addr_T; Datum : in Word_T);
function Pop (Segment : in Phys_Addr_T) return Word_T;
end Narrow_Stack;
Page_Already_Mapped,
Read_From_Unmapped_Page,
Write_To_Unmapped_Page : exception;
end Memory; | 41 | -- MIT License
-- Copyright (c) 2021 <NAME>
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Ada.Containers; use Ada.Containers;
with Ada.Containers.Hashed_Maps;
with Interfaces; use Interfaces;
with DG_Types; use DG_Types;
package Memory is
Words_Per_Page : constant Natural := 1024;
Ring_7_Page_0 : constant Natural := 16#001c_0000#;
-- Physical stuff that has to exist...
Mem_Size_Words : constant Integer := 8_388_608;
-- MemSizeLCPID is the code returned by the LCPID to indicate the size of RAM in half megabytes
Mem_Size_LCPID : constant Dword_T := 63;
-- MemSizeNCLID is the code returned by NCLID to indicate size of RAM in 32Kb increments
Mem_Size_NCLID : constant Word_T := Word_T(((Mem_Size_Words * 2) / (32 * 1024)) - 1);
type Memory_Region is array (Natural range <>) of Word_T;
type Page_T is array (0 .. Words_Per_Page - 1) of Word_T;
type Page_Arr_T is array (Natural range <>) of Page_T;
-- Page 0 special locations for stacks
WSFH_Loc : constant Phys_Addr_T := 8#14#;
WFP_Loc : constant Phys_Addr_T := 8#20#;
WSP_Loc : constant Phys_Addr_T := 8#22#;
WSL_Loc : constant Phys_Addr_T := 8#24#;
WSB_Loc : constant Phys_Addr_T := 8#26#;
NSP_Loc : constant Phys_Addr_T := 8#40#;
NFP_Loc : constant Phys_Addr_T := 8#41#;
NSL_Loc : constant Phys_Addr_T := 8#42#;
NSF_Loc : constant Phys_Addr_T := 8#43#;
-- Wide Stack Fault codes
WSF_Overflow : constant Dword_T := 0;
WSF_Pending : constant Dword_T := 1;
WSF_Too_Many_Args : constant Dword_T := 2;
WSF_Underflow : constant Dword_T := 3;
WSF_Return_Overflow : constant Dword_T := 4;
function NaturalHash (K : Natural) return Hash_Type is (Hash_Type (K));
package VRAM_Map is new Ada.Containers.Hashed_Maps (
Key_Type => Natural,
Hash => NaturalHash,
Equivalent_Keys => "=",
Element_Type => Page_T );
protected RAM is
procedure Init (Debug_Logging : in Boolean);
procedure Map_Page (Page : in Natural; Is_Shared : in Boolean);
function Page_Mapped (Page : in Natural) return Boolean;
function Get_Last_Unshared_Page return Dword_T;
function Get_First_Shared_Page return Dword_T;
function Get_Num_Shared_Pages return Dword_T;
function Get_Num_Unshared_Pages return Dword_T;
procedure Map_Range (Start_Addr : in Phys_Addr_T;
Region : in Memory_Region;
Is_Shared : in Boolean);
procedure Map_Shared_Pages (Start_Addr : in Phys_Addr_T; Pages : in Page_Arr_T);
-- function Address_Mapped (Addr : in Phys_Addr_T) return Boolean;
function Read_Word (Word_Addr : in Phys_Addr_T) return Word_T with Inline;
function Read_Dword (Word_Addr : in Phys_Addr_T) return Dword_T;
function Read_Qword (Word_Addr : in Phys_Addr_T) return Qword_T;
procedure Write_Word (Word_Addr : in Phys_Addr_T; Datum : Word_T);
procedure Write_Dword (Word_Addr : in Phys_Addr_T; Datum : Dword_T);
procedure Write_Qword (Word_Addr : in Phys_Addr_T; Datum : Qword_T);
function Read_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean) return Byte_T;
function Read_Byte_BA (BA : in Dword_T) return Byte_T;
procedure Write_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean; Byt : in Byte_T);
procedure Write_Byte_BA (BA : in Dword_T; Datum : in Byte_T);
procedure Copy_Byte_BA (Src, Dest : in Dword_T);
function Read_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T) return Byte_T;
procedure Write_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T; Datum : in Byte_T);
function Read_Bytes_BA (BA : in Dword_T; Num : in Natural) return Byte_Arr_T;
-- specific support for VS/Emua...
function Read_String_BA (BA : in Dword_T; Keep_NUL : in Boolean) return String;
procedure Write_String_BA (BA : in Dword_T; Str : in String);
private
VRAM : VRAM_Map.Map;
Logging : Boolean;
First_Shared_Page,
Last_Unshared_Page,
Num_Unshared_Pages,
Num_Shared_Pages : Natural;
end RAM;
protected Narrow_Stack is
procedure Push (Segment : in Phys_Addr_T; Datum : in Word_T);
function Pop (Segment : in Phys_Addr_T) return Word_T;
end Narrow_Stack;
Page_Already_Mapped,
Read_From_Unmapped_Page,
Write_To_Unmapped_Page : exception;
end Memory; | true | -- MIT License
-- Copyright (c) 2021 PI:NAME:<NAME>END_PI
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
with Ada.Containers; use Ada.Containers;
with Ada.Containers.Hashed_Maps;
with Interfaces; use Interfaces;
with DG_Types; use DG_Types;
package Memory is
Words_Per_Page : constant Natural := 1024;
Ring_7_Page_0 : constant Natural := 16#001c_0000#;
-- Physical stuff that has to exist...
Mem_Size_Words : constant Integer := 8_388_608;
-- MemSizeLCPID is the code returned by the LCPID to indicate the size of RAM in half megabytes
Mem_Size_LCPID : constant Dword_T := 63;
-- MemSizeNCLID is the code returned by NCLID to indicate size of RAM in 32Kb increments
Mem_Size_NCLID : constant Word_T := Word_T(((Mem_Size_Words * 2) / (32 * 1024)) - 1);
type Memory_Region is array (Natural range <>) of Word_T;
type Page_T is array (0 .. Words_Per_Page - 1) of Word_T;
type Page_Arr_T is array (Natural range <>) of Page_T;
-- Page 0 special locations for stacks
WSFH_Loc : constant Phys_Addr_T := 8#14#;
WFP_Loc : constant Phys_Addr_T := 8#20#;
WSP_Loc : constant Phys_Addr_T := 8#22#;
WSL_Loc : constant Phys_Addr_T := 8#24#;
WSB_Loc : constant Phys_Addr_T := 8#26#;
NSP_Loc : constant Phys_Addr_T := 8#40#;
NFP_Loc : constant Phys_Addr_T := 8#41#;
NSL_Loc : constant Phys_Addr_T := 8#42#;
NSF_Loc : constant Phys_Addr_T := 8#43#;
-- Wide Stack Fault codes
WSF_Overflow : constant Dword_T := 0;
WSF_Pending : constant Dword_T := 1;
WSF_Too_Many_Args : constant Dword_T := 2;
WSF_Underflow : constant Dword_T := 3;
WSF_Return_Overflow : constant Dword_T := 4;
function NaturalHash (K : Natural) return Hash_Type is (Hash_Type (K));
package VRAM_Map is new Ada.Containers.Hashed_Maps (
Key_Type => Natural,
Hash => NaturalHash,
Equivalent_Keys => "=",
Element_Type => Page_T );
protected RAM is
procedure Init (Debug_Logging : in Boolean);
procedure Map_Page (Page : in Natural; Is_Shared : in Boolean);
function Page_Mapped (Page : in Natural) return Boolean;
function Get_Last_Unshared_Page return Dword_T;
function Get_First_Shared_Page return Dword_T;
function Get_Num_Shared_Pages return Dword_T;
function Get_Num_Unshared_Pages return Dword_T;
procedure Map_Range (Start_Addr : in Phys_Addr_T;
Region : in Memory_Region;
Is_Shared : in Boolean);
procedure Map_Shared_Pages (Start_Addr : in Phys_Addr_T; Pages : in Page_Arr_T);
-- function Address_Mapped (Addr : in Phys_Addr_T) return Boolean;
function Read_Word (Word_Addr : in Phys_Addr_T) return Word_T with Inline;
function Read_Dword (Word_Addr : in Phys_Addr_T) return Dword_T;
function Read_Qword (Word_Addr : in Phys_Addr_T) return Qword_T;
procedure Write_Word (Word_Addr : in Phys_Addr_T; Datum : Word_T);
procedure Write_Dword (Word_Addr : in Phys_Addr_T; Datum : Dword_T);
procedure Write_Qword (Word_Addr : in Phys_Addr_T; Datum : Qword_T);
function Read_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean) return Byte_T;
function Read_Byte_BA (BA : in Dword_T) return Byte_T;
procedure Write_Byte (Word_Addr : in Phys_Addr_T; Low_Byte : in Boolean; Byt : in Byte_T);
procedure Write_Byte_BA (BA : in Dword_T; Datum : in Byte_T);
procedure Copy_Byte_BA (Src, Dest : in Dword_T);
function Read_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T) return Byte_T;
procedure Write_Byte_Eclipse_BA (Segment : in Phys_Addr_T; BA_16 : in Word_T; Datum : in Byte_T);
function Read_Bytes_BA (BA : in Dword_T; Num : in Natural) return Byte_Arr_T;
-- specific support for VS/Emua...
function Read_String_BA (BA : in Dword_T; Keep_NUL : in Boolean) return String;
procedure Write_String_BA (BA : in Dword_T; Str : in String);
private
VRAM : VRAM_Map.Map;
Logging : Boolean;
First_Shared_Page,
Last_Unshared_Page,
Num_Unshared_Pages,
Num_Shared_Pages : Natural;
end RAM;
protected Narrow_Stack is
procedure Push (Segment : in Phys_Addr_T; Datum : in Word_T);
function Pop (Segment : in Phys_Addr_T) return Word_T;
end Narrow_Stack;
Page_Already_Mapped,
Read_From_Unmapped_Page,
Write_To_Unmapped_Page : exception;
end Memory; |
[
{
"context": " --\n-- * Richard Wai (ANNEXI-STRAYLINE) ",
"end": 1044,
"score": 0.999678373336792,
"start": 1033,
"tag": "NAME",
"value": "Richard Wai"
}
] | scheduling.ads | annexi-strayline/AURA | 13 | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Command Line Interface --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2020-2021, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * Richard Wai (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- This package is driven by the aura cli main program (aura.adb) specifically,
-- and is designed to be executed sequentially, in an apprpriate order
-- (determined by the main program). As such, it maintains a state via the
-- public "Command" object (below), as well as an internal Parameters object
-- (of type Parameters_Set)
with Build;
with Registrar.Library_Units;
package Scheduling is
Process_Failed: exception;
-- Raised during "normal", but ugly failures that are reported via work
-- reports, or involve explicit checks.
--
-- Generally speaking, if this exception occurs, it is not safe to save the
-- Registry or Configuration.
Build_Failed: exception;
-- Raised specifically when any unit fails to compile, bind, or link. Unlike
-- Process_Failed, this error implies that the Registry and Configuration
-- can (and should) be safely saved so that subsequent invokcations do not
-- need to recompile everything.
----------------
-- Parameters --
----------------
type Selected_Command is
(Build_Command,
Checkout_Command,
Clean_Command,
Compile_Command,
Help_Command,
Library_Command,
Run_Command,
Systemize_Command);
Command: Selected_Command := Checkout_Command;
-- Set by Initialize_Parameters;
procedure Initialize_Parameters;
-- Loads the previous set of parameters (if any), and then applies and
-- validates the parameters passed in.
--
-- Additionally checks the correctness of the specified
-- options/configuration for relevent commands.
--
-- If the parameters are not valid, a message explaining why is output,
-- and Process_Failed is raised, otherwise Command is set to the selected
-- command
--
-- Initialize_Parameters sets a variety of global variables in the
-- Scheduling and UI_Primitives packages, and must be invoked before
-- executing any other subprograms in this package
---------------
-- Processes --
---------------
procedure Clean;
-- Removes all state from the project.
-- 1. Removes the .aura subdirectory, containing all saved state (config and
-- last-run
-- 2. Removes the aura-build subdirectory
procedure Enter_Root;
-- Enters all units in the root directory
procedure Initialize_Repositories;
procedure Add_Explicit_Checkouts;
-- Enters "Requested" subsystems into the Registrar if they are not already
-- registered
--
-- This should be called after Enter_Root to ensure that root subsystems are
-- not checked-out by this process.
--
-- If there are no explicit checkouts to add, no action is taken.
procedure Checkout_Cycle;
-- Goes through successful cycles of Checkout -> Hash -> Configure -> Cache
-- until no Subsystems are in a state of "Requested".
--
-- If three cycles pass where the number of requested subsystems does not
-- change, a list of all requested subsystems is output and Process_Failed
-- is raised.
--
-- After a successful Checkout_Cycle process (all Requested subsystems
-- aquired and configured), the Root Configuration is processed (if any) and
-- then all Configuration Manifests are excluded from the Registrar.
procedure Consolidate_Dependencies;
-- Consolidates and builds all dependency maps
procedure Check_Completion;
-- Check for any subsystems that are Unavailable (checkout failed for
-- "common" reasons), and report diagnostic information to the user
-- before aborting.
--
-- If all Subsystems are Available, Check for any units with a state of
-- Requested (there should be none), and report any found to the user before
-- aborting
--
-- If -v is not given as a parameter, specific dependency relationships are
-- not output, and a simiplified description of incomplete or unavailable
-- subsystems is output.
--
-- If there are checkout failures and Verbose will be False,
-- Consolidate_Dependencies does not need to be invoked first, otherwise
-- it must be invoked first.
procedure Hash_Registry;
-- Hash all units in the registry, including compilation products
procedure Compile;
-- Executes:
-- 1. Build.Compute_Recomplations
-- 2. Build.Compilation.Compile
--
-- If Quiet is True, compiler output is not copied to the output
procedure Bind;
-- Creates a binder file, waits for the registration, and then executes a
-- compilation run to compile the binder unit
procedure Expand_Dependencies;
-- If a main unit is specified, all dependencies are added to the link set,
-- otherwise the link-set already contains all units. This must be invoked
-- before Scan_Linker_Options or Link_Or_Archive
procedure Scan_Linker_Options;
-- Invokes and tracks the Scan_Linker_Options phase when linking an image
-- or library
procedure Link_Or_Archive with
Pre => Command in Build_Command | Run_Command | Library_Command;
-- Depending on the command (build/run/library), and the output image name
-- (for library command only), either links an executable, a dynamic library,
-- or creates a regular object archive (".a" extension)
procedure Execute_Image;
-- Executes the compiled and linked image, passing no parameters, but
-- preserving the environment values.
--
-- On systems (such as Unix) that support replacing the image of the running
-- process, Execute_Image will not return. However, on systems that only
-- support explict process creation (such as Windows), a new process is
-- created, and Execute_Image returns normally.
procedure Save_Registry;
-- Saves Last_Run
procedure Save_Config;
-- Saves the build configuration (parameters)
end Scheduling;
| 28456 | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Command Line Interface --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2020-2021, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * <NAME> (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- This package is driven by the aura cli main program (aura.adb) specifically,
-- and is designed to be executed sequentially, in an apprpriate order
-- (determined by the main program). As such, it maintains a state via the
-- public "Command" object (below), as well as an internal Parameters object
-- (of type Parameters_Set)
with Build;
with Registrar.Library_Units;
package Scheduling is
Process_Failed: exception;
-- Raised during "normal", but ugly failures that are reported via work
-- reports, or involve explicit checks.
--
-- Generally speaking, if this exception occurs, it is not safe to save the
-- Registry or Configuration.
Build_Failed: exception;
-- Raised specifically when any unit fails to compile, bind, or link. Unlike
-- Process_Failed, this error implies that the Registry and Configuration
-- can (and should) be safely saved so that subsequent invokcations do not
-- need to recompile everything.
----------------
-- Parameters --
----------------
type Selected_Command is
(Build_Command,
Checkout_Command,
Clean_Command,
Compile_Command,
Help_Command,
Library_Command,
Run_Command,
Systemize_Command);
Command: Selected_Command := Checkout_Command;
-- Set by Initialize_Parameters;
procedure Initialize_Parameters;
-- Loads the previous set of parameters (if any), and then applies and
-- validates the parameters passed in.
--
-- Additionally checks the correctness of the specified
-- options/configuration for relevent commands.
--
-- If the parameters are not valid, a message explaining why is output,
-- and Process_Failed is raised, otherwise Command is set to the selected
-- command
--
-- Initialize_Parameters sets a variety of global variables in the
-- Scheduling and UI_Primitives packages, and must be invoked before
-- executing any other subprograms in this package
---------------
-- Processes --
---------------
procedure Clean;
-- Removes all state from the project.
-- 1. Removes the .aura subdirectory, containing all saved state (config and
-- last-run
-- 2. Removes the aura-build subdirectory
procedure Enter_Root;
-- Enters all units in the root directory
procedure Initialize_Repositories;
procedure Add_Explicit_Checkouts;
-- Enters "Requested" subsystems into the Registrar if they are not already
-- registered
--
-- This should be called after Enter_Root to ensure that root subsystems are
-- not checked-out by this process.
--
-- If there are no explicit checkouts to add, no action is taken.
procedure Checkout_Cycle;
-- Goes through successful cycles of Checkout -> Hash -> Configure -> Cache
-- until no Subsystems are in a state of "Requested".
--
-- If three cycles pass where the number of requested subsystems does not
-- change, a list of all requested subsystems is output and Process_Failed
-- is raised.
--
-- After a successful Checkout_Cycle process (all Requested subsystems
-- aquired and configured), the Root Configuration is processed (if any) and
-- then all Configuration Manifests are excluded from the Registrar.
procedure Consolidate_Dependencies;
-- Consolidates and builds all dependency maps
procedure Check_Completion;
-- Check for any subsystems that are Unavailable (checkout failed for
-- "common" reasons), and report diagnostic information to the user
-- before aborting.
--
-- If all Subsystems are Available, Check for any units with a state of
-- Requested (there should be none), and report any found to the user before
-- aborting
--
-- If -v is not given as a parameter, specific dependency relationships are
-- not output, and a simiplified description of incomplete or unavailable
-- subsystems is output.
--
-- If there are checkout failures and Verbose will be False,
-- Consolidate_Dependencies does not need to be invoked first, otherwise
-- it must be invoked first.
procedure Hash_Registry;
-- Hash all units in the registry, including compilation products
procedure Compile;
-- Executes:
-- 1. Build.Compute_Recomplations
-- 2. Build.Compilation.Compile
--
-- If Quiet is True, compiler output is not copied to the output
procedure Bind;
-- Creates a binder file, waits for the registration, and then executes a
-- compilation run to compile the binder unit
procedure Expand_Dependencies;
-- If a main unit is specified, all dependencies are added to the link set,
-- otherwise the link-set already contains all units. This must be invoked
-- before Scan_Linker_Options or Link_Or_Archive
procedure Scan_Linker_Options;
-- Invokes and tracks the Scan_Linker_Options phase when linking an image
-- or library
procedure Link_Or_Archive with
Pre => Command in Build_Command | Run_Command | Library_Command;
-- Depending on the command (build/run/library), and the output image name
-- (for library command only), either links an executable, a dynamic library,
-- or creates a regular object archive (".a" extension)
procedure Execute_Image;
-- Executes the compiled and linked image, passing no parameters, but
-- preserving the environment values.
--
-- On systems (such as Unix) that support replacing the image of the running
-- process, Execute_Image will not return. However, on systems that only
-- support explict process creation (such as Windows), a new process is
-- created, and Execute_Image returns normally.
procedure Save_Registry;
-- Saves Last_Run
procedure Save_Config;
-- Saves the build configuration (parameters)
end Scheduling;
| true | ------------------------------------------------------------------------------
-- --
-- Ada User Repository Annex (AURA) --
-- ANNEXI-STRAYLINE Reference Implementation --
-- --
-- Command Line Interface --
-- --
-- ------------------------------------------------------------------------ --
-- --
-- Copyright (C) 2020-2021, ANNEXI-STRAYLINE Trans-Human Ltd. --
-- All rights reserved. --
-- --
-- Original Contributors: --
-- * PI:NAME:<NAME>END_PI (ANNEXI-STRAYLINE) --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions are --
-- met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in --
-- the documentation and/or other materials provided with the --
-- distribution. --
-- --
-- * Neither the name of the copyright holder nor the names of its --
-- contributors may be used to endorse or promote products derived --
-- from this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT --
-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, --
-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY --
-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT --
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --
-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- This package is driven by the aura cli main program (aura.adb) specifically,
-- and is designed to be executed sequentially, in an apprpriate order
-- (determined by the main program). As such, it maintains a state via the
-- public "Command" object (below), as well as an internal Parameters object
-- (of type Parameters_Set)
with Build;
with Registrar.Library_Units;
package Scheduling is
Process_Failed: exception;
-- Raised during "normal", but ugly failures that are reported via work
-- reports, or involve explicit checks.
--
-- Generally speaking, if this exception occurs, it is not safe to save the
-- Registry or Configuration.
Build_Failed: exception;
-- Raised specifically when any unit fails to compile, bind, or link. Unlike
-- Process_Failed, this error implies that the Registry and Configuration
-- can (and should) be safely saved so that subsequent invokcations do not
-- need to recompile everything.
----------------
-- Parameters --
----------------
type Selected_Command is
(Build_Command,
Checkout_Command,
Clean_Command,
Compile_Command,
Help_Command,
Library_Command,
Run_Command,
Systemize_Command);
Command: Selected_Command := Checkout_Command;
-- Set by Initialize_Parameters;
procedure Initialize_Parameters;
-- Loads the previous set of parameters (if any), and then applies and
-- validates the parameters passed in.
--
-- Additionally checks the correctness of the specified
-- options/configuration for relevent commands.
--
-- If the parameters are not valid, a message explaining why is output,
-- and Process_Failed is raised, otherwise Command is set to the selected
-- command
--
-- Initialize_Parameters sets a variety of global variables in the
-- Scheduling and UI_Primitives packages, and must be invoked before
-- executing any other subprograms in this package
---------------
-- Processes --
---------------
procedure Clean;
-- Removes all state from the project.
-- 1. Removes the .aura subdirectory, containing all saved state (config and
-- last-run
-- 2. Removes the aura-build subdirectory
procedure Enter_Root;
-- Enters all units in the root directory
procedure Initialize_Repositories;
procedure Add_Explicit_Checkouts;
-- Enters "Requested" subsystems into the Registrar if they are not already
-- registered
--
-- This should be called after Enter_Root to ensure that root subsystems are
-- not checked-out by this process.
--
-- If there are no explicit checkouts to add, no action is taken.
procedure Checkout_Cycle;
-- Goes through successful cycles of Checkout -> Hash -> Configure -> Cache
-- until no Subsystems are in a state of "Requested".
--
-- If three cycles pass where the number of requested subsystems does not
-- change, a list of all requested subsystems is output and Process_Failed
-- is raised.
--
-- After a successful Checkout_Cycle process (all Requested subsystems
-- aquired and configured), the Root Configuration is processed (if any) and
-- then all Configuration Manifests are excluded from the Registrar.
procedure Consolidate_Dependencies;
-- Consolidates and builds all dependency maps
procedure Check_Completion;
-- Check for any subsystems that are Unavailable (checkout failed for
-- "common" reasons), and report diagnostic information to the user
-- before aborting.
--
-- If all Subsystems are Available, Check for any units with a state of
-- Requested (there should be none), and report any found to the user before
-- aborting
--
-- If -v is not given as a parameter, specific dependency relationships are
-- not output, and a simiplified description of incomplete or unavailable
-- subsystems is output.
--
-- If there are checkout failures and Verbose will be False,
-- Consolidate_Dependencies does not need to be invoked first, otherwise
-- it must be invoked first.
procedure Hash_Registry;
-- Hash all units in the registry, including compilation products
procedure Compile;
-- Executes:
-- 1. Build.Compute_Recomplations
-- 2. Build.Compilation.Compile
--
-- If Quiet is True, compiler output is not copied to the output
procedure Bind;
-- Creates a binder file, waits for the registration, and then executes a
-- compilation run to compile the binder unit
procedure Expand_Dependencies;
-- If a main unit is specified, all dependencies are added to the link set,
-- otherwise the link-set already contains all units. This must be invoked
-- before Scan_Linker_Options or Link_Or_Archive
procedure Scan_Linker_Options;
-- Invokes and tracks the Scan_Linker_Options phase when linking an image
-- or library
procedure Link_Or_Archive with
Pre => Command in Build_Command | Run_Command | Library_Command;
-- Depending on the command (build/run/library), and the output image name
-- (for library command only), either links an executable, a dynamic library,
-- or creates a regular object archive (".a" extension)
procedure Execute_Image;
-- Executes the compiled and linked image, passing no parameters, but
-- preserving the environment values.
--
-- On systems (such as Unix) that support replacing the image of the running
-- process, Execute_Image will not return. However, on systems that only
-- support explict process creation (such as Windows), a new process is
-- created, and Execute_Image returns normally.
procedure Save_Registry;
-- Saves Last_Run
procedure Save_Config;
-- Saves the build configuration (parameters)
end Scheduling;
|
[
{
"context": " --\n-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --\n-- Al",
"end": 824,
"score": 0.999888002872467,
"start": 811,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 844,
"score": 0.9999308586120605,
"start": 826,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/mof/cmof/amf-internals-tables-cmof_metamodel-links.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
package AMF.Internals.Tables.CMOF_Metamodel.Links is
procedure Initialize;
private
procedure Initialize_1;
procedure Initialize_2;
procedure Initialize_3;
procedure Initialize_4;
procedure Initialize_5;
procedure Initialize_6;
procedure Initialize_7;
procedure Initialize_8;
procedure Initialize_9;
procedure Initialize_10;
procedure Initialize_11;
procedure Initialize_12;
procedure Initialize_13;
procedure Initialize_14;
procedure Initialize_15;
procedure Initialize_16;
procedure Initialize_17;
procedure Initialize_18;
procedure Initialize_19;
procedure Initialize_20;
procedure Initialize_21;
procedure Initialize_22;
procedure Initialize_23;
procedure Initialize_24;
procedure Initialize_25;
procedure Initialize_26;
procedure Initialize_27;
procedure Initialize_28;
procedure Initialize_29;
procedure Initialize_30;
procedure Initialize_31;
procedure Initialize_32;
procedure Initialize_33;
procedure Initialize_34;
procedure Initialize_35;
procedure Initialize_36;
procedure Initialize_37;
procedure Initialize_38;
procedure Initialize_39;
procedure Initialize_40;
procedure Initialize_41;
procedure Initialize_42;
procedure Initialize_43;
procedure Initialize_44;
procedure Initialize_45;
procedure Initialize_46;
procedure Initialize_47;
procedure Initialize_48;
procedure Initialize_49;
procedure Initialize_50;
procedure Initialize_51;
procedure Initialize_52;
procedure Initialize_53;
procedure Initialize_54;
procedure Initialize_55;
procedure Initialize_56;
procedure Initialize_57;
procedure Initialize_58;
procedure Initialize_59;
procedure Initialize_60;
procedure Initialize_61;
procedure Initialize_62;
procedure Initialize_63;
procedure Initialize_64;
procedure Initialize_65;
procedure Initialize_66;
procedure Initialize_67;
procedure Initialize_68;
procedure Initialize_69;
procedure Initialize_70;
procedure Initialize_71;
procedure Initialize_72;
procedure Initialize_73;
procedure Initialize_74;
procedure Initialize_75;
procedure Initialize_76;
procedure Initialize_77;
procedure Initialize_78;
procedure Initialize_79;
procedure Initialize_80;
procedure Initialize_81;
procedure Initialize_82;
procedure Initialize_83;
procedure Initialize_84;
procedure Initialize_85;
procedure Initialize_86;
procedure Initialize_87;
procedure Initialize_88;
procedure Initialize_89;
procedure Initialize_90;
procedure Initialize_91;
procedure Initialize_92;
procedure Initialize_93;
procedure Initialize_94;
procedure Initialize_95;
procedure Initialize_96;
procedure Initialize_97;
procedure Initialize_98;
procedure Initialize_99;
procedure Initialize_100;
procedure Initialize_101;
procedure Initialize_102;
procedure Initialize_103;
procedure Initialize_104;
procedure Initialize_105;
procedure Initialize_106;
procedure Initialize_107;
procedure Initialize_108;
procedure Initialize_109;
procedure Initialize_110;
procedure Initialize_111;
procedure Initialize_112;
procedure Initialize_113;
procedure Initialize_114;
procedure Initialize_115;
procedure Initialize_116;
procedure Initialize_117;
procedure Initialize_118;
procedure Initialize_119;
procedure Initialize_120;
procedure Initialize_121;
procedure Initialize_122;
procedure Initialize_123;
procedure Initialize_124;
procedure Initialize_125;
procedure Initialize_126;
procedure Initialize_127;
procedure Initialize_128;
procedure Initialize_129;
procedure Initialize_130;
procedure Initialize_131;
procedure Initialize_132;
procedure Initialize_133;
procedure Initialize_134;
procedure Initialize_135;
procedure Initialize_136;
procedure Initialize_137;
procedure Initialize_138;
procedure Initialize_139;
procedure Initialize_140;
procedure Initialize_141;
procedure Initialize_142;
procedure Initialize_143;
procedure Initialize_144;
procedure Initialize_145;
procedure Initialize_146;
procedure Initialize_147;
procedure Initialize_148;
procedure Initialize_149;
procedure Initialize_150;
procedure Initialize_151;
procedure Initialize_152;
procedure Initialize_153;
procedure Initialize_154;
procedure Initialize_155;
procedure Initialize_156;
procedure Initialize_157;
procedure Initialize_158;
procedure Initialize_159;
procedure Initialize_160;
procedure Initialize_161;
procedure Initialize_162;
procedure Initialize_163;
procedure Initialize_164;
procedure Initialize_165;
procedure Initialize_166;
procedure Initialize_167;
procedure Initialize_168;
procedure Initialize_169;
procedure Initialize_170;
procedure Initialize_171;
procedure Initialize_172;
procedure Initialize_173;
procedure Initialize_174;
procedure Initialize_175;
procedure Initialize_176;
procedure Initialize_177;
procedure Initialize_178;
procedure Initialize_179;
procedure Initialize_180;
procedure Initialize_181;
procedure Initialize_182;
procedure Initialize_183;
procedure Initialize_184;
procedure Initialize_185;
procedure Initialize_186;
procedure Initialize_187;
procedure Initialize_188;
procedure Initialize_189;
procedure Initialize_190;
procedure Initialize_191;
procedure Initialize_192;
procedure Initialize_193;
procedure Initialize_194;
procedure Initialize_195;
procedure Initialize_196;
procedure Initialize_197;
procedure Initialize_198;
procedure Initialize_199;
procedure Initialize_200;
procedure Initialize_201;
procedure Initialize_202;
procedure Initialize_203;
procedure Initialize_204;
procedure Initialize_205;
procedure Initialize_206;
procedure Initialize_207;
procedure Initialize_208;
procedure Initialize_209;
procedure Initialize_210;
procedure Initialize_211;
procedure Initialize_212;
procedure Initialize_213;
procedure Initialize_214;
procedure Initialize_215;
procedure Initialize_216;
procedure Initialize_217;
procedure Initialize_218;
procedure Initialize_219;
procedure Initialize_220;
procedure Initialize_221;
procedure Initialize_222;
procedure Initialize_223;
procedure Initialize_224;
procedure Initialize_225;
procedure Initialize_226;
procedure Initialize_227;
procedure Initialize_228;
procedure Initialize_229;
procedure Initialize_230;
procedure Initialize_231;
procedure Initialize_232;
procedure Initialize_233;
procedure Initialize_234;
procedure Initialize_235;
procedure Initialize_236;
procedure Initialize_237;
procedure Initialize_238;
procedure Initialize_239;
procedure Initialize_240;
procedure Initialize_241;
procedure Initialize_242;
procedure Initialize_243;
procedure Initialize_244;
procedure Initialize_245;
procedure Initialize_246;
procedure Initialize_247;
procedure Initialize_248;
procedure Initialize_249;
procedure Initialize_250;
procedure Initialize_251;
procedure Initialize_252;
procedure Initialize_253;
procedure Initialize_254;
procedure Initialize_255;
procedure Initialize_256;
procedure Initialize_257;
procedure Initialize_258;
procedure Initialize_259;
procedure Initialize_260;
procedure Initialize_261;
procedure Initialize_262;
procedure Initialize_263;
procedure Initialize_264;
procedure Initialize_265;
procedure Initialize_266;
procedure Initialize_267;
procedure Initialize_268;
procedure Initialize_269;
procedure Initialize_270;
procedure Initialize_271;
procedure Initialize_272;
procedure Initialize_273;
procedure Initialize_274;
procedure Initialize_275;
procedure Initialize_276;
procedure Initialize_277;
procedure Initialize_278;
procedure Initialize_279;
procedure Initialize_280;
procedure Initialize_281;
procedure Initialize_282;
procedure Initialize_283;
procedure Initialize_284;
procedure Initialize_285;
procedure Initialize_286;
procedure Initialize_287;
procedure Initialize_288;
procedure Initialize_289;
procedure Initialize_290;
procedure Initialize_291;
procedure Initialize_292;
procedure Initialize_293;
procedure Initialize_294;
procedure Initialize_295;
procedure Initialize_296;
procedure Initialize_297;
procedure Initialize_298;
procedure Initialize_299;
procedure Initialize_300;
procedure Initialize_301;
procedure Initialize_302;
procedure Initialize_303;
procedure Initialize_304;
procedure Initialize_305;
procedure Initialize_306;
procedure Initialize_307;
procedure Initialize_308;
procedure Initialize_309;
procedure Initialize_310;
procedure Initialize_311;
procedure Initialize_312;
procedure Initialize_313;
procedure Initialize_314;
procedure Initialize_315;
procedure Initialize_316;
procedure Initialize_317;
procedure Initialize_318;
procedure Initialize_319;
procedure Initialize_320;
procedure Initialize_321;
procedure Initialize_322;
procedure Initialize_323;
procedure Initialize_324;
procedure Initialize_325;
procedure Initialize_326;
procedure Initialize_327;
procedure Initialize_328;
procedure Initialize_329;
procedure Initialize_330;
procedure Initialize_331;
procedure Initialize_332;
procedure Initialize_333;
procedure Initialize_334;
procedure Initialize_335;
procedure Initialize_336;
procedure Initialize_337;
procedure Initialize_338;
procedure Initialize_339;
procedure Initialize_340;
procedure Initialize_341;
procedure Initialize_342;
procedure Initialize_343;
procedure Initialize_344;
procedure Initialize_345;
procedure Initialize_346;
procedure Initialize_347;
procedure Initialize_348;
procedure Initialize_349;
procedure Initialize_350;
procedure Initialize_351;
procedure Initialize_352;
procedure Initialize_353;
procedure Initialize_354;
procedure Initialize_355;
procedure Initialize_356;
procedure Initialize_357;
procedure Initialize_358;
procedure Initialize_359;
procedure Initialize_360;
procedure Initialize_361;
procedure Initialize_362;
procedure Initialize_363;
procedure Initialize_364;
procedure Initialize_365;
procedure Initialize_366;
procedure Initialize_367;
procedure Initialize_368;
procedure Initialize_369;
procedure Initialize_370;
procedure Initialize_371;
procedure Initialize_372;
procedure Initialize_373;
procedure Initialize_374;
procedure Initialize_375;
procedure Initialize_376;
procedure Initialize_377;
procedure Initialize_378;
procedure Initialize_379;
procedure Initialize_380;
procedure Initialize_381;
procedure Initialize_382;
procedure Initialize_383;
procedure Initialize_384;
procedure Initialize_385;
procedure Initialize_386;
procedure Initialize_387;
procedure Initialize_388;
procedure Initialize_389;
procedure Initialize_390;
procedure Initialize_391;
procedure Initialize_392;
procedure Initialize_393;
procedure Initialize_394;
procedure Initialize_395;
procedure Initialize_396;
procedure Initialize_397;
procedure Initialize_398;
procedure Initialize_399;
procedure Initialize_400;
procedure Initialize_401;
procedure Initialize_402;
procedure Initialize_403;
procedure Initialize_404;
procedure Initialize_405;
procedure Initialize_406;
procedure Initialize_407;
procedure Initialize_408;
procedure Initialize_409;
procedure Initialize_410;
procedure Initialize_411;
procedure Initialize_412;
procedure Initialize_413;
procedure Initialize_414;
procedure Initialize_415;
procedure Initialize_416;
procedure Initialize_417;
procedure Initialize_418;
procedure Initialize_419;
procedure Initialize_420;
procedure Initialize_421;
procedure Initialize_422;
procedure Initialize_423;
procedure Initialize_424;
procedure Initialize_425;
procedure Initialize_426;
procedure Initialize_427;
procedure Initialize_428;
procedure Initialize_429;
procedure Initialize_430;
procedure Initialize_431;
procedure Initialize_432;
procedure Initialize_433;
procedure Initialize_434;
procedure Initialize_435;
procedure Initialize_436;
procedure Initialize_437;
procedure Initialize_438;
procedure Initialize_439;
procedure Initialize_440;
procedure Initialize_441;
procedure Initialize_442;
procedure Initialize_443;
procedure Initialize_444;
procedure Initialize_445;
procedure Initialize_446;
procedure Initialize_447;
procedure Initialize_448;
procedure Initialize_449;
procedure Initialize_450;
procedure Initialize_451;
procedure Initialize_452;
procedure Initialize_453;
procedure Initialize_454;
procedure Initialize_455;
procedure Initialize_456;
procedure Initialize_457;
procedure Initialize_458;
procedure Initialize_459;
procedure Initialize_460;
procedure Initialize_461;
procedure Initialize_462;
procedure Initialize_463;
procedure Initialize_464;
procedure Initialize_465;
procedure Initialize_466;
procedure Initialize_467;
procedure Initialize_468;
procedure Initialize_469;
procedure Initialize_470;
procedure Initialize_471;
procedure Initialize_472;
procedure Initialize_473;
procedure Initialize_474;
procedure Initialize_475;
procedure Initialize_476;
procedure Initialize_477;
procedure Initialize_478;
procedure Initialize_479;
procedure Initialize_480;
procedure Initialize_481;
procedure Initialize_482;
procedure Initialize_483;
procedure Initialize_484;
procedure Initialize_485;
procedure Initialize_486;
procedure Initialize_487;
procedure Initialize_488;
procedure Initialize_489;
procedure Initialize_490;
procedure Initialize_491;
procedure Initialize_492;
procedure Initialize_493;
procedure Initialize_494;
procedure Initialize_495;
procedure Initialize_496;
procedure Initialize_497;
procedure Initialize_498;
procedure Initialize_499;
procedure Initialize_500;
procedure Initialize_501;
procedure Initialize_502;
procedure Initialize_503;
procedure Initialize_504;
procedure Initialize_505;
procedure Initialize_506;
procedure Initialize_507;
procedure Initialize_508;
procedure Initialize_509;
procedure Initialize_510;
procedure Initialize_511;
procedure Initialize_512;
procedure Initialize_513;
procedure Initialize_514;
procedure Initialize_515;
procedure Initialize_516;
procedure Initialize_517;
procedure Initialize_518;
procedure Initialize_519;
procedure Initialize_520;
procedure Initialize_521;
procedure Initialize_522;
procedure Initialize_523;
procedure Initialize_524;
procedure Initialize_525;
procedure Initialize_526;
procedure Initialize_527;
procedure Initialize_528;
procedure Initialize_529;
procedure Initialize_530;
procedure Initialize_531;
procedure Initialize_532;
procedure Initialize_533;
procedure Initialize_534;
procedure Initialize_535;
procedure Initialize_536;
procedure Initialize_537;
procedure Initialize_538;
procedure Initialize_539;
procedure Initialize_540;
procedure Initialize_541;
procedure Initialize_542;
procedure Initialize_543;
procedure Initialize_544;
procedure Initialize_545;
procedure Initialize_546;
procedure Initialize_547;
procedure Initialize_548;
procedure Initialize_549;
procedure Initialize_550;
procedure Initialize_551;
procedure Initialize_552;
procedure Initialize_553;
procedure Initialize_554;
procedure Initialize_555;
procedure Initialize_556;
procedure Initialize_557;
procedure Initialize_558;
procedure Initialize_559;
procedure Initialize_560;
procedure Initialize_561;
procedure Initialize_562;
procedure Initialize_563;
procedure Initialize_564;
procedure Initialize_565;
procedure Initialize_566;
procedure Initialize_567;
procedure Initialize_568;
procedure Initialize_569;
procedure Initialize_570;
procedure Initialize_571;
procedure Initialize_572;
procedure Initialize_573;
procedure Initialize_574;
procedure Initialize_575;
procedure Initialize_576;
procedure Initialize_577;
procedure Initialize_578;
procedure Initialize_579;
procedure Initialize_580;
procedure Initialize_581;
procedure Initialize_582;
procedure Initialize_583;
procedure Initialize_584;
procedure Initialize_585;
procedure Initialize_586;
procedure Initialize_587;
procedure Initialize_588;
procedure Initialize_589;
procedure Initialize_590;
procedure Initialize_591;
procedure Initialize_592;
procedure Initialize_593;
procedure Initialize_594;
procedure Initialize_595;
procedure Initialize_596;
procedure Initialize_597;
procedure Initialize_598;
procedure Initialize_599;
procedure Initialize_600;
procedure Initialize_601;
procedure Initialize_602;
procedure Initialize_603;
procedure Initialize_604;
procedure Initialize_605;
procedure Initialize_606;
procedure Initialize_607;
procedure Initialize_608;
procedure Initialize_609;
procedure Initialize_610;
procedure Initialize_611;
procedure Initialize_612;
procedure Initialize_613;
procedure Initialize_614;
procedure Initialize_615;
procedure Initialize_616;
procedure Initialize_617;
procedure Initialize_618;
procedure Initialize_619;
procedure Initialize_620;
procedure Initialize_621;
procedure Initialize_622;
procedure Initialize_623;
procedure Initialize_624;
procedure Initialize_625;
procedure Initialize_626;
procedure Initialize_627;
procedure Initialize_628;
procedure Initialize_629;
procedure Initialize_630;
procedure Initialize_631;
procedure Initialize_632;
procedure Initialize_633;
procedure Initialize_634;
procedure Initialize_635;
procedure Initialize_636;
procedure Initialize_637;
procedure Initialize_638;
procedure Initialize_639;
procedure Initialize_640;
procedure Initialize_641;
procedure Initialize_642;
procedure Initialize_643;
procedure Initialize_644;
procedure Initialize_645;
procedure Initialize_646;
procedure Initialize_647;
procedure Initialize_648;
procedure Initialize_649;
procedure Initialize_650;
procedure Initialize_651;
procedure Initialize_652;
procedure Initialize_653;
procedure Initialize_654;
procedure Initialize_655;
procedure Initialize_656;
procedure Initialize_657;
procedure Initialize_658;
procedure Initialize_659;
procedure Initialize_660;
procedure Initialize_661;
procedure Initialize_662;
procedure Initialize_663;
procedure Initialize_664;
procedure Initialize_665;
procedure Initialize_666;
procedure Initialize_667;
procedure Initialize_668;
procedure Initialize_669;
procedure Initialize_670;
procedure Initialize_671;
procedure Initialize_672;
procedure Initialize_673;
procedure Initialize_674;
procedure Initialize_675;
procedure Initialize_676;
procedure Initialize_677;
procedure Initialize_678;
procedure Initialize_679;
procedure Initialize_680;
procedure Initialize_681;
procedure Initialize_682;
procedure Initialize_683;
procedure Initialize_684;
procedure Initialize_685;
procedure Initialize_686;
procedure Initialize_687;
procedure Initialize_688;
procedure Initialize_689;
procedure Initialize_690;
procedure Initialize_691;
procedure Initialize_692;
procedure Initialize_693;
procedure Initialize_694;
procedure Initialize_695;
procedure Initialize_696;
procedure Initialize_697;
procedure Initialize_698;
procedure Initialize_699;
procedure Initialize_700;
procedure Initialize_701;
procedure Initialize_702;
procedure Initialize_703;
procedure Initialize_704;
procedure Initialize_705;
procedure Initialize_706;
procedure Initialize_707;
procedure Initialize_708;
procedure Initialize_709;
procedure Initialize_710;
procedure Initialize_711;
procedure Initialize_712;
procedure Initialize_713;
procedure Initialize_714;
procedure Initialize_715;
procedure Initialize_716;
procedure Initialize_717;
procedure Initialize_718;
procedure Initialize_719;
procedure Initialize_720;
procedure Initialize_721;
procedure Initialize_722;
procedure Initialize_723;
procedure Initialize_724;
procedure Initialize_725;
procedure Initialize_726;
procedure Initialize_727;
procedure Initialize_728;
procedure Initialize_729;
procedure Initialize_730;
procedure Initialize_731;
procedure Initialize_732;
procedure Initialize_733;
procedure Initialize_734;
procedure Initialize_735;
procedure Initialize_736;
procedure Initialize_737;
procedure Initialize_738;
procedure Initialize_739;
procedure Initialize_740;
procedure Initialize_741;
procedure Initialize_742;
procedure Initialize_743;
procedure Initialize_744;
procedure Initialize_745;
procedure Initialize_746;
procedure Initialize_747;
procedure Initialize_748;
procedure Initialize_749;
procedure Initialize_750;
procedure Initialize_751;
procedure Initialize_752;
procedure Initialize_753;
procedure Initialize_754;
procedure Initialize_755;
procedure Initialize_756;
procedure Initialize_757;
procedure Initialize_758;
procedure Initialize_759;
procedure Initialize_760;
procedure Initialize_761;
procedure Initialize_762;
procedure Initialize_763;
procedure Initialize_764;
procedure Initialize_765;
procedure Initialize_766;
procedure Initialize_767;
procedure Initialize_768;
procedure Initialize_769;
procedure Initialize_770;
procedure Initialize_771;
procedure Initialize_772;
procedure Initialize_773;
procedure Initialize_774;
procedure Initialize_775;
procedure Initialize_776;
procedure Initialize_777;
procedure Initialize_778;
procedure Initialize_779;
procedure Initialize_780;
procedure Initialize_781;
procedure Initialize_782;
procedure Initialize_783;
procedure Initialize_784;
procedure Initialize_785;
procedure Initialize_786;
procedure Initialize_787;
procedure Initialize_788;
procedure Initialize_789;
procedure Initialize_790;
procedure Initialize_791;
procedure Initialize_792;
procedure Initialize_793;
procedure Initialize_794;
procedure Initialize_795;
procedure Initialize_796;
procedure Initialize_797;
procedure Initialize_798;
procedure Initialize_799;
procedure Initialize_800;
end AMF.Internals.Tables.CMOF_Metamodel.Links;
| 22928 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
package AMF.Internals.Tables.CMOF_Metamodel.Links is
procedure Initialize;
private
procedure Initialize_1;
procedure Initialize_2;
procedure Initialize_3;
procedure Initialize_4;
procedure Initialize_5;
procedure Initialize_6;
procedure Initialize_7;
procedure Initialize_8;
procedure Initialize_9;
procedure Initialize_10;
procedure Initialize_11;
procedure Initialize_12;
procedure Initialize_13;
procedure Initialize_14;
procedure Initialize_15;
procedure Initialize_16;
procedure Initialize_17;
procedure Initialize_18;
procedure Initialize_19;
procedure Initialize_20;
procedure Initialize_21;
procedure Initialize_22;
procedure Initialize_23;
procedure Initialize_24;
procedure Initialize_25;
procedure Initialize_26;
procedure Initialize_27;
procedure Initialize_28;
procedure Initialize_29;
procedure Initialize_30;
procedure Initialize_31;
procedure Initialize_32;
procedure Initialize_33;
procedure Initialize_34;
procedure Initialize_35;
procedure Initialize_36;
procedure Initialize_37;
procedure Initialize_38;
procedure Initialize_39;
procedure Initialize_40;
procedure Initialize_41;
procedure Initialize_42;
procedure Initialize_43;
procedure Initialize_44;
procedure Initialize_45;
procedure Initialize_46;
procedure Initialize_47;
procedure Initialize_48;
procedure Initialize_49;
procedure Initialize_50;
procedure Initialize_51;
procedure Initialize_52;
procedure Initialize_53;
procedure Initialize_54;
procedure Initialize_55;
procedure Initialize_56;
procedure Initialize_57;
procedure Initialize_58;
procedure Initialize_59;
procedure Initialize_60;
procedure Initialize_61;
procedure Initialize_62;
procedure Initialize_63;
procedure Initialize_64;
procedure Initialize_65;
procedure Initialize_66;
procedure Initialize_67;
procedure Initialize_68;
procedure Initialize_69;
procedure Initialize_70;
procedure Initialize_71;
procedure Initialize_72;
procedure Initialize_73;
procedure Initialize_74;
procedure Initialize_75;
procedure Initialize_76;
procedure Initialize_77;
procedure Initialize_78;
procedure Initialize_79;
procedure Initialize_80;
procedure Initialize_81;
procedure Initialize_82;
procedure Initialize_83;
procedure Initialize_84;
procedure Initialize_85;
procedure Initialize_86;
procedure Initialize_87;
procedure Initialize_88;
procedure Initialize_89;
procedure Initialize_90;
procedure Initialize_91;
procedure Initialize_92;
procedure Initialize_93;
procedure Initialize_94;
procedure Initialize_95;
procedure Initialize_96;
procedure Initialize_97;
procedure Initialize_98;
procedure Initialize_99;
procedure Initialize_100;
procedure Initialize_101;
procedure Initialize_102;
procedure Initialize_103;
procedure Initialize_104;
procedure Initialize_105;
procedure Initialize_106;
procedure Initialize_107;
procedure Initialize_108;
procedure Initialize_109;
procedure Initialize_110;
procedure Initialize_111;
procedure Initialize_112;
procedure Initialize_113;
procedure Initialize_114;
procedure Initialize_115;
procedure Initialize_116;
procedure Initialize_117;
procedure Initialize_118;
procedure Initialize_119;
procedure Initialize_120;
procedure Initialize_121;
procedure Initialize_122;
procedure Initialize_123;
procedure Initialize_124;
procedure Initialize_125;
procedure Initialize_126;
procedure Initialize_127;
procedure Initialize_128;
procedure Initialize_129;
procedure Initialize_130;
procedure Initialize_131;
procedure Initialize_132;
procedure Initialize_133;
procedure Initialize_134;
procedure Initialize_135;
procedure Initialize_136;
procedure Initialize_137;
procedure Initialize_138;
procedure Initialize_139;
procedure Initialize_140;
procedure Initialize_141;
procedure Initialize_142;
procedure Initialize_143;
procedure Initialize_144;
procedure Initialize_145;
procedure Initialize_146;
procedure Initialize_147;
procedure Initialize_148;
procedure Initialize_149;
procedure Initialize_150;
procedure Initialize_151;
procedure Initialize_152;
procedure Initialize_153;
procedure Initialize_154;
procedure Initialize_155;
procedure Initialize_156;
procedure Initialize_157;
procedure Initialize_158;
procedure Initialize_159;
procedure Initialize_160;
procedure Initialize_161;
procedure Initialize_162;
procedure Initialize_163;
procedure Initialize_164;
procedure Initialize_165;
procedure Initialize_166;
procedure Initialize_167;
procedure Initialize_168;
procedure Initialize_169;
procedure Initialize_170;
procedure Initialize_171;
procedure Initialize_172;
procedure Initialize_173;
procedure Initialize_174;
procedure Initialize_175;
procedure Initialize_176;
procedure Initialize_177;
procedure Initialize_178;
procedure Initialize_179;
procedure Initialize_180;
procedure Initialize_181;
procedure Initialize_182;
procedure Initialize_183;
procedure Initialize_184;
procedure Initialize_185;
procedure Initialize_186;
procedure Initialize_187;
procedure Initialize_188;
procedure Initialize_189;
procedure Initialize_190;
procedure Initialize_191;
procedure Initialize_192;
procedure Initialize_193;
procedure Initialize_194;
procedure Initialize_195;
procedure Initialize_196;
procedure Initialize_197;
procedure Initialize_198;
procedure Initialize_199;
procedure Initialize_200;
procedure Initialize_201;
procedure Initialize_202;
procedure Initialize_203;
procedure Initialize_204;
procedure Initialize_205;
procedure Initialize_206;
procedure Initialize_207;
procedure Initialize_208;
procedure Initialize_209;
procedure Initialize_210;
procedure Initialize_211;
procedure Initialize_212;
procedure Initialize_213;
procedure Initialize_214;
procedure Initialize_215;
procedure Initialize_216;
procedure Initialize_217;
procedure Initialize_218;
procedure Initialize_219;
procedure Initialize_220;
procedure Initialize_221;
procedure Initialize_222;
procedure Initialize_223;
procedure Initialize_224;
procedure Initialize_225;
procedure Initialize_226;
procedure Initialize_227;
procedure Initialize_228;
procedure Initialize_229;
procedure Initialize_230;
procedure Initialize_231;
procedure Initialize_232;
procedure Initialize_233;
procedure Initialize_234;
procedure Initialize_235;
procedure Initialize_236;
procedure Initialize_237;
procedure Initialize_238;
procedure Initialize_239;
procedure Initialize_240;
procedure Initialize_241;
procedure Initialize_242;
procedure Initialize_243;
procedure Initialize_244;
procedure Initialize_245;
procedure Initialize_246;
procedure Initialize_247;
procedure Initialize_248;
procedure Initialize_249;
procedure Initialize_250;
procedure Initialize_251;
procedure Initialize_252;
procedure Initialize_253;
procedure Initialize_254;
procedure Initialize_255;
procedure Initialize_256;
procedure Initialize_257;
procedure Initialize_258;
procedure Initialize_259;
procedure Initialize_260;
procedure Initialize_261;
procedure Initialize_262;
procedure Initialize_263;
procedure Initialize_264;
procedure Initialize_265;
procedure Initialize_266;
procedure Initialize_267;
procedure Initialize_268;
procedure Initialize_269;
procedure Initialize_270;
procedure Initialize_271;
procedure Initialize_272;
procedure Initialize_273;
procedure Initialize_274;
procedure Initialize_275;
procedure Initialize_276;
procedure Initialize_277;
procedure Initialize_278;
procedure Initialize_279;
procedure Initialize_280;
procedure Initialize_281;
procedure Initialize_282;
procedure Initialize_283;
procedure Initialize_284;
procedure Initialize_285;
procedure Initialize_286;
procedure Initialize_287;
procedure Initialize_288;
procedure Initialize_289;
procedure Initialize_290;
procedure Initialize_291;
procedure Initialize_292;
procedure Initialize_293;
procedure Initialize_294;
procedure Initialize_295;
procedure Initialize_296;
procedure Initialize_297;
procedure Initialize_298;
procedure Initialize_299;
procedure Initialize_300;
procedure Initialize_301;
procedure Initialize_302;
procedure Initialize_303;
procedure Initialize_304;
procedure Initialize_305;
procedure Initialize_306;
procedure Initialize_307;
procedure Initialize_308;
procedure Initialize_309;
procedure Initialize_310;
procedure Initialize_311;
procedure Initialize_312;
procedure Initialize_313;
procedure Initialize_314;
procedure Initialize_315;
procedure Initialize_316;
procedure Initialize_317;
procedure Initialize_318;
procedure Initialize_319;
procedure Initialize_320;
procedure Initialize_321;
procedure Initialize_322;
procedure Initialize_323;
procedure Initialize_324;
procedure Initialize_325;
procedure Initialize_326;
procedure Initialize_327;
procedure Initialize_328;
procedure Initialize_329;
procedure Initialize_330;
procedure Initialize_331;
procedure Initialize_332;
procedure Initialize_333;
procedure Initialize_334;
procedure Initialize_335;
procedure Initialize_336;
procedure Initialize_337;
procedure Initialize_338;
procedure Initialize_339;
procedure Initialize_340;
procedure Initialize_341;
procedure Initialize_342;
procedure Initialize_343;
procedure Initialize_344;
procedure Initialize_345;
procedure Initialize_346;
procedure Initialize_347;
procedure Initialize_348;
procedure Initialize_349;
procedure Initialize_350;
procedure Initialize_351;
procedure Initialize_352;
procedure Initialize_353;
procedure Initialize_354;
procedure Initialize_355;
procedure Initialize_356;
procedure Initialize_357;
procedure Initialize_358;
procedure Initialize_359;
procedure Initialize_360;
procedure Initialize_361;
procedure Initialize_362;
procedure Initialize_363;
procedure Initialize_364;
procedure Initialize_365;
procedure Initialize_366;
procedure Initialize_367;
procedure Initialize_368;
procedure Initialize_369;
procedure Initialize_370;
procedure Initialize_371;
procedure Initialize_372;
procedure Initialize_373;
procedure Initialize_374;
procedure Initialize_375;
procedure Initialize_376;
procedure Initialize_377;
procedure Initialize_378;
procedure Initialize_379;
procedure Initialize_380;
procedure Initialize_381;
procedure Initialize_382;
procedure Initialize_383;
procedure Initialize_384;
procedure Initialize_385;
procedure Initialize_386;
procedure Initialize_387;
procedure Initialize_388;
procedure Initialize_389;
procedure Initialize_390;
procedure Initialize_391;
procedure Initialize_392;
procedure Initialize_393;
procedure Initialize_394;
procedure Initialize_395;
procedure Initialize_396;
procedure Initialize_397;
procedure Initialize_398;
procedure Initialize_399;
procedure Initialize_400;
procedure Initialize_401;
procedure Initialize_402;
procedure Initialize_403;
procedure Initialize_404;
procedure Initialize_405;
procedure Initialize_406;
procedure Initialize_407;
procedure Initialize_408;
procedure Initialize_409;
procedure Initialize_410;
procedure Initialize_411;
procedure Initialize_412;
procedure Initialize_413;
procedure Initialize_414;
procedure Initialize_415;
procedure Initialize_416;
procedure Initialize_417;
procedure Initialize_418;
procedure Initialize_419;
procedure Initialize_420;
procedure Initialize_421;
procedure Initialize_422;
procedure Initialize_423;
procedure Initialize_424;
procedure Initialize_425;
procedure Initialize_426;
procedure Initialize_427;
procedure Initialize_428;
procedure Initialize_429;
procedure Initialize_430;
procedure Initialize_431;
procedure Initialize_432;
procedure Initialize_433;
procedure Initialize_434;
procedure Initialize_435;
procedure Initialize_436;
procedure Initialize_437;
procedure Initialize_438;
procedure Initialize_439;
procedure Initialize_440;
procedure Initialize_441;
procedure Initialize_442;
procedure Initialize_443;
procedure Initialize_444;
procedure Initialize_445;
procedure Initialize_446;
procedure Initialize_447;
procedure Initialize_448;
procedure Initialize_449;
procedure Initialize_450;
procedure Initialize_451;
procedure Initialize_452;
procedure Initialize_453;
procedure Initialize_454;
procedure Initialize_455;
procedure Initialize_456;
procedure Initialize_457;
procedure Initialize_458;
procedure Initialize_459;
procedure Initialize_460;
procedure Initialize_461;
procedure Initialize_462;
procedure Initialize_463;
procedure Initialize_464;
procedure Initialize_465;
procedure Initialize_466;
procedure Initialize_467;
procedure Initialize_468;
procedure Initialize_469;
procedure Initialize_470;
procedure Initialize_471;
procedure Initialize_472;
procedure Initialize_473;
procedure Initialize_474;
procedure Initialize_475;
procedure Initialize_476;
procedure Initialize_477;
procedure Initialize_478;
procedure Initialize_479;
procedure Initialize_480;
procedure Initialize_481;
procedure Initialize_482;
procedure Initialize_483;
procedure Initialize_484;
procedure Initialize_485;
procedure Initialize_486;
procedure Initialize_487;
procedure Initialize_488;
procedure Initialize_489;
procedure Initialize_490;
procedure Initialize_491;
procedure Initialize_492;
procedure Initialize_493;
procedure Initialize_494;
procedure Initialize_495;
procedure Initialize_496;
procedure Initialize_497;
procedure Initialize_498;
procedure Initialize_499;
procedure Initialize_500;
procedure Initialize_501;
procedure Initialize_502;
procedure Initialize_503;
procedure Initialize_504;
procedure Initialize_505;
procedure Initialize_506;
procedure Initialize_507;
procedure Initialize_508;
procedure Initialize_509;
procedure Initialize_510;
procedure Initialize_511;
procedure Initialize_512;
procedure Initialize_513;
procedure Initialize_514;
procedure Initialize_515;
procedure Initialize_516;
procedure Initialize_517;
procedure Initialize_518;
procedure Initialize_519;
procedure Initialize_520;
procedure Initialize_521;
procedure Initialize_522;
procedure Initialize_523;
procedure Initialize_524;
procedure Initialize_525;
procedure Initialize_526;
procedure Initialize_527;
procedure Initialize_528;
procedure Initialize_529;
procedure Initialize_530;
procedure Initialize_531;
procedure Initialize_532;
procedure Initialize_533;
procedure Initialize_534;
procedure Initialize_535;
procedure Initialize_536;
procedure Initialize_537;
procedure Initialize_538;
procedure Initialize_539;
procedure Initialize_540;
procedure Initialize_541;
procedure Initialize_542;
procedure Initialize_543;
procedure Initialize_544;
procedure Initialize_545;
procedure Initialize_546;
procedure Initialize_547;
procedure Initialize_548;
procedure Initialize_549;
procedure Initialize_550;
procedure Initialize_551;
procedure Initialize_552;
procedure Initialize_553;
procedure Initialize_554;
procedure Initialize_555;
procedure Initialize_556;
procedure Initialize_557;
procedure Initialize_558;
procedure Initialize_559;
procedure Initialize_560;
procedure Initialize_561;
procedure Initialize_562;
procedure Initialize_563;
procedure Initialize_564;
procedure Initialize_565;
procedure Initialize_566;
procedure Initialize_567;
procedure Initialize_568;
procedure Initialize_569;
procedure Initialize_570;
procedure Initialize_571;
procedure Initialize_572;
procedure Initialize_573;
procedure Initialize_574;
procedure Initialize_575;
procedure Initialize_576;
procedure Initialize_577;
procedure Initialize_578;
procedure Initialize_579;
procedure Initialize_580;
procedure Initialize_581;
procedure Initialize_582;
procedure Initialize_583;
procedure Initialize_584;
procedure Initialize_585;
procedure Initialize_586;
procedure Initialize_587;
procedure Initialize_588;
procedure Initialize_589;
procedure Initialize_590;
procedure Initialize_591;
procedure Initialize_592;
procedure Initialize_593;
procedure Initialize_594;
procedure Initialize_595;
procedure Initialize_596;
procedure Initialize_597;
procedure Initialize_598;
procedure Initialize_599;
procedure Initialize_600;
procedure Initialize_601;
procedure Initialize_602;
procedure Initialize_603;
procedure Initialize_604;
procedure Initialize_605;
procedure Initialize_606;
procedure Initialize_607;
procedure Initialize_608;
procedure Initialize_609;
procedure Initialize_610;
procedure Initialize_611;
procedure Initialize_612;
procedure Initialize_613;
procedure Initialize_614;
procedure Initialize_615;
procedure Initialize_616;
procedure Initialize_617;
procedure Initialize_618;
procedure Initialize_619;
procedure Initialize_620;
procedure Initialize_621;
procedure Initialize_622;
procedure Initialize_623;
procedure Initialize_624;
procedure Initialize_625;
procedure Initialize_626;
procedure Initialize_627;
procedure Initialize_628;
procedure Initialize_629;
procedure Initialize_630;
procedure Initialize_631;
procedure Initialize_632;
procedure Initialize_633;
procedure Initialize_634;
procedure Initialize_635;
procedure Initialize_636;
procedure Initialize_637;
procedure Initialize_638;
procedure Initialize_639;
procedure Initialize_640;
procedure Initialize_641;
procedure Initialize_642;
procedure Initialize_643;
procedure Initialize_644;
procedure Initialize_645;
procedure Initialize_646;
procedure Initialize_647;
procedure Initialize_648;
procedure Initialize_649;
procedure Initialize_650;
procedure Initialize_651;
procedure Initialize_652;
procedure Initialize_653;
procedure Initialize_654;
procedure Initialize_655;
procedure Initialize_656;
procedure Initialize_657;
procedure Initialize_658;
procedure Initialize_659;
procedure Initialize_660;
procedure Initialize_661;
procedure Initialize_662;
procedure Initialize_663;
procedure Initialize_664;
procedure Initialize_665;
procedure Initialize_666;
procedure Initialize_667;
procedure Initialize_668;
procedure Initialize_669;
procedure Initialize_670;
procedure Initialize_671;
procedure Initialize_672;
procedure Initialize_673;
procedure Initialize_674;
procedure Initialize_675;
procedure Initialize_676;
procedure Initialize_677;
procedure Initialize_678;
procedure Initialize_679;
procedure Initialize_680;
procedure Initialize_681;
procedure Initialize_682;
procedure Initialize_683;
procedure Initialize_684;
procedure Initialize_685;
procedure Initialize_686;
procedure Initialize_687;
procedure Initialize_688;
procedure Initialize_689;
procedure Initialize_690;
procedure Initialize_691;
procedure Initialize_692;
procedure Initialize_693;
procedure Initialize_694;
procedure Initialize_695;
procedure Initialize_696;
procedure Initialize_697;
procedure Initialize_698;
procedure Initialize_699;
procedure Initialize_700;
procedure Initialize_701;
procedure Initialize_702;
procedure Initialize_703;
procedure Initialize_704;
procedure Initialize_705;
procedure Initialize_706;
procedure Initialize_707;
procedure Initialize_708;
procedure Initialize_709;
procedure Initialize_710;
procedure Initialize_711;
procedure Initialize_712;
procedure Initialize_713;
procedure Initialize_714;
procedure Initialize_715;
procedure Initialize_716;
procedure Initialize_717;
procedure Initialize_718;
procedure Initialize_719;
procedure Initialize_720;
procedure Initialize_721;
procedure Initialize_722;
procedure Initialize_723;
procedure Initialize_724;
procedure Initialize_725;
procedure Initialize_726;
procedure Initialize_727;
procedure Initialize_728;
procedure Initialize_729;
procedure Initialize_730;
procedure Initialize_731;
procedure Initialize_732;
procedure Initialize_733;
procedure Initialize_734;
procedure Initialize_735;
procedure Initialize_736;
procedure Initialize_737;
procedure Initialize_738;
procedure Initialize_739;
procedure Initialize_740;
procedure Initialize_741;
procedure Initialize_742;
procedure Initialize_743;
procedure Initialize_744;
procedure Initialize_745;
procedure Initialize_746;
procedure Initialize_747;
procedure Initialize_748;
procedure Initialize_749;
procedure Initialize_750;
procedure Initialize_751;
procedure Initialize_752;
procedure Initialize_753;
procedure Initialize_754;
procedure Initialize_755;
procedure Initialize_756;
procedure Initialize_757;
procedure Initialize_758;
procedure Initialize_759;
procedure Initialize_760;
procedure Initialize_761;
procedure Initialize_762;
procedure Initialize_763;
procedure Initialize_764;
procedure Initialize_765;
procedure Initialize_766;
procedure Initialize_767;
procedure Initialize_768;
procedure Initialize_769;
procedure Initialize_770;
procedure Initialize_771;
procedure Initialize_772;
procedure Initialize_773;
procedure Initialize_774;
procedure Initialize_775;
procedure Initialize_776;
procedure Initialize_777;
procedure Initialize_778;
procedure Initialize_779;
procedure Initialize_780;
procedure Initialize_781;
procedure Initialize_782;
procedure Initialize_783;
procedure Initialize_784;
procedure Initialize_785;
procedure Initialize_786;
procedure Initialize_787;
procedure Initialize_788;
procedure Initialize_789;
procedure Initialize_790;
procedure Initialize_791;
procedure Initialize_792;
procedure Initialize_793;
procedure Initialize_794;
procedure Initialize_795;
procedure Initialize_796;
procedure Initialize_797;
procedure Initialize_798;
procedure Initialize_799;
procedure Initialize_800;
end AMF.Internals.Tables.CMOF_Metamodel.Links;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
package AMF.Internals.Tables.CMOF_Metamodel.Links is
procedure Initialize;
private
procedure Initialize_1;
procedure Initialize_2;
procedure Initialize_3;
procedure Initialize_4;
procedure Initialize_5;
procedure Initialize_6;
procedure Initialize_7;
procedure Initialize_8;
procedure Initialize_9;
procedure Initialize_10;
procedure Initialize_11;
procedure Initialize_12;
procedure Initialize_13;
procedure Initialize_14;
procedure Initialize_15;
procedure Initialize_16;
procedure Initialize_17;
procedure Initialize_18;
procedure Initialize_19;
procedure Initialize_20;
procedure Initialize_21;
procedure Initialize_22;
procedure Initialize_23;
procedure Initialize_24;
procedure Initialize_25;
procedure Initialize_26;
procedure Initialize_27;
procedure Initialize_28;
procedure Initialize_29;
procedure Initialize_30;
procedure Initialize_31;
procedure Initialize_32;
procedure Initialize_33;
procedure Initialize_34;
procedure Initialize_35;
procedure Initialize_36;
procedure Initialize_37;
procedure Initialize_38;
procedure Initialize_39;
procedure Initialize_40;
procedure Initialize_41;
procedure Initialize_42;
procedure Initialize_43;
procedure Initialize_44;
procedure Initialize_45;
procedure Initialize_46;
procedure Initialize_47;
procedure Initialize_48;
procedure Initialize_49;
procedure Initialize_50;
procedure Initialize_51;
procedure Initialize_52;
procedure Initialize_53;
procedure Initialize_54;
procedure Initialize_55;
procedure Initialize_56;
procedure Initialize_57;
procedure Initialize_58;
procedure Initialize_59;
procedure Initialize_60;
procedure Initialize_61;
procedure Initialize_62;
procedure Initialize_63;
procedure Initialize_64;
procedure Initialize_65;
procedure Initialize_66;
procedure Initialize_67;
procedure Initialize_68;
procedure Initialize_69;
procedure Initialize_70;
procedure Initialize_71;
procedure Initialize_72;
procedure Initialize_73;
procedure Initialize_74;
procedure Initialize_75;
procedure Initialize_76;
procedure Initialize_77;
procedure Initialize_78;
procedure Initialize_79;
procedure Initialize_80;
procedure Initialize_81;
procedure Initialize_82;
procedure Initialize_83;
procedure Initialize_84;
procedure Initialize_85;
procedure Initialize_86;
procedure Initialize_87;
procedure Initialize_88;
procedure Initialize_89;
procedure Initialize_90;
procedure Initialize_91;
procedure Initialize_92;
procedure Initialize_93;
procedure Initialize_94;
procedure Initialize_95;
procedure Initialize_96;
procedure Initialize_97;
procedure Initialize_98;
procedure Initialize_99;
procedure Initialize_100;
procedure Initialize_101;
procedure Initialize_102;
procedure Initialize_103;
procedure Initialize_104;
procedure Initialize_105;
procedure Initialize_106;
procedure Initialize_107;
procedure Initialize_108;
procedure Initialize_109;
procedure Initialize_110;
procedure Initialize_111;
procedure Initialize_112;
procedure Initialize_113;
procedure Initialize_114;
procedure Initialize_115;
procedure Initialize_116;
procedure Initialize_117;
procedure Initialize_118;
procedure Initialize_119;
procedure Initialize_120;
procedure Initialize_121;
procedure Initialize_122;
procedure Initialize_123;
procedure Initialize_124;
procedure Initialize_125;
procedure Initialize_126;
procedure Initialize_127;
procedure Initialize_128;
procedure Initialize_129;
procedure Initialize_130;
procedure Initialize_131;
procedure Initialize_132;
procedure Initialize_133;
procedure Initialize_134;
procedure Initialize_135;
procedure Initialize_136;
procedure Initialize_137;
procedure Initialize_138;
procedure Initialize_139;
procedure Initialize_140;
procedure Initialize_141;
procedure Initialize_142;
procedure Initialize_143;
procedure Initialize_144;
procedure Initialize_145;
procedure Initialize_146;
procedure Initialize_147;
procedure Initialize_148;
procedure Initialize_149;
procedure Initialize_150;
procedure Initialize_151;
procedure Initialize_152;
procedure Initialize_153;
procedure Initialize_154;
procedure Initialize_155;
procedure Initialize_156;
procedure Initialize_157;
procedure Initialize_158;
procedure Initialize_159;
procedure Initialize_160;
procedure Initialize_161;
procedure Initialize_162;
procedure Initialize_163;
procedure Initialize_164;
procedure Initialize_165;
procedure Initialize_166;
procedure Initialize_167;
procedure Initialize_168;
procedure Initialize_169;
procedure Initialize_170;
procedure Initialize_171;
procedure Initialize_172;
procedure Initialize_173;
procedure Initialize_174;
procedure Initialize_175;
procedure Initialize_176;
procedure Initialize_177;
procedure Initialize_178;
procedure Initialize_179;
procedure Initialize_180;
procedure Initialize_181;
procedure Initialize_182;
procedure Initialize_183;
procedure Initialize_184;
procedure Initialize_185;
procedure Initialize_186;
procedure Initialize_187;
procedure Initialize_188;
procedure Initialize_189;
procedure Initialize_190;
procedure Initialize_191;
procedure Initialize_192;
procedure Initialize_193;
procedure Initialize_194;
procedure Initialize_195;
procedure Initialize_196;
procedure Initialize_197;
procedure Initialize_198;
procedure Initialize_199;
procedure Initialize_200;
procedure Initialize_201;
procedure Initialize_202;
procedure Initialize_203;
procedure Initialize_204;
procedure Initialize_205;
procedure Initialize_206;
procedure Initialize_207;
procedure Initialize_208;
procedure Initialize_209;
procedure Initialize_210;
procedure Initialize_211;
procedure Initialize_212;
procedure Initialize_213;
procedure Initialize_214;
procedure Initialize_215;
procedure Initialize_216;
procedure Initialize_217;
procedure Initialize_218;
procedure Initialize_219;
procedure Initialize_220;
procedure Initialize_221;
procedure Initialize_222;
procedure Initialize_223;
procedure Initialize_224;
procedure Initialize_225;
procedure Initialize_226;
procedure Initialize_227;
procedure Initialize_228;
procedure Initialize_229;
procedure Initialize_230;
procedure Initialize_231;
procedure Initialize_232;
procedure Initialize_233;
procedure Initialize_234;
procedure Initialize_235;
procedure Initialize_236;
procedure Initialize_237;
procedure Initialize_238;
procedure Initialize_239;
procedure Initialize_240;
procedure Initialize_241;
procedure Initialize_242;
procedure Initialize_243;
procedure Initialize_244;
procedure Initialize_245;
procedure Initialize_246;
procedure Initialize_247;
procedure Initialize_248;
procedure Initialize_249;
procedure Initialize_250;
procedure Initialize_251;
procedure Initialize_252;
procedure Initialize_253;
procedure Initialize_254;
procedure Initialize_255;
procedure Initialize_256;
procedure Initialize_257;
procedure Initialize_258;
procedure Initialize_259;
procedure Initialize_260;
procedure Initialize_261;
procedure Initialize_262;
procedure Initialize_263;
procedure Initialize_264;
procedure Initialize_265;
procedure Initialize_266;
procedure Initialize_267;
procedure Initialize_268;
procedure Initialize_269;
procedure Initialize_270;
procedure Initialize_271;
procedure Initialize_272;
procedure Initialize_273;
procedure Initialize_274;
procedure Initialize_275;
procedure Initialize_276;
procedure Initialize_277;
procedure Initialize_278;
procedure Initialize_279;
procedure Initialize_280;
procedure Initialize_281;
procedure Initialize_282;
procedure Initialize_283;
procedure Initialize_284;
procedure Initialize_285;
procedure Initialize_286;
procedure Initialize_287;
procedure Initialize_288;
procedure Initialize_289;
procedure Initialize_290;
procedure Initialize_291;
procedure Initialize_292;
procedure Initialize_293;
procedure Initialize_294;
procedure Initialize_295;
procedure Initialize_296;
procedure Initialize_297;
procedure Initialize_298;
procedure Initialize_299;
procedure Initialize_300;
procedure Initialize_301;
procedure Initialize_302;
procedure Initialize_303;
procedure Initialize_304;
procedure Initialize_305;
procedure Initialize_306;
procedure Initialize_307;
procedure Initialize_308;
procedure Initialize_309;
procedure Initialize_310;
procedure Initialize_311;
procedure Initialize_312;
procedure Initialize_313;
procedure Initialize_314;
procedure Initialize_315;
procedure Initialize_316;
procedure Initialize_317;
procedure Initialize_318;
procedure Initialize_319;
procedure Initialize_320;
procedure Initialize_321;
procedure Initialize_322;
procedure Initialize_323;
procedure Initialize_324;
procedure Initialize_325;
procedure Initialize_326;
procedure Initialize_327;
procedure Initialize_328;
procedure Initialize_329;
procedure Initialize_330;
procedure Initialize_331;
procedure Initialize_332;
procedure Initialize_333;
procedure Initialize_334;
procedure Initialize_335;
procedure Initialize_336;
procedure Initialize_337;
procedure Initialize_338;
procedure Initialize_339;
procedure Initialize_340;
procedure Initialize_341;
procedure Initialize_342;
procedure Initialize_343;
procedure Initialize_344;
procedure Initialize_345;
procedure Initialize_346;
procedure Initialize_347;
procedure Initialize_348;
procedure Initialize_349;
procedure Initialize_350;
procedure Initialize_351;
procedure Initialize_352;
procedure Initialize_353;
procedure Initialize_354;
procedure Initialize_355;
procedure Initialize_356;
procedure Initialize_357;
procedure Initialize_358;
procedure Initialize_359;
procedure Initialize_360;
procedure Initialize_361;
procedure Initialize_362;
procedure Initialize_363;
procedure Initialize_364;
procedure Initialize_365;
procedure Initialize_366;
procedure Initialize_367;
procedure Initialize_368;
procedure Initialize_369;
procedure Initialize_370;
procedure Initialize_371;
procedure Initialize_372;
procedure Initialize_373;
procedure Initialize_374;
procedure Initialize_375;
procedure Initialize_376;
procedure Initialize_377;
procedure Initialize_378;
procedure Initialize_379;
procedure Initialize_380;
procedure Initialize_381;
procedure Initialize_382;
procedure Initialize_383;
procedure Initialize_384;
procedure Initialize_385;
procedure Initialize_386;
procedure Initialize_387;
procedure Initialize_388;
procedure Initialize_389;
procedure Initialize_390;
procedure Initialize_391;
procedure Initialize_392;
procedure Initialize_393;
procedure Initialize_394;
procedure Initialize_395;
procedure Initialize_396;
procedure Initialize_397;
procedure Initialize_398;
procedure Initialize_399;
procedure Initialize_400;
procedure Initialize_401;
procedure Initialize_402;
procedure Initialize_403;
procedure Initialize_404;
procedure Initialize_405;
procedure Initialize_406;
procedure Initialize_407;
procedure Initialize_408;
procedure Initialize_409;
procedure Initialize_410;
procedure Initialize_411;
procedure Initialize_412;
procedure Initialize_413;
procedure Initialize_414;
procedure Initialize_415;
procedure Initialize_416;
procedure Initialize_417;
procedure Initialize_418;
procedure Initialize_419;
procedure Initialize_420;
procedure Initialize_421;
procedure Initialize_422;
procedure Initialize_423;
procedure Initialize_424;
procedure Initialize_425;
procedure Initialize_426;
procedure Initialize_427;
procedure Initialize_428;
procedure Initialize_429;
procedure Initialize_430;
procedure Initialize_431;
procedure Initialize_432;
procedure Initialize_433;
procedure Initialize_434;
procedure Initialize_435;
procedure Initialize_436;
procedure Initialize_437;
procedure Initialize_438;
procedure Initialize_439;
procedure Initialize_440;
procedure Initialize_441;
procedure Initialize_442;
procedure Initialize_443;
procedure Initialize_444;
procedure Initialize_445;
procedure Initialize_446;
procedure Initialize_447;
procedure Initialize_448;
procedure Initialize_449;
procedure Initialize_450;
procedure Initialize_451;
procedure Initialize_452;
procedure Initialize_453;
procedure Initialize_454;
procedure Initialize_455;
procedure Initialize_456;
procedure Initialize_457;
procedure Initialize_458;
procedure Initialize_459;
procedure Initialize_460;
procedure Initialize_461;
procedure Initialize_462;
procedure Initialize_463;
procedure Initialize_464;
procedure Initialize_465;
procedure Initialize_466;
procedure Initialize_467;
procedure Initialize_468;
procedure Initialize_469;
procedure Initialize_470;
procedure Initialize_471;
procedure Initialize_472;
procedure Initialize_473;
procedure Initialize_474;
procedure Initialize_475;
procedure Initialize_476;
procedure Initialize_477;
procedure Initialize_478;
procedure Initialize_479;
procedure Initialize_480;
procedure Initialize_481;
procedure Initialize_482;
procedure Initialize_483;
procedure Initialize_484;
procedure Initialize_485;
procedure Initialize_486;
procedure Initialize_487;
procedure Initialize_488;
procedure Initialize_489;
procedure Initialize_490;
procedure Initialize_491;
procedure Initialize_492;
procedure Initialize_493;
procedure Initialize_494;
procedure Initialize_495;
procedure Initialize_496;
procedure Initialize_497;
procedure Initialize_498;
procedure Initialize_499;
procedure Initialize_500;
procedure Initialize_501;
procedure Initialize_502;
procedure Initialize_503;
procedure Initialize_504;
procedure Initialize_505;
procedure Initialize_506;
procedure Initialize_507;
procedure Initialize_508;
procedure Initialize_509;
procedure Initialize_510;
procedure Initialize_511;
procedure Initialize_512;
procedure Initialize_513;
procedure Initialize_514;
procedure Initialize_515;
procedure Initialize_516;
procedure Initialize_517;
procedure Initialize_518;
procedure Initialize_519;
procedure Initialize_520;
procedure Initialize_521;
procedure Initialize_522;
procedure Initialize_523;
procedure Initialize_524;
procedure Initialize_525;
procedure Initialize_526;
procedure Initialize_527;
procedure Initialize_528;
procedure Initialize_529;
procedure Initialize_530;
procedure Initialize_531;
procedure Initialize_532;
procedure Initialize_533;
procedure Initialize_534;
procedure Initialize_535;
procedure Initialize_536;
procedure Initialize_537;
procedure Initialize_538;
procedure Initialize_539;
procedure Initialize_540;
procedure Initialize_541;
procedure Initialize_542;
procedure Initialize_543;
procedure Initialize_544;
procedure Initialize_545;
procedure Initialize_546;
procedure Initialize_547;
procedure Initialize_548;
procedure Initialize_549;
procedure Initialize_550;
procedure Initialize_551;
procedure Initialize_552;
procedure Initialize_553;
procedure Initialize_554;
procedure Initialize_555;
procedure Initialize_556;
procedure Initialize_557;
procedure Initialize_558;
procedure Initialize_559;
procedure Initialize_560;
procedure Initialize_561;
procedure Initialize_562;
procedure Initialize_563;
procedure Initialize_564;
procedure Initialize_565;
procedure Initialize_566;
procedure Initialize_567;
procedure Initialize_568;
procedure Initialize_569;
procedure Initialize_570;
procedure Initialize_571;
procedure Initialize_572;
procedure Initialize_573;
procedure Initialize_574;
procedure Initialize_575;
procedure Initialize_576;
procedure Initialize_577;
procedure Initialize_578;
procedure Initialize_579;
procedure Initialize_580;
procedure Initialize_581;
procedure Initialize_582;
procedure Initialize_583;
procedure Initialize_584;
procedure Initialize_585;
procedure Initialize_586;
procedure Initialize_587;
procedure Initialize_588;
procedure Initialize_589;
procedure Initialize_590;
procedure Initialize_591;
procedure Initialize_592;
procedure Initialize_593;
procedure Initialize_594;
procedure Initialize_595;
procedure Initialize_596;
procedure Initialize_597;
procedure Initialize_598;
procedure Initialize_599;
procedure Initialize_600;
procedure Initialize_601;
procedure Initialize_602;
procedure Initialize_603;
procedure Initialize_604;
procedure Initialize_605;
procedure Initialize_606;
procedure Initialize_607;
procedure Initialize_608;
procedure Initialize_609;
procedure Initialize_610;
procedure Initialize_611;
procedure Initialize_612;
procedure Initialize_613;
procedure Initialize_614;
procedure Initialize_615;
procedure Initialize_616;
procedure Initialize_617;
procedure Initialize_618;
procedure Initialize_619;
procedure Initialize_620;
procedure Initialize_621;
procedure Initialize_622;
procedure Initialize_623;
procedure Initialize_624;
procedure Initialize_625;
procedure Initialize_626;
procedure Initialize_627;
procedure Initialize_628;
procedure Initialize_629;
procedure Initialize_630;
procedure Initialize_631;
procedure Initialize_632;
procedure Initialize_633;
procedure Initialize_634;
procedure Initialize_635;
procedure Initialize_636;
procedure Initialize_637;
procedure Initialize_638;
procedure Initialize_639;
procedure Initialize_640;
procedure Initialize_641;
procedure Initialize_642;
procedure Initialize_643;
procedure Initialize_644;
procedure Initialize_645;
procedure Initialize_646;
procedure Initialize_647;
procedure Initialize_648;
procedure Initialize_649;
procedure Initialize_650;
procedure Initialize_651;
procedure Initialize_652;
procedure Initialize_653;
procedure Initialize_654;
procedure Initialize_655;
procedure Initialize_656;
procedure Initialize_657;
procedure Initialize_658;
procedure Initialize_659;
procedure Initialize_660;
procedure Initialize_661;
procedure Initialize_662;
procedure Initialize_663;
procedure Initialize_664;
procedure Initialize_665;
procedure Initialize_666;
procedure Initialize_667;
procedure Initialize_668;
procedure Initialize_669;
procedure Initialize_670;
procedure Initialize_671;
procedure Initialize_672;
procedure Initialize_673;
procedure Initialize_674;
procedure Initialize_675;
procedure Initialize_676;
procedure Initialize_677;
procedure Initialize_678;
procedure Initialize_679;
procedure Initialize_680;
procedure Initialize_681;
procedure Initialize_682;
procedure Initialize_683;
procedure Initialize_684;
procedure Initialize_685;
procedure Initialize_686;
procedure Initialize_687;
procedure Initialize_688;
procedure Initialize_689;
procedure Initialize_690;
procedure Initialize_691;
procedure Initialize_692;
procedure Initialize_693;
procedure Initialize_694;
procedure Initialize_695;
procedure Initialize_696;
procedure Initialize_697;
procedure Initialize_698;
procedure Initialize_699;
procedure Initialize_700;
procedure Initialize_701;
procedure Initialize_702;
procedure Initialize_703;
procedure Initialize_704;
procedure Initialize_705;
procedure Initialize_706;
procedure Initialize_707;
procedure Initialize_708;
procedure Initialize_709;
procedure Initialize_710;
procedure Initialize_711;
procedure Initialize_712;
procedure Initialize_713;
procedure Initialize_714;
procedure Initialize_715;
procedure Initialize_716;
procedure Initialize_717;
procedure Initialize_718;
procedure Initialize_719;
procedure Initialize_720;
procedure Initialize_721;
procedure Initialize_722;
procedure Initialize_723;
procedure Initialize_724;
procedure Initialize_725;
procedure Initialize_726;
procedure Initialize_727;
procedure Initialize_728;
procedure Initialize_729;
procedure Initialize_730;
procedure Initialize_731;
procedure Initialize_732;
procedure Initialize_733;
procedure Initialize_734;
procedure Initialize_735;
procedure Initialize_736;
procedure Initialize_737;
procedure Initialize_738;
procedure Initialize_739;
procedure Initialize_740;
procedure Initialize_741;
procedure Initialize_742;
procedure Initialize_743;
procedure Initialize_744;
procedure Initialize_745;
procedure Initialize_746;
procedure Initialize_747;
procedure Initialize_748;
procedure Initialize_749;
procedure Initialize_750;
procedure Initialize_751;
procedure Initialize_752;
procedure Initialize_753;
procedure Initialize_754;
procedure Initialize_755;
procedure Initialize_756;
procedure Initialize_757;
procedure Initialize_758;
procedure Initialize_759;
procedure Initialize_760;
procedure Initialize_761;
procedure Initialize_762;
procedure Initialize_763;
procedure Initialize_764;
procedure Initialize_765;
procedure Initialize_766;
procedure Initialize_767;
procedure Initialize_768;
procedure Initialize_769;
procedure Initialize_770;
procedure Initialize_771;
procedure Initialize_772;
procedure Initialize_773;
procedure Initialize_774;
procedure Initialize_775;
procedure Initialize_776;
procedure Initialize_777;
procedure Initialize_778;
procedure Initialize_779;
procedure Initialize_780;
procedure Initialize_781;
procedure Initialize_782;
procedure Initialize_783;
procedure Initialize_784;
procedure Initialize_785;
procedure Initialize_786;
procedure Initialize_787;
procedure Initialize_788;
procedure Initialize_789;
procedure Initialize_790;
procedure Initialize_791;
procedure Initialize_792;
procedure Initialize_793;
procedure Initialize_794;
procedure Initialize_795;
procedure Initialize_796;
procedure Initialize_797;
procedure Initialize_798;
procedure Initialize_799;
procedure Initialize_800;
end AMF.Internals.Tables.CMOF_Metamodel.Links;
|
[
{
"context": "e-Identifier: Apache-2.0\n--\n-- Copyright (c) 2014 Felix Krause <contact@flyx.org>\n-- Copyright (c) 2016 onox <d",
"end": 78,
"score": 0.9998365640640259,
"start": 66,
"tag": "NAME",
"value": "Felix Krause"
},
{
"context": "pache-2.0\n--\n-- Copyright (c) 2014 Felix Krause <contact@flyx.org>\n-- Copyright (c) 2016 onox <denkpadje@gmail.com",
"end": 96,
"score": 0.9999329447746277,
"start": 80,
"tag": "EMAIL",
"value": "contact@flyx.org"
},
{
"context": "x Krause <contact@flyx.org>\n-- Copyright (c) 2016 onox <denkpadje@gmail.com>\n--\n-- Licensed under the A",
"end": 125,
"score": 0.9325897097587585,
"start": 121,
"tag": "USERNAME",
"value": "onox"
},
{
"context": "e <contact@flyx.org>\n-- Copyright (c) 2016 onox <denkpadje@gmail.com>\n--\n-- Licensed under the Apache License, Versio",
"end": 146,
"score": 0.9999342560768127,
"start": 127,
"tag": "EMAIL",
"value": "denkpadje@gmail.com"
}
] | orka/src/gl/interface/gl-types-pointers.ads | onox/orka | 52 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2014 Felix Krause <contact@flyx.org>
-- Copyright (c) 2016 onox <denkpadje@gmail.com>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with Interfaces.C.Pointers;
package GL.Types.Pointers is
pragma Preelaborate;
-- Pointer types (for use with data transfer functions)
package Byte_Pointers is new Interfaces.C.Pointers
(Size, Byte, Byte_Array, Byte'Last);
package Short_Pointers is new Interfaces.C.Pointers
(Size, Short, Short_Array, Short'Last);
package Int_Pointers is new Interfaces.C.Pointers
(Size, Int, Int_Array, Int'Last);
package UByte_Pointers is new Interfaces.C.Pointers
(Size, UByte, UByte_Array, UByte'Last);
package UShort_Pointers is new Interfaces.C.Pointers
(Size, UShort, UShort_Array, UShort'Last);
package UInt_Pointers is new Interfaces.C.Pointers
(Size, UInt, UInt_Array, UInt'Last);
package Half_Pointers is new Interfaces.C.Pointers
(Size, Half, Half_Array, 0);
package Single_Pointers is new Interfaces.C.Pointers
(Size, Single, Single_Array, 0.0);
package Double_Pointers is new Interfaces.C.Pointers
(Size, Double, Double_Array, 0.0);
type String_Access is not null access constant String;
type String_Array is array (Positive range <>) of String_Access;
type UByte_Array_Access is access UByte_Array;
end GL.Types.Pointers;
| 15434 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2014 <NAME> <<EMAIL>>
-- Copyright (c) 2016 onox <<EMAIL>>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with Interfaces.C.Pointers;
package GL.Types.Pointers is
pragma Preelaborate;
-- Pointer types (for use with data transfer functions)
package Byte_Pointers is new Interfaces.C.Pointers
(Size, Byte, Byte_Array, Byte'Last);
package Short_Pointers is new Interfaces.C.Pointers
(Size, Short, Short_Array, Short'Last);
package Int_Pointers is new Interfaces.C.Pointers
(Size, Int, Int_Array, Int'Last);
package UByte_Pointers is new Interfaces.C.Pointers
(Size, UByte, UByte_Array, UByte'Last);
package UShort_Pointers is new Interfaces.C.Pointers
(Size, UShort, UShort_Array, UShort'Last);
package UInt_Pointers is new Interfaces.C.Pointers
(Size, UInt, UInt_Array, UInt'Last);
package Half_Pointers is new Interfaces.C.Pointers
(Size, Half, Half_Array, 0);
package Single_Pointers is new Interfaces.C.Pointers
(Size, Single, Single_Array, 0.0);
package Double_Pointers is new Interfaces.C.Pointers
(Size, Double, Double_Array, 0.0);
type String_Access is not null access constant String;
type String_Array is array (Positive range <>) of String_Access;
type UByte_Array_Access is access UByte_Array;
end GL.Types.Pointers;
| true | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2014 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- Copyright (c) 2016 onox <PI:EMAIL:<EMAIL>END_PI>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with Interfaces.C.Pointers;
package GL.Types.Pointers is
pragma Preelaborate;
-- Pointer types (for use with data transfer functions)
package Byte_Pointers is new Interfaces.C.Pointers
(Size, Byte, Byte_Array, Byte'Last);
package Short_Pointers is new Interfaces.C.Pointers
(Size, Short, Short_Array, Short'Last);
package Int_Pointers is new Interfaces.C.Pointers
(Size, Int, Int_Array, Int'Last);
package UByte_Pointers is new Interfaces.C.Pointers
(Size, UByte, UByte_Array, UByte'Last);
package UShort_Pointers is new Interfaces.C.Pointers
(Size, UShort, UShort_Array, UShort'Last);
package UInt_Pointers is new Interfaces.C.Pointers
(Size, UInt, UInt_Array, UInt'Last);
package Half_Pointers is new Interfaces.C.Pointers
(Size, Half, Half_Array, 0);
package Single_Pointers is new Interfaces.C.Pointers
(Size, Single, Single_Array, 0.0);
package Double_Pointers is new Interfaces.C.Pointers
(Size, Double, Double_Array, 0.0);
type String_Access is not null access constant String;
type String_Array is array (Positive range <>) of String_Access;
type UByte_Array_Access is access UByte_Array;
end GL.Types.Pointers;
|
[
{
"context": " password => password,\n get_new_",
"end": 4208,
"score": 0.9994070529937744,
"start": 4200,
"tag": "PASSWORD",
"value": "password"
},
{
"context": " get_new_password => null,\n hint ",
"end": 4278,
"score": 0.9854855537414551,
"start": 4274,
"tag": "PASSWORD",
"value": "null"
},
{
"context": " : String := \"\"; -- Decryption password\n Case_sensitive : Boole",
"end": 10112,
"score": 0.5880551934242249,
"start": 10104,
"tag": "PASSWORD",
"value": "password"
}
] | Sources/Globe_3d/unzip/unzip-streams.adb | ForYouEyesOnly/Space-Convoy | 1 | with Zip.Headers, UnZip.Decompress;
with Ada.Strings.Unbounded;
with Ada.Unchecked_Deallocation;
with Interfaces; use Interfaces;
package body UnZip.Streams is
procedure Dispose is new
Ada.Unchecked_Deallocation (String, p_String);
procedure Dispose is new
Ada.Unchecked_Deallocation (Ada.Streams.Stream_Element_Array,
p_Stream_Element_Array);
procedure Dispose is new
Ada.Unchecked_Deallocation (UnZip_Stream_Type,
Zipped_File_Type);
--------------------------------------------------
-- *The* internal 1 - file unzipping procedure. --
-- Input must be _open_ and won't be _closed_ ! --
--------------------------------------------------
procedure UnZipFile (zip_file : Zip_Streams.Zipstream_Class;
header_index : in out Ada.Streams.Stream_IO.Positive_Count;
mem_ptr : out p_Stream_Element_Array;
password : in out Ada.Strings.Unbounded.Unbounded_String;
hint_comp_size : File_size_type; -- Added 2007 for .ODS files
cat_uncomp_size : File_size_type) is
work_index : Ada.Streams.Stream_IO.Positive_Count := header_index;
local_header : Zip.Headers.Local_File_Header;
data_descriptor_present : Boolean;
encrypted : Boolean;
method : PKZip_method;
use Ada.Streams.Stream_IO, Zip, Zip_Streams;
begin
begin
Zip_Streams.Set_Index (zip_file, Positive (header_index));
declare
TempStream : constant Zipstream_Class := zip_file;
begin
Zip.Headers.Read_and_check (TempStream, local_header);
end;
exception
when Zip.Headers.bad_local_header =>
raise;
when others =>
raise Read_Error;
end;
method := Method_from_code (local_header.zip_type);
if method = unknown then
raise Unsupported_method;
end if;
-- calculate offset of data
work_index :=
work_index + Ada.Streams.Stream_IO.Count (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
);
data_descriptor_present := (local_header.bit_flag and 8) /= 0;
if data_descriptor_present then
-- Sizes and crc are after the data
local_header.dd.crc_32 := 0;
local_header.dd.uncompressed_size := cat_uncomp_size;
local_header.dd.compressed_size := hint_comp_size;
else
-- Sizes and crc are before the data
if cat_uncomp_size /= local_header.dd.uncompressed_size then
raise Uncompressed_size_Error;
end if;
end if;
encrypted := (local_header.bit_flag and 1) /= 0;
begin
Zip_Streams.Set_Index (zip_file, Positive (work_index)); -- eventually skips the file name
exception
when others => raise Read_Error;
end;
-- Unzip correct type
UnZip.Decompress.Decompress_data (
zip_file => zip_file,
format => method,
mode => write_to_memory,
output_file_name => "",
output_memory_access => mem_ptr,
feedback => null,
explode_literal_tree => (local_header.bit_flag and 4) /= 0,
explode_slide_8KB => (local_header.bit_flag and 2) /= 0,
end_data_descriptor => data_descriptor_present,
encrypted => encrypted,
password => password,
get_new_password => null,
hint => local_header.dd
);
-- Set the offset on the next zipped file
header_index := header_index +
Count (
File_size_type (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
) +
local_header.dd.compressed_size
);
if data_descriptor_present then
header_index := header_index + Count (Zip.Headers.data_descriptor_length);
end if;
end UnZipFile;
use Ada.Streams.Stream_IO;
procedure S_Extract (from : Zip.Zip_info;
Zip_Stream : Zip_Streams.Zipstream_Class;
what : String;
mem_ptr : out p_Stream_Element_Array;
Password : String;
Case_sensitive : Boolean) is
header_index : Positive_Count;
comp_size : File_size_type;
uncomp_size : File_size_type;
work_password : Ada.Strings.Unbounded.Unbounded_String :=
Ada.Strings.Unbounded.To_Unbounded_String (Password);
begin
Zip.Find_offset (from, what, Case_sensitive,
header_index,
comp_size,
uncomp_size);
UnZipFile (Zip_Stream,
header_index,
mem_ptr,
work_password,
comp_size,
uncomp_size);
pragma Unreferenced (header_index, work_password);
end S_Extract;
-------------------- for exportation:
procedure Close (File : in out Zipped_File_Type) is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
if File.all.delete_info_on_closing then
Zip.Delete (File.all.archive_info);
end if;
Dispose (File.all.file_name);
Dispose (File.all.Uncompressed);
Dispose (File);
File := null;
end Close;
function Is_Open (File : Zipped_File_Type) return Boolean is
(File /= null and then File.all.state /= uninitialized);
function End_Of_File (File : Zipped_File_Type) return Boolean is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
return File.all.state = end_of_zip;
end End_Of_File;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Info : Zip.Zip_info; -- loaded by Load_zip_info
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
use Zip_Streams, Ada.Streams;
MyStream : aliased File_Zipstream;
input_stream : Zipstream_Class;
use_a_file : constant Boolean := Zip.Zip_Stream (Archive_Info) = null;
begin
if File = null then
File := new UnZip_Stream_Type;
elsif File.all.state /= uninitialized then -- forgot to close last time!
raise Use_Error;
end if;
if use_a_file then
input_stream := MyStream'Unchecked_Access;
Set_Name (input_stream, Zip.Zip_name (Archive_Info));
Open (MyStream, Ada.Streams.Stream_IO.In_File);
else -- use the given stream
input_stream := Zip.Zip_Stream (Archive_Info);
end if;
--
File.all.archive_info := Archive_Info;
File.all.file_name := new String'(Name);
begin
S_Extract (
File.all.archive_info,
input_stream,
Name,
File.all.Uncompressed,
Password,
Case_sensitive
);
if use_a_file then
Close (MyStream);
end if;
exception
when others =>
if use_a_file then
Close (MyStream);
end if;
raise;
end;
File.all.index := File.all.Uncompressed'First;
File.all.state := data_uncompressed;
-- Bug fix for data of size 0 - 29 - Nov - 2002
if File.all.Uncompressed'Last < File.all.index then -- (1 .. 0) array
File.all.state := end_of_zip;
end if;
File.all.delete_info_on_closing := False; -- Close won't delete dir tree
-- Bug fix 1 - Mar - 2007 : False was set only at initialization
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Name : String; -- Name of archive file
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Name, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Stream : Zip_Streams.Zipstream_Class; -- Archive's stream
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Stream, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
------------------------------------------
-- Read procedure for Unzip_Stream_Type --
------------------------------------------
overriding procedure Read (UnZip_Stream : in out UnZip_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset) is
use Ada.Streams;
begin
if UnZip_Stream.state = uninitialized then
raise Use_Error;
end if;
if UnZip_Stream.state = end_of_zip then
-- Zero transfer - > Last := Item'First - 1, see RM 13.13.1 (8)
-- No End_Error here, T'Read will raise it : RM 13.13.2 (37)
if Item'First > Stream_Element_Offset'First then
Last := Item'First - 1;
return;
else
-- Well, we cannot return Item'First - 1 .. .
raise Constraint_Error; -- RM 13.13.1 (11) requires this.
end if;
end if;
if Item'Length = 0 then
-- Nothing to be read actually.
Last := Item'Last; -- this is < Item'First
return;
end if;
-- From now on, we can assume Item'Length > 0.
if UnZip_Stream.index + Item'Length <= UnZip_Stream.Uncompressed'Last then
-- * Normal case : even after reading, the index will be in the range
Last := Item'Last;
Item :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.index + Item'Length - 1);
UnZip_Stream.index := UnZip_Stream.index + Item'Length;
-- Now : Stream.index <= Stream.uncompressed'Last,
-- then at least one element is left to be read, end_of_zip not possible
else
-- * Special case : we exhaust the buffer
Last := Item'First + (UnZip_Stream.Uncompressed'Last - UnZip_Stream.index);
Item (Item'First .. Last) :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.Uncompressed'Last);
UnZip_Stream.state := end_of_zip;
-- If Last < Item'Last, the T'Read attribute raises End_Error
-- because of the incomplete reading.
end if;
end Read;
function Stream (File : Zipped_File_Type) return Stream_Access is (Stream_Access (File));
overriding procedure Write (UnZip_Stream : in out UnZip_Stream_Type;
Item : Ada.Streams.Stream_Element_Array) is
write_not_supported : exception;
begin
raise write_not_supported;
end Write;
end UnZip.Streams;
| 11413 | with Zip.Headers, UnZip.Decompress;
with Ada.Strings.Unbounded;
with Ada.Unchecked_Deallocation;
with Interfaces; use Interfaces;
package body UnZip.Streams is
procedure Dispose is new
Ada.Unchecked_Deallocation (String, p_String);
procedure Dispose is new
Ada.Unchecked_Deallocation (Ada.Streams.Stream_Element_Array,
p_Stream_Element_Array);
procedure Dispose is new
Ada.Unchecked_Deallocation (UnZip_Stream_Type,
Zipped_File_Type);
--------------------------------------------------
-- *The* internal 1 - file unzipping procedure. --
-- Input must be _open_ and won't be _closed_ ! --
--------------------------------------------------
procedure UnZipFile (zip_file : Zip_Streams.Zipstream_Class;
header_index : in out Ada.Streams.Stream_IO.Positive_Count;
mem_ptr : out p_Stream_Element_Array;
password : in out Ada.Strings.Unbounded.Unbounded_String;
hint_comp_size : File_size_type; -- Added 2007 for .ODS files
cat_uncomp_size : File_size_type) is
work_index : Ada.Streams.Stream_IO.Positive_Count := header_index;
local_header : Zip.Headers.Local_File_Header;
data_descriptor_present : Boolean;
encrypted : Boolean;
method : PKZip_method;
use Ada.Streams.Stream_IO, Zip, Zip_Streams;
begin
begin
Zip_Streams.Set_Index (zip_file, Positive (header_index));
declare
TempStream : constant Zipstream_Class := zip_file;
begin
Zip.Headers.Read_and_check (TempStream, local_header);
end;
exception
when Zip.Headers.bad_local_header =>
raise;
when others =>
raise Read_Error;
end;
method := Method_from_code (local_header.zip_type);
if method = unknown then
raise Unsupported_method;
end if;
-- calculate offset of data
work_index :=
work_index + Ada.Streams.Stream_IO.Count (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
);
data_descriptor_present := (local_header.bit_flag and 8) /= 0;
if data_descriptor_present then
-- Sizes and crc are after the data
local_header.dd.crc_32 := 0;
local_header.dd.uncompressed_size := cat_uncomp_size;
local_header.dd.compressed_size := hint_comp_size;
else
-- Sizes and crc are before the data
if cat_uncomp_size /= local_header.dd.uncompressed_size then
raise Uncompressed_size_Error;
end if;
end if;
encrypted := (local_header.bit_flag and 1) /= 0;
begin
Zip_Streams.Set_Index (zip_file, Positive (work_index)); -- eventually skips the file name
exception
when others => raise Read_Error;
end;
-- Unzip correct type
UnZip.Decompress.Decompress_data (
zip_file => zip_file,
format => method,
mode => write_to_memory,
output_file_name => "",
output_memory_access => mem_ptr,
feedback => null,
explode_literal_tree => (local_header.bit_flag and 4) /= 0,
explode_slide_8KB => (local_header.bit_flag and 2) /= 0,
end_data_descriptor => data_descriptor_present,
encrypted => encrypted,
password => <PASSWORD>,
get_new_password => <PASSWORD>,
hint => local_header.dd
);
-- Set the offset on the next zipped file
header_index := header_index +
Count (
File_size_type (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
) +
local_header.dd.compressed_size
);
if data_descriptor_present then
header_index := header_index + Count (Zip.Headers.data_descriptor_length);
end if;
end UnZipFile;
use Ada.Streams.Stream_IO;
procedure S_Extract (from : Zip.Zip_info;
Zip_Stream : Zip_Streams.Zipstream_Class;
what : String;
mem_ptr : out p_Stream_Element_Array;
Password : String;
Case_sensitive : Boolean) is
header_index : Positive_Count;
comp_size : File_size_type;
uncomp_size : File_size_type;
work_password : Ada.Strings.Unbounded.Unbounded_String :=
Ada.Strings.Unbounded.To_Unbounded_String (Password);
begin
Zip.Find_offset (from, what, Case_sensitive,
header_index,
comp_size,
uncomp_size);
UnZipFile (Zip_Stream,
header_index,
mem_ptr,
work_password,
comp_size,
uncomp_size);
pragma Unreferenced (header_index, work_password);
end S_Extract;
-------------------- for exportation:
procedure Close (File : in out Zipped_File_Type) is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
if File.all.delete_info_on_closing then
Zip.Delete (File.all.archive_info);
end if;
Dispose (File.all.file_name);
Dispose (File.all.Uncompressed);
Dispose (File);
File := null;
end Close;
function Is_Open (File : Zipped_File_Type) return Boolean is
(File /= null and then File.all.state /= uninitialized);
function End_Of_File (File : Zipped_File_Type) return Boolean is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
return File.all.state = end_of_zip;
end End_Of_File;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Info : Zip.Zip_info; -- loaded by Load_zip_info
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
use Zip_Streams, Ada.Streams;
MyStream : aliased File_Zipstream;
input_stream : Zipstream_Class;
use_a_file : constant Boolean := Zip.Zip_Stream (Archive_Info) = null;
begin
if File = null then
File := new UnZip_Stream_Type;
elsif File.all.state /= uninitialized then -- forgot to close last time!
raise Use_Error;
end if;
if use_a_file then
input_stream := MyStream'Unchecked_Access;
Set_Name (input_stream, Zip.Zip_name (Archive_Info));
Open (MyStream, Ada.Streams.Stream_IO.In_File);
else -- use the given stream
input_stream := Zip.Zip_Stream (Archive_Info);
end if;
--
File.all.archive_info := Archive_Info;
File.all.file_name := new String'(Name);
begin
S_Extract (
File.all.archive_info,
input_stream,
Name,
File.all.Uncompressed,
Password,
Case_sensitive
);
if use_a_file then
Close (MyStream);
end if;
exception
when others =>
if use_a_file then
Close (MyStream);
end if;
raise;
end;
File.all.index := File.all.Uncompressed'First;
File.all.state := data_uncompressed;
-- Bug fix for data of size 0 - 29 - Nov - 2002
if File.all.Uncompressed'Last < File.all.index then -- (1 .. 0) array
File.all.state := end_of_zip;
end if;
File.all.delete_info_on_closing := False; -- Close won't delete dir tree
-- Bug fix 1 - Mar - 2007 : False was set only at initialization
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Name : String; -- Name of archive file
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Name, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Stream : Zip_Streams.Zipstream_Class; -- Archive's stream
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption <PASSWORD>
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Stream, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
------------------------------------------
-- Read procedure for Unzip_Stream_Type --
------------------------------------------
overriding procedure Read (UnZip_Stream : in out UnZip_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset) is
use Ada.Streams;
begin
if UnZip_Stream.state = uninitialized then
raise Use_Error;
end if;
if UnZip_Stream.state = end_of_zip then
-- Zero transfer - > Last := Item'First - 1, see RM 13.13.1 (8)
-- No End_Error here, T'Read will raise it : RM 13.13.2 (37)
if Item'First > Stream_Element_Offset'First then
Last := Item'First - 1;
return;
else
-- Well, we cannot return Item'First - 1 .. .
raise Constraint_Error; -- RM 13.13.1 (11) requires this.
end if;
end if;
if Item'Length = 0 then
-- Nothing to be read actually.
Last := Item'Last; -- this is < Item'First
return;
end if;
-- From now on, we can assume Item'Length > 0.
if UnZip_Stream.index + Item'Length <= UnZip_Stream.Uncompressed'Last then
-- * Normal case : even after reading, the index will be in the range
Last := Item'Last;
Item :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.index + Item'Length - 1);
UnZip_Stream.index := UnZip_Stream.index + Item'Length;
-- Now : Stream.index <= Stream.uncompressed'Last,
-- then at least one element is left to be read, end_of_zip not possible
else
-- * Special case : we exhaust the buffer
Last := Item'First + (UnZip_Stream.Uncompressed'Last - UnZip_Stream.index);
Item (Item'First .. Last) :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.Uncompressed'Last);
UnZip_Stream.state := end_of_zip;
-- If Last < Item'Last, the T'Read attribute raises End_Error
-- because of the incomplete reading.
end if;
end Read;
function Stream (File : Zipped_File_Type) return Stream_Access is (Stream_Access (File));
overriding procedure Write (UnZip_Stream : in out UnZip_Stream_Type;
Item : Ada.Streams.Stream_Element_Array) is
write_not_supported : exception;
begin
raise write_not_supported;
end Write;
end UnZip.Streams;
| true | with Zip.Headers, UnZip.Decompress;
with Ada.Strings.Unbounded;
with Ada.Unchecked_Deallocation;
with Interfaces; use Interfaces;
package body UnZip.Streams is
procedure Dispose is new
Ada.Unchecked_Deallocation (String, p_String);
procedure Dispose is new
Ada.Unchecked_Deallocation (Ada.Streams.Stream_Element_Array,
p_Stream_Element_Array);
procedure Dispose is new
Ada.Unchecked_Deallocation (UnZip_Stream_Type,
Zipped_File_Type);
--------------------------------------------------
-- *The* internal 1 - file unzipping procedure. --
-- Input must be _open_ and won't be _closed_ ! --
--------------------------------------------------
procedure UnZipFile (zip_file : Zip_Streams.Zipstream_Class;
header_index : in out Ada.Streams.Stream_IO.Positive_Count;
mem_ptr : out p_Stream_Element_Array;
password : in out Ada.Strings.Unbounded.Unbounded_String;
hint_comp_size : File_size_type; -- Added 2007 for .ODS files
cat_uncomp_size : File_size_type) is
work_index : Ada.Streams.Stream_IO.Positive_Count := header_index;
local_header : Zip.Headers.Local_File_Header;
data_descriptor_present : Boolean;
encrypted : Boolean;
method : PKZip_method;
use Ada.Streams.Stream_IO, Zip, Zip_Streams;
begin
begin
Zip_Streams.Set_Index (zip_file, Positive (header_index));
declare
TempStream : constant Zipstream_Class := zip_file;
begin
Zip.Headers.Read_and_check (TempStream, local_header);
end;
exception
when Zip.Headers.bad_local_header =>
raise;
when others =>
raise Read_Error;
end;
method := Method_from_code (local_header.zip_type);
if method = unknown then
raise Unsupported_method;
end if;
-- calculate offset of data
work_index :=
work_index + Ada.Streams.Stream_IO.Count (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
);
data_descriptor_present := (local_header.bit_flag and 8) /= 0;
if data_descriptor_present then
-- Sizes and crc are after the data
local_header.dd.crc_32 := 0;
local_header.dd.uncompressed_size := cat_uncomp_size;
local_header.dd.compressed_size := hint_comp_size;
else
-- Sizes and crc are before the data
if cat_uncomp_size /= local_header.dd.uncompressed_size then
raise Uncompressed_size_Error;
end if;
end if;
encrypted := (local_header.bit_flag and 1) /= 0;
begin
Zip_Streams.Set_Index (zip_file, Positive (work_index)); -- eventually skips the file name
exception
when others => raise Read_Error;
end;
-- Unzip correct type
UnZip.Decompress.Decompress_data (
zip_file => zip_file,
format => method,
mode => write_to_memory,
output_file_name => "",
output_memory_access => mem_ptr,
feedback => null,
explode_literal_tree => (local_header.bit_flag and 4) /= 0,
explode_slide_8KB => (local_header.bit_flag and 2) /= 0,
end_data_descriptor => data_descriptor_present,
encrypted => encrypted,
password => PI:PASSWORD:<PASSWORD>END_PI,
get_new_password => PI:PASSWORD:<PASSWORD>END_PI,
hint => local_header.dd
);
-- Set the offset on the next zipped file
header_index := header_index +
Count (
File_size_type (
local_header.filename_length +
local_header.extra_field_length +
Zip.Headers.local_header_length
) +
local_header.dd.compressed_size
);
if data_descriptor_present then
header_index := header_index + Count (Zip.Headers.data_descriptor_length);
end if;
end UnZipFile;
use Ada.Streams.Stream_IO;
procedure S_Extract (from : Zip.Zip_info;
Zip_Stream : Zip_Streams.Zipstream_Class;
what : String;
mem_ptr : out p_Stream_Element_Array;
Password : String;
Case_sensitive : Boolean) is
header_index : Positive_Count;
comp_size : File_size_type;
uncomp_size : File_size_type;
work_password : Ada.Strings.Unbounded.Unbounded_String :=
Ada.Strings.Unbounded.To_Unbounded_String (Password);
begin
Zip.Find_offset (from, what, Case_sensitive,
header_index,
comp_size,
uncomp_size);
UnZipFile (Zip_Stream,
header_index,
mem_ptr,
work_password,
comp_size,
uncomp_size);
pragma Unreferenced (header_index, work_password);
end S_Extract;
-------------------- for exportation:
procedure Close (File : in out Zipped_File_Type) is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
if File.all.delete_info_on_closing then
Zip.Delete (File.all.archive_info);
end if;
Dispose (File.all.file_name);
Dispose (File.all.Uncompressed);
Dispose (File);
File := null;
end Close;
function Is_Open (File : Zipped_File_Type) return Boolean is
(File /= null and then File.all.state /= uninitialized);
function End_Of_File (File : Zipped_File_Type) return Boolean is
begin
if File = null or else File.all.state = uninitialized then
raise Use_Error;
end if;
return File.all.state = end_of_zip;
end End_Of_File;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Info : Zip.Zip_info; -- loaded by Load_zip_info
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
use Zip_Streams, Ada.Streams;
MyStream : aliased File_Zipstream;
input_stream : Zipstream_Class;
use_a_file : constant Boolean := Zip.Zip_Stream (Archive_Info) = null;
begin
if File = null then
File := new UnZip_Stream_Type;
elsif File.all.state /= uninitialized then -- forgot to close last time!
raise Use_Error;
end if;
if use_a_file then
input_stream := MyStream'Unchecked_Access;
Set_Name (input_stream, Zip.Zip_name (Archive_Info));
Open (MyStream, Ada.Streams.Stream_IO.In_File);
else -- use the given stream
input_stream := Zip.Zip_Stream (Archive_Info);
end if;
--
File.all.archive_info := Archive_Info;
File.all.file_name := new String'(Name);
begin
S_Extract (
File.all.archive_info,
input_stream,
Name,
File.all.Uncompressed,
Password,
Case_sensitive
);
if use_a_file then
Close (MyStream);
end if;
exception
when others =>
if use_a_file then
Close (MyStream);
end if;
raise;
end;
File.all.index := File.all.Uncompressed'First;
File.all.state := data_uncompressed;
-- Bug fix for data of size 0 - 29 - Nov - 2002
if File.all.Uncompressed'Last < File.all.index then -- (1 .. 0) array
File.all.state := end_of_zip;
end if;
File.all.delete_info_on_closing := False; -- Close won't delete dir tree
-- Bug fix 1 - Mar - 2007 : False was set only at initialization
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Name : String; -- Name of archive file
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption password
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Name, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
procedure Open (File : in out Zipped_File_Type; -- File - in - archive handle
Archive_Stream : Zip_Streams.Zipstream_Class; -- Archive's stream
Name : String; -- Name of zipped entry
Password : String := ""; -- Decryption PI:PASSWORD:<PASSWORD>END_PI
Case_sensitive : Boolean := False) is
temp_info : Zip.Zip_info;
-- this local record (but not the full tree) is copied by Open ( .. )
begin
Zip.Load (temp_info, Archive_Stream, Case_sensitive);
Open (File, temp_info, Name, Password, Case_sensitive);
File.all.delete_info_on_closing := True; -- Close will delete temp. dir tree
end Open;
------------------------------------------
-- Read procedure for Unzip_Stream_Type --
------------------------------------------
overriding procedure Read (UnZip_Stream : in out UnZip_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset) is
use Ada.Streams;
begin
if UnZip_Stream.state = uninitialized then
raise Use_Error;
end if;
if UnZip_Stream.state = end_of_zip then
-- Zero transfer - > Last := Item'First - 1, see RM 13.13.1 (8)
-- No End_Error here, T'Read will raise it : RM 13.13.2 (37)
if Item'First > Stream_Element_Offset'First then
Last := Item'First - 1;
return;
else
-- Well, we cannot return Item'First - 1 .. .
raise Constraint_Error; -- RM 13.13.1 (11) requires this.
end if;
end if;
if Item'Length = 0 then
-- Nothing to be read actually.
Last := Item'Last; -- this is < Item'First
return;
end if;
-- From now on, we can assume Item'Length > 0.
if UnZip_Stream.index + Item'Length <= UnZip_Stream.Uncompressed'Last then
-- * Normal case : even after reading, the index will be in the range
Last := Item'Last;
Item :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.index + Item'Length - 1);
UnZip_Stream.index := UnZip_Stream.index + Item'Length;
-- Now : Stream.index <= Stream.uncompressed'Last,
-- then at least one element is left to be read, end_of_zip not possible
else
-- * Special case : we exhaust the buffer
Last := Item'First + (UnZip_Stream.Uncompressed'Last - UnZip_Stream.index);
Item (Item'First .. Last) :=
UnZip_Stream.Uncompressed.all (UnZip_Stream.index .. UnZip_Stream.Uncompressed'Last);
UnZip_Stream.state := end_of_zip;
-- If Last < Item'Last, the T'Read attribute raises End_Error
-- because of the incomplete reading.
end if;
end Read;
function Stream (File : Zipped_File_Type) return Stream_Access is (Stream_Access (File));
overriding procedure Write (UnZip_Stream : in out UnZip_Stream_Type;
Item : Ada.Streams.Stream_Element_Array) is
write_not_supported : exception;
begin
raise write_not_supported;
end Write;
end UnZip.Streams;
|
[
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- Al",
"end": 824,
"score": 0.9998922944068909,
"start": 811,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 844,
"score": 0.9999322891235352,
"start": 826,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
},
{
"context": " --\n-- * Neither the name of the Vadim Godunko, IE nor the names of its --\n-- contribu",
"end": 1939,
"score": 0.9913537502288818,
"start": 1926,
"tag": "NAME",
"value": "Vadim Godunko"
}
] | source/xml/sax/matreshka-internals-sax_locators.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides abstract root type to implement SAX Locator for the
-- specific reader. XML.SAX.Locators.SAX_Locator provides capability to wrap
-- reader specific locator and to access its attributes.
--
-- For perforamnce reasons, internal locator provides trampoline to access
-- reader's internal data structures, thus locator should not be updated
-- each time when user callback is called.
------------------------------------------------------------------------------
with League.IRIs;
with League.Strings;
with Matreshka.Atomics.Counters;
package Matreshka.Internals.SAX_Locators is
pragma Preelaborate;
type Shared_Abstract_Locator is abstract tagged limited record
Counter : Matreshka.Atomics.Counters.Counter;
end record;
not overriding function Line
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Column
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Encoding
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Version
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Public_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function System_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Base_URI
(Self : not null access constant Shared_Abstract_Locator)
return League.IRIs.IRI is abstract;
type Shared_Locator_Access is access all Shared_Abstract_Locator'Class;
procedure Reference (Self : not null Shared_Locator_Access);
pragma Inline (Reference);
procedure Dereference (Self : in out Shared_Locator_Access);
end Matreshka.Internals.SAX_Locators;
| 15044 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the <NAME>, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides abstract root type to implement SAX Locator for the
-- specific reader. XML.SAX.Locators.SAX_Locator provides capability to wrap
-- reader specific locator and to access its attributes.
--
-- For perforamnce reasons, internal locator provides trampoline to access
-- reader's internal data structures, thus locator should not be updated
-- each time when user callback is called.
------------------------------------------------------------------------------
with League.IRIs;
with League.Strings;
with Matreshka.Atomics.Counters;
package Matreshka.Internals.SAX_Locators is
pragma Preelaborate;
type Shared_Abstract_Locator is abstract tagged limited record
Counter : Matreshka.Atomics.Counters.Counter;
end record;
not overriding function Line
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Column
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Encoding
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Version
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Public_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function System_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Base_URI
(Self : not null access constant Shared_Abstract_Locator)
return League.IRIs.IRI is abstract;
type Shared_Locator_Access is access all Shared_Abstract_Locator'Class;
procedure Reference (Self : not null Shared_Locator_Access);
pragma Inline (Reference);
procedure Dereference (Self : in out Shared_Locator_Access);
end Matreshka.Internals.SAX_Locators;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the PI:NAME:<NAME>END_PI, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides abstract root type to implement SAX Locator for the
-- specific reader. XML.SAX.Locators.SAX_Locator provides capability to wrap
-- reader specific locator and to access its attributes.
--
-- For perforamnce reasons, internal locator provides trampoline to access
-- reader's internal data structures, thus locator should not be updated
-- each time when user callback is called.
------------------------------------------------------------------------------
with League.IRIs;
with League.Strings;
with Matreshka.Atomics.Counters;
package Matreshka.Internals.SAX_Locators is
pragma Preelaborate;
type Shared_Abstract_Locator is abstract tagged limited record
Counter : Matreshka.Atomics.Counters.Counter;
end record;
not overriding function Line
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Column
(Self : not null access constant Shared_Abstract_Locator)
return Natural is abstract;
not overriding function Encoding
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Version
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Public_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function System_Id
(Self : not null access constant Shared_Abstract_Locator)
return League.Strings.Universal_String is abstract;
not overriding function Base_URI
(Self : not null access constant Shared_Abstract_Locator)
return League.IRIs.IRI is abstract;
type Shared_Locator_Access is access all Shared_Abstract_Locator'Class;
procedure Reference (Self : not null Shared_Locator_Access);
pragma Inline (Reference);
procedure Dereference (Self : in out Shared_Locator_Access);
end Matreshka.Internals.SAX_Locators;
|
[
{
"context": "--\n-- Copyright (c) 2015, John Leimon <jleimon@gmail.com>\n--\n-- Permission to use, cop",
"end": 38,
"score": 0.9998034834861755,
"start": 27,
"tag": "NAME",
"value": "John Leimon"
},
{
"context": "--\n-- Copyright (c) 2015, John Leimon <jleimon@gmail.com>\n--\n-- Permission to use, copy, modify, and/or d",
"end": 57,
"score": 0.9999263882637024,
"start": 40,
"tag": "EMAIL",
"value": "jleimon@gmail.com"
}
] | pixy/src/host/pantilt_in_ada/specs/xlocale_h.ads | GambuzX/Pixy-SIW | 1 | --
-- Copyright (c) 2015, John Leimon <jleimon@gmail.com>
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above copyright
-- notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD
-- TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN
-- NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
-- CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
-- PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
-- ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
pragma Ada_2005;
pragma Style_Checks (Off);
with Interfaces.C; use Interfaces.C;
with System;
with Interfaces.C.Strings;
package xlocale_h is
type uu_locale_struct_uu_locales_array is array (0 .. 12) of System.Address;
type uu_locale_struct_uu_names_array is array (0 .. 12) of Interfaces.C.Strings.chars_ptr;
type uu_locale_struct is record
uu_locales : aliased uu_locale_struct_uu_locales_array; -- /usr/include/xlocale.h:30
uu_ctype_b : access unsigned_short; -- /usr/include/xlocale.h:33
uu_ctype_tolower : access int; -- /usr/include/xlocale.h:34
uu_ctype_toupper : access int; -- /usr/include/xlocale.h:35
uu_names : aliased uu_locale_struct_uu_names_array; -- /usr/include/xlocale.h:38
end record;
pragma Convention (C_Pass_By_Copy, uu_locale_struct); -- /usr/include/xlocale.h:27
-- skipped empty struct uu_locale_data
type uu_locale_t is access all uu_locale_struct; -- /usr/include/xlocale.h:39
subtype locale_t is uu_locale_t; -- /usr/include/xlocale.h:42
end xlocale_h;
| 2929 | --
-- Copyright (c) 2015, <NAME> <<EMAIL>>
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above copyright
-- notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD
-- TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN
-- NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
-- CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
-- PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
-- ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
pragma Ada_2005;
pragma Style_Checks (Off);
with Interfaces.C; use Interfaces.C;
with System;
with Interfaces.C.Strings;
package xlocale_h is
type uu_locale_struct_uu_locales_array is array (0 .. 12) of System.Address;
type uu_locale_struct_uu_names_array is array (0 .. 12) of Interfaces.C.Strings.chars_ptr;
type uu_locale_struct is record
uu_locales : aliased uu_locale_struct_uu_locales_array; -- /usr/include/xlocale.h:30
uu_ctype_b : access unsigned_short; -- /usr/include/xlocale.h:33
uu_ctype_tolower : access int; -- /usr/include/xlocale.h:34
uu_ctype_toupper : access int; -- /usr/include/xlocale.h:35
uu_names : aliased uu_locale_struct_uu_names_array; -- /usr/include/xlocale.h:38
end record;
pragma Convention (C_Pass_By_Copy, uu_locale_struct); -- /usr/include/xlocale.h:27
-- skipped empty struct uu_locale_data
type uu_locale_t is access all uu_locale_struct; -- /usr/include/xlocale.h:39
subtype locale_t is uu_locale_t; -- /usr/include/xlocale.h:42
end xlocale_h;
| true | --
-- Copyright (c) 2015, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above copyright
-- notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD
-- TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN
-- NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
-- CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
-- PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
-- ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
pragma Ada_2005;
pragma Style_Checks (Off);
with Interfaces.C; use Interfaces.C;
with System;
with Interfaces.C.Strings;
package xlocale_h is
type uu_locale_struct_uu_locales_array is array (0 .. 12) of System.Address;
type uu_locale_struct_uu_names_array is array (0 .. 12) of Interfaces.C.Strings.chars_ptr;
type uu_locale_struct is record
uu_locales : aliased uu_locale_struct_uu_locales_array; -- /usr/include/xlocale.h:30
uu_ctype_b : access unsigned_short; -- /usr/include/xlocale.h:33
uu_ctype_tolower : access int; -- /usr/include/xlocale.h:34
uu_ctype_toupper : access int; -- /usr/include/xlocale.h:35
uu_names : aliased uu_locale_struct_uu_names_array; -- /usr/include/xlocale.h:38
end record;
pragma Convention (C_Pass_By_Copy, uu_locale_struct); -- /usr/include/xlocale.h:27
-- skipped empty struct uu_locale_data
type uu_locale_t is access all uu_locale_struct; -- /usr/include/xlocale.h:39
subtype locale_t is uu_locale_t; -- /usr/include/xlocale.h:42
end xlocale_h;
|
[
{
"context": "--------------------------------\n-- Copyright 2020 Thomas E. Dickey --\n-- Co",
"end": 745,
"score": 0.9998735785484314,
"start": 729,
"tag": "NAME",
"value": "Thomas E. Dickey"
},
{
"context": "--------------------------------------\n-- Author: Eugene V. Melaragno <aldomel@ix.netcom.com> 2000\n-- Version Control\n",
"end": 2875,
"score": 0.9998849034309387,
"start": 2856,
"tag": "NAME",
"value": "Eugene V. Melaragno"
},
{
"context": "----------------\n-- Author: Eugene V. Melaragno <aldomel@ix.netcom.com> 2000\n-- Version Control\n-- $Revision: 1.8 $\n--",
"end": 2898,
"score": 0.9999329447746277,
"start": 2877,
"tag": "EMAIL",
"value": "aldomel@ix.netcom.com"
}
] | Ada95/samples/ncurses2-overlap_test.adb | ProtonAOSP-platina/android_external_libncurses | 1 | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding Samples --
-- --
-- ncurses --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 Thomas E. Dickey --
-- Copyright 2000-2014,2015 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: Eugene V. Melaragno <aldomel@ix.netcom.com> 2000
-- Version Control
-- $Revision: 1.8 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
with ncurses2.util; use ncurses2.util;
with Terminal_Interface.Curses; use Terminal_Interface.Curses;
-- test effects of overlapping windows
procedure ncurses2.overlap_test is
procedure fillwin (win : Window; ch : Character);
procedure crosswin (win : Window; ch : Character);
procedure fillwin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
Move_Cursor (win, y, 0);
for x in 0 .. x1 - 1 loop
Add (win, Ch => ch);
end loop;
end loop;
exception
when Curses_Exception => null;
-- write to lower right corner
end fillwin;
procedure crosswin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
for x in 0 .. x1 - 1 loop
if ((x > (x1 - 1) / 3) and (x <= (2 * (x1 - 1)) / 3)) or
(((y > (y1 - 1) / 3) and (y <= (2 * (y1 - 1)) / 3)))
then
Move_Cursor (win, y, x);
Add (win, Ch => ch);
end if;
end loop;
end loop;
end crosswin;
-- In a 24x80 screen like some xterms are, the instructions will
-- be overwritten.
ch : Character;
win1 : Window := New_Window (9, 20, 3, 3);
win2 : Window := New_Window (9, 20, 9, 16);
begin
Set_Raw_Mode (SwitchOn => True);
Refresh;
Move_Cursor (Line => 0, Column => 0);
Add (Str => "This test shows the behavior of wnoutrefresh() with " &
"respect to");
Add (Ch => newl);
Add (Str => "the shared region of two overlapping windows A and B. " &
"The cross");
Add (Ch => newl);
Add (Str => "pattern in each window does not overlap the other.");
Add (Ch => newl);
Move_Cursor (Line => 18, Column => 0);
Add (Str => "a = refresh A, then B, then doupdate. b = refresh B, " &
"then A, then doupdate");
Add (Ch => newl);
Add (Str => "c = fill window A with letter A. d = fill window B " &
"with letter B.");
Add (Ch => newl);
Add (Str => "e = cross pattern in window A. f = cross pattern " &
"in window B.");
Add (Ch => newl);
Add (Str => "g = clear window A. h = clear window B.");
Add (Ch => newl);
Add (Str => "i = overwrite A onto B. j = overwrite " &
"B onto A.");
Add (Ch => newl);
Add (Str => "^Q/ESC = terminate test.");
loop
ch := Code_To_Char (Getchar);
exit when ch = CTRL ('Q') or ch = CTRL ('['); -- QUIT or ESCAPE
case ch is
when 'a' => -- refresh window A first, then B
Refresh_Without_Update (win1);
Refresh_Without_Update (win2);
Update_Screen;
when 'b' => -- refresh window B first, then A
Refresh_Without_Update (win2);
Refresh_Without_Update (win1);
Update_Screen;
when 'c' => -- fill window A so it's visible
fillwin (win1, 'A');
when 'd' => -- fill window B so it's visible
fillwin (win2, 'B');
when 'e' => -- cross test pattern in window A
crosswin (win1, 'A');
when 'f' => -- cross test pattern in window B
crosswin (win2, 'B');
when 'g' => -- clear window A
Clear (win1);
Move_Cursor (win1, 0, 0);
when 'h' => -- clear window B
Clear (win2);
Move_Cursor (win2, 0, 0);
when 'i' => -- overwrite A onto B
Overwrite (win1, win2);
when 'j' => -- overwrite B onto A
Overwrite (win2, win1);
when others => null;
end case;
end loop;
Delete (win2);
Delete (win1);
Erase;
End_Windows;
end ncurses2.overlap_test;
| 8950 | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding Samples --
-- --
-- ncurses --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 <NAME> --
-- Copyright 2000-2014,2015 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: <NAME> <<EMAIL>> 2000
-- Version Control
-- $Revision: 1.8 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
with ncurses2.util; use ncurses2.util;
with Terminal_Interface.Curses; use Terminal_Interface.Curses;
-- test effects of overlapping windows
procedure ncurses2.overlap_test is
procedure fillwin (win : Window; ch : Character);
procedure crosswin (win : Window; ch : Character);
procedure fillwin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
Move_Cursor (win, y, 0);
for x in 0 .. x1 - 1 loop
Add (win, Ch => ch);
end loop;
end loop;
exception
when Curses_Exception => null;
-- write to lower right corner
end fillwin;
procedure crosswin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
for x in 0 .. x1 - 1 loop
if ((x > (x1 - 1) / 3) and (x <= (2 * (x1 - 1)) / 3)) or
(((y > (y1 - 1) / 3) and (y <= (2 * (y1 - 1)) / 3)))
then
Move_Cursor (win, y, x);
Add (win, Ch => ch);
end if;
end loop;
end loop;
end crosswin;
-- In a 24x80 screen like some xterms are, the instructions will
-- be overwritten.
ch : Character;
win1 : Window := New_Window (9, 20, 3, 3);
win2 : Window := New_Window (9, 20, 9, 16);
begin
Set_Raw_Mode (SwitchOn => True);
Refresh;
Move_Cursor (Line => 0, Column => 0);
Add (Str => "This test shows the behavior of wnoutrefresh() with " &
"respect to");
Add (Ch => newl);
Add (Str => "the shared region of two overlapping windows A and B. " &
"The cross");
Add (Ch => newl);
Add (Str => "pattern in each window does not overlap the other.");
Add (Ch => newl);
Move_Cursor (Line => 18, Column => 0);
Add (Str => "a = refresh A, then B, then doupdate. b = refresh B, " &
"then A, then doupdate");
Add (Ch => newl);
Add (Str => "c = fill window A with letter A. d = fill window B " &
"with letter B.");
Add (Ch => newl);
Add (Str => "e = cross pattern in window A. f = cross pattern " &
"in window B.");
Add (Ch => newl);
Add (Str => "g = clear window A. h = clear window B.");
Add (Ch => newl);
Add (Str => "i = overwrite A onto B. j = overwrite " &
"B onto A.");
Add (Ch => newl);
Add (Str => "^Q/ESC = terminate test.");
loop
ch := Code_To_Char (Getchar);
exit when ch = CTRL ('Q') or ch = CTRL ('['); -- QUIT or ESCAPE
case ch is
when 'a' => -- refresh window A first, then B
Refresh_Without_Update (win1);
Refresh_Without_Update (win2);
Update_Screen;
when 'b' => -- refresh window B first, then A
Refresh_Without_Update (win2);
Refresh_Without_Update (win1);
Update_Screen;
when 'c' => -- fill window A so it's visible
fillwin (win1, 'A');
when 'd' => -- fill window B so it's visible
fillwin (win2, 'B');
when 'e' => -- cross test pattern in window A
crosswin (win1, 'A');
when 'f' => -- cross test pattern in window B
crosswin (win2, 'B');
when 'g' => -- clear window A
Clear (win1);
Move_Cursor (win1, 0, 0);
when 'h' => -- clear window B
Clear (win2);
Move_Cursor (win2, 0, 0);
when 'i' => -- overwrite A onto B
Overwrite (win1, win2);
when 'j' => -- overwrite B onto A
Overwrite (win2, win1);
when others => null;
end case;
end loop;
Delete (win2);
Delete (win1);
Erase;
End_Windows;
end ncurses2.overlap_test;
| true | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding Samples --
-- --
-- ncurses --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 PI:NAME:<NAME>END_PI --
-- Copyright 2000-2014,2015 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> 2000
-- Version Control
-- $Revision: 1.8 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
with ncurses2.util; use ncurses2.util;
with Terminal_Interface.Curses; use Terminal_Interface.Curses;
-- test effects of overlapping windows
procedure ncurses2.overlap_test is
procedure fillwin (win : Window; ch : Character);
procedure crosswin (win : Window; ch : Character);
procedure fillwin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
Move_Cursor (win, y, 0);
for x in 0 .. x1 - 1 loop
Add (win, Ch => ch);
end loop;
end loop;
exception
when Curses_Exception => null;
-- write to lower right corner
end fillwin;
procedure crosswin (win : Window; ch : Character) is
y1 : Line_Position;
x1 : Column_Position;
begin
Get_Size (win, y1, x1);
for y in 0 .. y1 - 1 loop
for x in 0 .. x1 - 1 loop
if ((x > (x1 - 1) / 3) and (x <= (2 * (x1 - 1)) / 3)) or
(((y > (y1 - 1) / 3) and (y <= (2 * (y1 - 1)) / 3)))
then
Move_Cursor (win, y, x);
Add (win, Ch => ch);
end if;
end loop;
end loop;
end crosswin;
-- In a 24x80 screen like some xterms are, the instructions will
-- be overwritten.
ch : Character;
win1 : Window := New_Window (9, 20, 3, 3);
win2 : Window := New_Window (9, 20, 9, 16);
begin
Set_Raw_Mode (SwitchOn => True);
Refresh;
Move_Cursor (Line => 0, Column => 0);
Add (Str => "This test shows the behavior of wnoutrefresh() with " &
"respect to");
Add (Ch => newl);
Add (Str => "the shared region of two overlapping windows A and B. " &
"The cross");
Add (Ch => newl);
Add (Str => "pattern in each window does not overlap the other.");
Add (Ch => newl);
Move_Cursor (Line => 18, Column => 0);
Add (Str => "a = refresh A, then B, then doupdate. b = refresh B, " &
"then A, then doupdate");
Add (Ch => newl);
Add (Str => "c = fill window A with letter A. d = fill window B " &
"with letter B.");
Add (Ch => newl);
Add (Str => "e = cross pattern in window A. f = cross pattern " &
"in window B.");
Add (Ch => newl);
Add (Str => "g = clear window A. h = clear window B.");
Add (Ch => newl);
Add (Str => "i = overwrite A onto B. j = overwrite " &
"B onto A.");
Add (Ch => newl);
Add (Str => "^Q/ESC = terminate test.");
loop
ch := Code_To_Char (Getchar);
exit when ch = CTRL ('Q') or ch = CTRL ('['); -- QUIT or ESCAPE
case ch is
when 'a' => -- refresh window A first, then B
Refresh_Without_Update (win1);
Refresh_Without_Update (win2);
Update_Screen;
when 'b' => -- refresh window B first, then A
Refresh_Without_Update (win2);
Refresh_Without_Update (win1);
Update_Screen;
when 'c' => -- fill window A so it's visible
fillwin (win1, 'A');
when 'd' => -- fill window B so it's visible
fillwin (win2, 'B');
when 'e' => -- cross test pattern in window A
crosswin (win1, 'A');
when 'f' => -- cross test pattern in window B
crosswin (win2, 'B');
when 'g' => -- clear window A
Clear (win1);
Move_Cursor (win1, 0, 0);
when 'h' => -- clear window B
Clear (win2);
Move_Cursor (win2, 0, 0);
when 'i' => -- overwrite A onto B
Overwrite (win1, win2);
when 'j' => -- overwrite B onto A
Overwrite (win2, win1);
when others => null;
end case;
end loop;
Delete (win2);
Delete (win1);
Erase;
End_Windows;
end ncurses2.overlap_test;
|
[
{
"context": "-- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 40,
"score": 0.999841570854187,
"start": 28,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 60,
"score": 0.9999310970306396,
"start": 42,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/base/incr-nodes.ads | reznikmm/increment | 5 | -- Copyright (c) 2015-2017 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
with Incr.Documents;
limited with Incr.Nodes.Tokens;
with Incr.Version_Trees;
package Incr.Nodes is
-- @summary
-- Nodes of parse trees
--
-- @description
-- This package provides abstract Node type.
-- Actuall nodes could be one of two kinds:
-- * Tokens represent terminal symbols and contains text of the document
-- * interconnecting nodes represent non-terminal symbols and have
-- one or more children.
-- Number of children is constant over node's life time.
--
-- When node changes (by modification text of the token, assigning new
-- children to mode, etc) it's marked as having local changes.
-- This mark propagates up over the tree and aggregates as nested changes
-- flag on ancestor nodes. This flag stored in history and allows one to
-- locate the changed subtrees quickly. Nested changes flag doesn't count
-- node's local changes.
type Node
(Document : Documents.Document_Access) is abstract tagged private;
-- Node abstract type represents a node inside parse tree.
type Node_Access is access all Node'Class;
type Node_Array is array (Positive range <>) of Node_Access;
not overriding function Is_Token (Self : Node) return Boolean is abstract;
-- Check if given node is token.
not overriding function Arity (Self : Node) return Natural is abstract;
-- Return number of node's children.
type Node_Kind is new Integer;
subtype Token_Kind is Node_Kind range 0 .. Node_Kind'Last;
not overriding function Kind (Self : Node) return Node_Kind is abstract;
-- Return type of the node. Kind is not expected to change
not overriding function Child
(Self : Node;
Index : Positive;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Get node's child by its position. Result could be null if child absent.
not overriding procedure Set_Child
(Self : aliased in out Node;
Index : Positive;
Value : Node_Access) is abstract;
-- Assign node's child by its position.
not overriding function Nested_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- was changed in any way between given two versions.
not overriding function Local_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself was changed in any way between given two versions.
not overriding function Nested_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- has errors in given version.
not overriding function Local_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself has errors in given version.
not overriding procedure Set_Local_Errors
(Self : in out Node;
Value : Boolean := True) is abstract;
not overriding function Parent
(Self : Node;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Return parent of the node. Could be temporary null in changing version.
not overriding procedure Set_Parent
(Self : in out Node;
Value : Node_Access) is abstract;
-- ??? should it be hidden
not overriding procedure Discard (Self : in out Node) is abstract;
-- Discards any uncommitted modifications to this node.
not overriding function Exists
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if given node still exist at given time/version.
type Transient_Flags is (Need_Analysis, Bottom_Up_Reused);
-- These flags valid only at changing version and reset by commit.
--
-- @value Need_Analysis mark nodes to analyse them latter
-- @value Bottom_Up_Reused mark reused nodes
not overriding function Get_Flag
(Self : Node;
Flag : Transient_Flags) return Boolean is abstract;
-- Return given transient flag of the node
not overriding procedure Set_Flag
(Self : in out Node;
Flag : Transient_Flags;
Value : Boolean := True) is abstract;
-- Set given transient flag on the node
type Span_Kinds is (Text_Length, Token_Count, Line_Count);
not overriding function Span
(Self : aliased in out Node;
Kind : Span_Kinds;
Time : Version_Trees.Version) return Natural is abstract;
-- Length of the node in term of character/line/token count
LF : constant Wide_Wide_Character := Ada.Characters.Wide_Wide_Latin_1.LF;
function First_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version)
return Tokens.Token_Access;
-- Return first token in subtree rooted by given Node if any
function Last_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version) return Tokens.Token_Access;
-- Return last token in subtree rooted by given Node if any
function Next_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return next subtree:
-- * return sibling node if Node is not the last child of its parent
-- * return next subtree of the parent otherwise
function Previous_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return previous subtree:
-- * return sibling node if Node is not the first child of its parent
-- * return previous subtree of the parent otherwise
-- Internal subprograms:
not overriding procedure On_Commit
(Self : in out Node;
Parent : Node_Access) is abstract;
not overriding procedure On_Nested_Changes
(Self : in out Node;
Diff : Integer) is abstract;
not overriding procedure Discard_Parent (Self : in out Node) is abstract;
private
type Constant_Node_Access is access constant Node'Class;
type Flag_Array is array (Transient_Flags) of Boolean with Pack;
No_Flags : constant Flag_Array := (others => False);
Local_Changes_Mask : constant Flag_Array :=
(Need_Analysis => True, Bottom_Up_Reused => False);
package Versioned_Booleans is new Version_Trees.Versioned_Values (Boolean);
package Versioned_Nodes is new Version_Trees.Versioned_Values (Node_Access);
type Node
(Document : Documents.Document_Access) is abstract tagged null record;
procedure Propagate_Nested_Changes
(Self : in out Node'Class;
Diff : Integer);
type Node_With_Exist is abstract new Node with record
Exist : Versioned_Booleans.Container;
LC : Versioned_Booleans.Container; -- Versioned local changes
LE : Versioned_Booleans.Container; -- Versioned local errors
-- Transient fields valid during current version only
Local_Changes : Natural := 0;
Nested_Changes : Natural := 0;
Flag : Flag_Array := No_Flags;
end record;
not overriding procedure Update_Local_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding procedure On_Nested_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding function Exists
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding function Get_Flag
(Self : Node_With_Exist;
Flag : Transient_Flags) return Boolean;
overriding procedure Set_Flag
(Self : in out Node_With_Exist;
Flag : Transient_Flags;
Value : Boolean := True);
overriding procedure On_Commit
(Self : in out Node_With_Exist;
Parent : Node_Access);
overriding function Local_Changes
(Self : Node_With_Exist;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean;
overriding function Local_Errors
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding procedure Set_Local_Errors
(Self : in out Node_With_Exist;
Value : Boolean := True);
type Node_With_Parent is abstract new Node_With_Exist with record
Parent : Versioned_Nodes.Container;
-- Parent is NOT a property of the node! Don't account it in calculation
-- of local/nested change flags.
end record;
overriding function Parent
(Self : Node_With_Parent;
Time : Version_Trees.Version) return Node_Access;
overriding procedure Set_Parent
(Self : in out Node_With_Parent;
Value : Node_Access);
overriding procedure Discard_Parent (Self : in out Node_With_Parent);
package Constructors is
procedure Initialize
(Self : aliased in out Node_With_Parent'Class);
-- Initialize Self as nonexistent node.
procedure Initialize_Ancient
(Self : aliased in out Node_With_Parent'Class;
Parent : Node_Access);
-- Initialize Self as node existent in initial version of the document.
end Constructors;
procedure Mark_Deleted_Children (Self : in out Node'Class);
-- Check each child of Self if it is not connected to the tree and mark it
-- as non-existent in current version.
function Child_Index
(Self : Node'Class;
Child : Constant_Node_Access;
Time : Version_Trees.Version) return Natural;
end Incr.Nodes;
| 26487 | -- Copyright (c) 2015-2017 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
with Incr.Documents;
limited with Incr.Nodes.Tokens;
with Incr.Version_Trees;
package Incr.Nodes is
-- @summary
-- Nodes of parse trees
--
-- @description
-- This package provides abstract Node type.
-- Actuall nodes could be one of two kinds:
-- * Tokens represent terminal symbols and contains text of the document
-- * interconnecting nodes represent non-terminal symbols and have
-- one or more children.
-- Number of children is constant over node's life time.
--
-- When node changes (by modification text of the token, assigning new
-- children to mode, etc) it's marked as having local changes.
-- This mark propagates up over the tree and aggregates as nested changes
-- flag on ancestor nodes. This flag stored in history and allows one to
-- locate the changed subtrees quickly. Nested changes flag doesn't count
-- node's local changes.
type Node
(Document : Documents.Document_Access) is abstract tagged private;
-- Node abstract type represents a node inside parse tree.
type Node_Access is access all Node'Class;
type Node_Array is array (Positive range <>) of Node_Access;
not overriding function Is_Token (Self : Node) return Boolean is abstract;
-- Check if given node is token.
not overriding function Arity (Self : Node) return Natural is abstract;
-- Return number of node's children.
type Node_Kind is new Integer;
subtype Token_Kind is Node_Kind range 0 .. Node_Kind'Last;
not overriding function Kind (Self : Node) return Node_Kind is abstract;
-- Return type of the node. Kind is not expected to change
not overriding function Child
(Self : Node;
Index : Positive;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Get node's child by its position. Result could be null if child absent.
not overriding procedure Set_Child
(Self : aliased in out Node;
Index : Positive;
Value : Node_Access) is abstract;
-- Assign node's child by its position.
not overriding function Nested_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- was changed in any way between given two versions.
not overriding function Local_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself was changed in any way between given two versions.
not overriding function Nested_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- has errors in given version.
not overriding function Local_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself has errors in given version.
not overriding procedure Set_Local_Errors
(Self : in out Node;
Value : Boolean := True) is abstract;
not overriding function Parent
(Self : Node;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Return parent of the node. Could be temporary null in changing version.
not overriding procedure Set_Parent
(Self : in out Node;
Value : Node_Access) is abstract;
-- ??? should it be hidden
not overriding procedure Discard (Self : in out Node) is abstract;
-- Discards any uncommitted modifications to this node.
not overriding function Exists
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if given node still exist at given time/version.
type Transient_Flags is (Need_Analysis, Bottom_Up_Reused);
-- These flags valid only at changing version and reset by commit.
--
-- @value Need_Analysis mark nodes to analyse them latter
-- @value Bottom_Up_Reused mark reused nodes
not overriding function Get_Flag
(Self : Node;
Flag : Transient_Flags) return Boolean is abstract;
-- Return given transient flag of the node
not overriding procedure Set_Flag
(Self : in out Node;
Flag : Transient_Flags;
Value : Boolean := True) is abstract;
-- Set given transient flag on the node
type Span_Kinds is (Text_Length, Token_Count, Line_Count);
not overriding function Span
(Self : aliased in out Node;
Kind : Span_Kinds;
Time : Version_Trees.Version) return Natural is abstract;
-- Length of the node in term of character/line/token count
LF : constant Wide_Wide_Character := Ada.Characters.Wide_Wide_Latin_1.LF;
function First_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version)
return Tokens.Token_Access;
-- Return first token in subtree rooted by given Node if any
function Last_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version) return Tokens.Token_Access;
-- Return last token in subtree rooted by given Node if any
function Next_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return next subtree:
-- * return sibling node if Node is not the last child of its parent
-- * return next subtree of the parent otherwise
function Previous_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return previous subtree:
-- * return sibling node if Node is not the first child of its parent
-- * return previous subtree of the parent otherwise
-- Internal subprograms:
not overriding procedure On_Commit
(Self : in out Node;
Parent : Node_Access) is abstract;
not overriding procedure On_Nested_Changes
(Self : in out Node;
Diff : Integer) is abstract;
not overriding procedure Discard_Parent (Self : in out Node) is abstract;
private
type Constant_Node_Access is access constant Node'Class;
type Flag_Array is array (Transient_Flags) of Boolean with Pack;
No_Flags : constant Flag_Array := (others => False);
Local_Changes_Mask : constant Flag_Array :=
(Need_Analysis => True, Bottom_Up_Reused => False);
package Versioned_Booleans is new Version_Trees.Versioned_Values (Boolean);
package Versioned_Nodes is new Version_Trees.Versioned_Values (Node_Access);
type Node
(Document : Documents.Document_Access) is abstract tagged null record;
procedure Propagate_Nested_Changes
(Self : in out Node'Class;
Diff : Integer);
type Node_With_Exist is abstract new Node with record
Exist : Versioned_Booleans.Container;
LC : Versioned_Booleans.Container; -- Versioned local changes
LE : Versioned_Booleans.Container; -- Versioned local errors
-- Transient fields valid during current version only
Local_Changes : Natural := 0;
Nested_Changes : Natural := 0;
Flag : Flag_Array := No_Flags;
end record;
not overriding procedure Update_Local_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding procedure On_Nested_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding function Exists
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding function Get_Flag
(Self : Node_With_Exist;
Flag : Transient_Flags) return Boolean;
overriding procedure Set_Flag
(Self : in out Node_With_Exist;
Flag : Transient_Flags;
Value : Boolean := True);
overriding procedure On_Commit
(Self : in out Node_With_Exist;
Parent : Node_Access);
overriding function Local_Changes
(Self : Node_With_Exist;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean;
overriding function Local_Errors
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding procedure Set_Local_Errors
(Self : in out Node_With_Exist;
Value : Boolean := True);
type Node_With_Parent is abstract new Node_With_Exist with record
Parent : Versioned_Nodes.Container;
-- Parent is NOT a property of the node! Don't account it in calculation
-- of local/nested change flags.
end record;
overriding function Parent
(Self : Node_With_Parent;
Time : Version_Trees.Version) return Node_Access;
overriding procedure Set_Parent
(Self : in out Node_With_Parent;
Value : Node_Access);
overriding procedure Discard_Parent (Self : in out Node_With_Parent);
package Constructors is
procedure Initialize
(Self : aliased in out Node_With_Parent'Class);
-- Initialize Self as nonexistent node.
procedure Initialize_Ancient
(Self : aliased in out Node_With_Parent'Class;
Parent : Node_Access);
-- Initialize Self as node existent in initial version of the document.
end Constructors;
procedure Mark_Deleted_Children (Self : in out Node'Class);
-- Check each child of Self if it is not connected to the tree and mark it
-- as non-existent in current version.
function Child_Index
(Self : Node'Class;
Child : Constant_Node_Access;
Time : Version_Trees.Version) return Natural;
end Incr.Nodes;
| true | -- Copyright (c) 2015-2017 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with Ada.Characters.Wide_Wide_Latin_1;
with Incr.Documents;
limited with Incr.Nodes.Tokens;
with Incr.Version_Trees;
package Incr.Nodes is
-- @summary
-- Nodes of parse trees
--
-- @description
-- This package provides abstract Node type.
-- Actuall nodes could be one of two kinds:
-- * Tokens represent terminal symbols and contains text of the document
-- * interconnecting nodes represent non-terminal symbols and have
-- one or more children.
-- Number of children is constant over node's life time.
--
-- When node changes (by modification text of the token, assigning new
-- children to mode, etc) it's marked as having local changes.
-- This mark propagates up over the tree and aggregates as nested changes
-- flag on ancestor nodes. This flag stored in history and allows one to
-- locate the changed subtrees quickly. Nested changes flag doesn't count
-- node's local changes.
type Node
(Document : Documents.Document_Access) is abstract tagged private;
-- Node abstract type represents a node inside parse tree.
type Node_Access is access all Node'Class;
type Node_Array is array (Positive range <>) of Node_Access;
not overriding function Is_Token (Self : Node) return Boolean is abstract;
-- Check if given node is token.
not overriding function Arity (Self : Node) return Natural is abstract;
-- Return number of node's children.
type Node_Kind is new Integer;
subtype Token_Kind is Node_Kind range 0 .. Node_Kind'Last;
not overriding function Kind (Self : Node) return Node_Kind is abstract;
-- Return type of the node. Kind is not expected to change
not overriding function Child
(Self : Node;
Index : Positive;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Get node's child by its position. Result could be null if child absent.
not overriding procedure Set_Child
(Self : aliased in out Node;
Index : Positive;
Value : Node_Access) is abstract;
-- Assign node's child by its position.
not overriding function Nested_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- was changed in any way between given two versions.
not overriding function Local_Changes
(Self : Node;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself was changed in any way between given two versions.
not overriding function Nested_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if any node under subtree rooted by Self (exluding Self node)
-- has errors in given version.
not overriding function Local_Errors
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if node itself has errors in given version.
not overriding procedure Set_Local_Errors
(Self : in out Node;
Value : Boolean := True) is abstract;
not overriding function Parent
(Self : Node;
Time : Version_Trees.Version) return Node_Access is abstract;
-- Return parent of the node. Could be temporary null in changing version.
not overriding procedure Set_Parent
(Self : in out Node;
Value : Node_Access) is abstract;
-- ??? should it be hidden
not overriding procedure Discard (Self : in out Node) is abstract;
-- Discards any uncommitted modifications to this node.
not overriding function Exists
(Self : Node;
Time : Version_Trees.Version) return Boolean is abstract;
-- Check if given node still exist at given time/version.
type Transient_Flags is (Need_Analysis, Bottom_Up_Reused);
-- These flags valid only at changing version and reset by commit.
--
-- @value Need_Analysis mark nodes to analyse them latter
-- @value Bottom_Up_Reused mark reused nodes
not overriding function Get_Flag
(Self : Node;
Flag : Transient_Flags) return Boolean is abstract;
-- Return given transient flag of the node
not overriding procedure Set_Flag
(Self : in out Node;
Flag : Transient_Flags;
Value : Boolean := True) is abstract;
-- Set given transient flag on the node
type Span_Kinds is (Text_Length, Token_Count, Line_Count);
not overriding function Span
(Self : aliased in out Node;
Kind : Span_Kinds;
Time : Version_Trees.Version) return Natural is abstract;
-- Length of the node in term of character/line/token count
LF : constant Wide_Wide_Character := Ada.Characters.Wide_Wide_Latin_1.LF;
function First_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version)
return Tokens.Token_Access;
-- Return first token in subtree rooted by given Node if any
function Last_Token
(Self : aliased in out Node'Class;
Time : Version_Trees.Version) return Tokens.Token_Access;
-- Return last token in subtree rooted by given Node if any
function Next_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return next subtree:
-- * return sibling node if Node is not the last child of its parent
-- * return next subtree of the parent otherwise
function Previous_Subtree
(Self : Node'Class;
Time : Version_Trees.Version) return Node_Access;
-- Return previous subtree:
-- * return sibling node if Node is not the first child of its parent
-- * return previous subtree of the parent otherwise
-- Internal subprograms:
not overriding procedure On_Commit
(Self : in out Node;
Parent : Node_Access) is abstract;
not overriding procedure On_Nested_Changes
(Self : in out Node;
Diff : Integer) is abstract;
not overriding procedure Discard_Parent (Self : in out Node) is abstract;
private
type Constant_Node_Access is access constant Node'Class;
type Flag_Array is array (Transient_Flags) of Boolean with Pack;
No_Flags : constant Flag_Array := (others => False);
Local_Changes_Mask : constant Flag_Array :=
(Need_Analysis => True, Bottom_Up_Reused => False);
package Versioned_Booleans is new Version_Trees.Versioned_Values (Boolean);
package Versioned_Nodes is new Version_Trees.Versioned_Values (Node_Access);
type Node
(Document : Documents.Document_Access) is abstract tagged null record;
procedure Propagate_Nested_Changes
(Self : in out Node'Class;
Diff : Integer);
type Node_With_Exist is abstract new Node with record
Exist : Versioned_Booleans.Container;
LC : Versioned_Booleans.Container; -- Versioned local changes
LE : Versioned_Booleans.Container; -- Versioned local errors
-- Transient fields valid during current version only
Local_Changes : Natural := 0;
Nested_Changes : Natural := 0;
Flag : Flag_Array := No_Flags;
end record;
not overriding procedure Update_Local_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding procedure On_Nested_Changes
(Self : in out Node_With_Exist;
Diff : Integer);
overriding function Exists
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding function Get_Flag
(Self : Node_With_Exist;
Flag : Transient_Flags) return Boolean;
overriding procedure Set_Flag
(Self : in out Node_With_Exist;
Flag : Transient_Flags;
Value : Boolean := True);
overriding procedure On_Commit
(Self : in out Node_With_Exist;
Parent : Node_Access);
overriding function Local_Changes
(Self : Node_With_Exist;
From : Version_Trees.Version;
To : Version_Trees.Version) return Boolean;
overriding function Local_Errors
(Self : Node_With_Exist;
Time : Version_Trees.Version) return Boolean;
overriding procedure Set_Local_Errors
(Self : in out Node_With_Exist;
Value : Boolean := True);
type Node_With_Parent is abstract new Node_With_Exist with record
Parent : Versioned_Nodes.Container;
-- Parent is NOT a property of the node! Don't account it in calculation
-- of local/nested change flags.
end record;
overriding function Parent
(Self : Node_With_Parent;
Time : Version_Trees.Version) return Node_Access;
overriding procedure Set_Parent
(Self : in out Node_With_Parent;
Value : Node_Access);
overriding procedure Discard_Parent (Self : in out Node_With_Parent);
package Constructors is
procedure Initialize
(Self : aliased in out Node_With_Parent'Class);
-- Initialize Self as nonexistent node.
procedure Initialize_Ancient
(Self : aliased in out Node_With_Parent'Class;
Parent : Node_Access);
-- Initialize Self as node existent in initial version of the document.
end Constructors;
procedure Mark_Deleted_Children (Self : in out Node'Class);
-- Check each child of Self if it is not connected to the tree and mark it
-- as non-existent in current version.
function Child_Index
(Self : Node'Class;
Child : Constant_Node_Access;
Time : Version_Trees.Version) return Natural;
end Incr.Nodes;
|
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{
"context": "th AWS implementation\n-- Copyright (C) 2011, 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 182,
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"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "ight (C) 2011, 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 213,
"score": 0.999890923500061,
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"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "2 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 240,
"score": 0.9999269247055054,
"start": 215,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/http/aws/util-http-clients-web.ads | Letractively/ada-util | 0 | -----------------------------------------------------------------------
-- util-http-clients-web -- HTTP Clients with AWS implementation
-- Copyright (C) 2011, 2012 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
private with AWS.Headers;
private with AWS.Response;
package Util.Http.Clients.Web is
-- Register the Http manager.
procedure Register;
private
type AWS_Http_Manager is new Http_Manager with null record;
type AWS_Http_Manager_Access is access all Http_Manager'Class;
procedure Create (Manager : in AWS_Http_Manager;
Http : in out Client'Class);
procedure Do_Get (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Reply : out Response'Class);
procedure Do_Post (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Data : in String;
Reply : out Response'Class);
type AWS_Http_Request is new Http_Request with record
Headers : AWS.Headers.List;
end record;
type AWS_Http_Request_Access is access all AWS_Http_Request'Class;
-- Returns a boolean indicating whether the named request header has already
-- been set.
overriding
function Contains_Header (Http : in AWS_Http_Request;
Name : in String) return Boolean;
-- Returns the value of the specified request header as a String. If the request
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Request : in AWS_Http_Request;
Name : in String) return String;
-- Sets a request header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Iterate over the request headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Request : in AWS_Http_Request;
Process : not null access
procedure (Name : in String;
Value : in String));
type AWS_Http_Response is new Http_Response with record
Data : AWS.Response.Data;
end record;
type AWS_Http_Response_Access is access all AWS_Http_Response'Class;
-- Returns a boolean indicating whether the named response header has already
-- been set.
overriding
function Contains_Header (Reply : in AWS_Http_Response;
Name : in String) return Boolean;
-- Returns the value of the specified response header as a String. If the response
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Reply : in AWS_Http_Response;
Name : in String) return String;
-- Sets a message header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Iterate over the response headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Reply : in AWS_Http_Response;
Process : not null access
procedure (Name : in String;
Value : in String));
-- Get the response body as a string.
function Get_Body (Reply : in AWS_Http_Response) return String;
-- Get the response status code.
overriding
function Get_Status (Reply : in AWS_Http_Response) return Natural;
end Util.Http.Clients.Web;
| 10415 | -----------------------------------------------------------------------
-- util-http-clients-web -- HTTP Clients with AWS implementation
-- Copyright (C) 2011, 2012 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
private with AWS.Headers;
private with AWS.Response;
package Util.Http.Clients.Web is
-- Register the Http manager.
procedure Register;
private
type AWS_Http_Manager is new Http_Manager with null record;
type AWS_Http_Manager_Access is access all Http_Manager'Class;
procedure Create (Manager : in AWS_Http_Manager;
Http : in out Client'Class);
procedure Do_Get (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Reply : out Response'Class);
procedure Do_Post (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Data : in String;
Reply : out Response'Class);
type AWS_Http_Request is new Http_Request with record
Headers : AWS.Headers.List;
end record;
type AWS_Http_Request_Access is access all AWS_Http_Request'Class;
-- Returns a boolean indicating whether the named request header has already
-- been set.
overriding
function Contains_Header (Http : in AWS_Http_Request;
Name : in String) return Boolean;
-- Returns the value of the specified request header as a String. If the request
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Request : in AWS_Http_Request;
Name : in String) return String;
-- Sets a request header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Iterate over the request headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Request : in AWS_Http_Request;
Process : not null access
procedure (Name : in String;
Value : in String));
type AWS_Http_Response is new Http_Response with record
Data : AWS.Response.Data;
end record;
type AWS_Http_Response_Access is access all AWS_Http_Response'Class;
-- Returns a boolean indicating whether the named response header has already
-- been set.
overriding
function Contains_Header (Reply : in AWS_Http_Response;
Name : in String) return Boolean;
-- Returns the value of the specified response header as a String. If the response
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Reply : in AWS_Http_Response;
Name : in String) return String;
-- Sets a message header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Iterate over the response headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Reply : in AWS_Http_Response;
Process : not null access
procedure (Name : in String;
Value : in String));
-- Get the response body as a string.
function Get_Body (Reply : in AWS_Http_Response) return String;
-- Get the response status code.
overriding
function Get_Status (Reply : in AWS_Http_Response) return Natural;
end Util.Http.Clients.Web;
| true | -----------------------------------------------------------------------
-- util-http-clients-web -- HTTP Clients with AWS implementation
-- Copyright (C) 2011, 2012 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
private with AWS.Headers;
private with AWS.Response;
package Util.Http.Clients.Web is
-- Register the Http manager.
procedure Register;
private
type AWS_Http_Manager is new Http_Manager with null record;
type AWS_Http_Manager_Access is access all Http_Manager'Class;
procedure Create (Manager : in AWS_Http_Manager;
Http : in out Client'Class);
procedure Do_Get (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Reply : out Response'Class);
procedure Do_Post (Manager : in AWS_Http_Manager;
Http : in Client'Class;
URI : in String;
Data : in String;
Reply : out Response'Class);
type AWS_Http_Request is new Http_Request with record
Headers : AWS.Headers.List;
end record;
type AWS_Http_Request_Access is access all AWS_Http_Request'Class;
-- Returns a boolean indicating whether the named request header has already
-- been set.
overriding
function Contains_Header (Http : in AWS_Http_Request;
Name : in String) return Boolean;
-- Returns the value of the specified request header as a String. If the request
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Request : in AWS_Http_Request;
Name : in String) return String;
-- Sets a request header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Http : in out AWS_Http_Request;
Name : in String;
Value : in String);
-- Iterate over the request headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Request : in AWS_Http_Request;
Process : not null access
procedure (Name : in String;
Value : in String));
type AWS_Http_Response is new Http_Response with record
Data : AWS.Response.Data;
end record;
type AWS_Http_Response_Access is access all AWS_Http_Response'Class;
-- Returns a boolean indicating whether the named response header has already
-- been set.
overriding
function Contains_Header (Reply : in AWS_Http_Response;
Name : in String) return Boolean;
-- Returns the value of the specified response header as a String. If the response
-- did not include a header of the specified name, this method returns null.
-- If there are multiple headers with the same name, this method returns the
-- first head in the request. The header name is case insensitive. You can use
-- this method with any response header.
overriding
function Get_Header (Reply : in AWS_Http_Response;
Name : in String) return String;
-- Sets a message header with the given name and value. If the header had already
-- been set, the new value overwrites the previous one. The containsHeader
-- method can be used to test for the presence of a header before setting its value.
overriding
procedure Set_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Adds a request header with the given name and value.
-- This method allows request headers to have multiple values.
overriding
procedure Add_Header (Reply : in out AWS_Http_Response;
Name : in String;
Value : in String);
-- Iterate over the response headers and executes the <b>Process</b> procedure.
overriding
procedure Iterate_Headers (Reply : in AWS_Http_Response;
Process : not null access
procedure (Name : in String;
Value : in String));
-- Get the response body as a string.
function Get_Body (Reply : in AWS_Http_Response) return String;
-- Get the response status code.
overriding
function Get_Status (Reply : in AWS_Http_Response) return Natural;
end Util.Http.Clients.Web;
|
[
{
"context": "atabase Drivers\n-- Copyright (C) 2010, 2011, 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
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"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "C) 2010, 2011, 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
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"score": 0.9998776316642761,
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"tag": "NAME",
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},
{
"context": "2 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 216,
"score": 0.9999290704727173,
"start": 191,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/ado-drivers-connections.ads | Letractively/ada-ado | 0 | -----------------------------------------------------------------------
-- ADO Drivers -- Database Drivers
-- Copyright (C) 2010, 2011, 2012 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Finalization;
with ADO.Statements;
with ADO.Schemas;
with Util.Properties;
with Util.Strings;
-- The <b>ADO.Drivers</b> package represents the database driver that will create
-- database connections and provide the database specific implementation.
package ADO.Drivers.Connections is
use ADO.Statements;
type Driver is abstract tagged limited private;
type Driver_Access is access all Driver'Class;
-- ------------------------------
-- Database connection implementation
-- ------------------------------
--
type Database_Connection is abstract new Ada.Finalization.Limited_Controlled with record
Count : Natural := 0;
Ident : String (1 .. 8) := (others => ' ');
end record;
type Database_Connection_Access is access all Database_Connection'Class;
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Query_Statement_Access is abstract;
function Create_Statement (Database : in Database_Connection;
Query : in String)
return Query_Statement_Access is abstract;
-- Create a delete statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Delete_Statement_Access is abstract;
-- Create an insert statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Insert_Statement_Access is abstract;
-- Create an update statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Update_Statement_Access is abstract;
-- Start a transaction.
procedure Begin_Transaction (Database : in out Database_Connection) is abstract;
-- Commit the current transaction.
procedure Commit (Database : in out Database_Connection) is abstract;
-- Rollback the current transaction.
procedure Rollback (Database : in out Database_Connection) is abstract;
-- Load the database schema definition for the current database.
procedure Load_Schema (Database : in Database_Connection;
Schema : out ADO.Schemas.Schema_Definition) is abstract;
-- Get the database driver which manages this connection.
function Get_Driver (Database : in Database_Connection)
return Driver_Access is abstract;
-- Closes the database connection
procedure Close (Database : in out Database_Connection) is abstract;
-- ------------------------------
-- The database configuration properties
-- ------------------------------
type Configuration is new Ada.Finalization.Controlled with private;
type Configuration_Access is access all Configuration'Class;
-- Set the connection URL to connect to the database.
-- The driver connection is a string of the form:
--
-- driver://[host][:port]/[database][?property1][=value1]...
--
-- If the string is invalid or if the driver cannot be found,
-- the Connection_Error exception is raised.
procedure Set_Connection (Controller : in out Configuration;
URI : in String);
-- Set a property on the datasource for the driver.
-- The driver can retrieve the property to configure and open
-- the database connection.
procedure Set_Property (Controller : in out Configuration;
Name : in String;
Value : in String);
-- Get a property from the data source configuration.
-- If the property does not exist, an empty string is returned.
function Get_Property (Controller : in Configuration;
Name : in String) return String;
-- Get the server hostname.
function Get_Server (Controller : in Configuration) return String;
-- Get the server port.
function Get_Port (Controller : in Configuration) return Integer;
-- Get the database name.
function Get_Database (Controller : in Configuration) return String;
-- Create a new connection using the configuration parameters.
procedure Create_Connection (Config : in Configuration'Class;
Result : out Database_Connection_Access);
-- ------------------------------
-- Database Driver
-- ------------------------------
-- Create a new connection using the configuration parameters.
procedure Create_Connection (D : in out Driver;
Config : in Configuration'Class;
Result : out Database_Connection_Access) is abstract;
-- Get the driver unique index.
function Get_Driver_Index (D : in Driver) return Driver_Index;
-- Get the driver name.
function Get_Driver_Name (D : in Driver) return String;
-- Register a database driver.
procedure Register (Driver : in Driver_Access);
-- Get a database driver given its name.
function Get_Driver (Name : in String) return Driver_Access;
private
type Driver is abstract new Ada.Finalization.Limited_Controlled with record
Name : Util.Strings.Name_Access;
Index : Driver_Index;
end record;
type Configuration is new Ada.Finalization.Controlled with record
URI : Unbounded_String := Null_Unbounded_String;
Server : Unbounded_String := Null_Unbounded_String;
Port : Integer := 0;
Database : Unbounded_String := Null_Unbounded_String;
Properties : Util.Properties.Manager;
Driver : Driver_Access;
end record;
end ADO.Drivers.Connections;
| 11177 | -----------------------------------------------------------------------
-- ADO Drivers -- Database Drivers
-- Copyright (C) 2010, 2011, 2012 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Finalization;
with ADO.Statements;
with ADO.Schemas;
with Util.Properties;
with Util.Strings;
-- The <b>ADO.Drivers</b> package represents the database driver that will create
-- database connections and provide the database specific implementation.
package ADO.Drivers.Connections is
use ADO.Statements;
type Driver is abstract tagged limited private;
type Driver_Access is access all Driver'Class;
-- ------------------------------
-- Database connection implementation
-- ------------------------------
--
type Database_Connection is abstract new Ada.Finalization.Limited_Controlled with record
Count : Natural := 0;
Ident : String (1 .. 8) := (others => ' ');
end record;
type Database_Connection_Access is access all Database_Connection'Class;
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Query_Statement_Access is abstract;
function Create_Statement (Database : in Database_Connection;
Query : in String)
return Query_Statement_Access is abstract;
-- Create a delete statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Delete_Statement_Access is abstract;
-- Create an insert statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Insert_Statement_Access is abstract;
-- Create an update statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Update_Statement_Access is abstract;
-- Start a transaction.
procedure Begin_Transaction (Database : in out Database_Connection) is abstract;
-- Commit the current transaction.
procedure Commit (Database : in out Database_Connection) is abstract;
-- Rollback the current transaction.
procedure Rollback (Database : in out Database_Connection) is abstract;
-- Load the database schema definition for the current database.
procedure Load_Schema (Database : in Database_Connection;
Schema : out ADO.Schemas.Schema_Definition) is abstract;
-- Get the database driver which manages this connection.
function Get_Driver (Database : in Database_Connection)
return Driver_Access is abstract;
-- Closes the database connection
procedure Close (Database : in out Database_Connection) is abstract;
-- ------------------------------
-- The database configuration properties
-- ------------------------------
type Configuration is new Ada.Finalization.Controlled with private;
type Configuration_Access is access all Configuration'Class;
-- Set the connection URL to connect to the database.
-- The driver connection is a string of the form:
--
-- driver://[host][:port]/[database][?property1][=value1]...
--
-- If the string is invalid or if the driver cannot be found,
-- the Connection_Error exception is raised.
procedure Set_Connection (Controller : in out Configuration;
URI : in String);
-- Set a property on the datasource for the driver.
-- The driver can retrieve the property to configure and open
-- the database connection.
procedure Set_Property (Controller : in out Configuration;
Name : in String;
Value : in String);
-- Get a property from the data source configuration.
-- If the property does not exist, an empty string is returned.
function Get_Property (Controller : in Configuration;
Name : in String) return String;
-- Get the server hostname.
function Get_Server (Controller : in Configuration) return String;
-- Get the server port.
function Get_Port (Controller : in Configuration) return Integer;
-- Get the database name.
function Get_Database (Controller : in Configuration) return String;
-- Create a new connection using the configuration parameters.
procedure Create_Connection (Config : in Configuration'Class;
Result : out Database_Connection_Access);
-- ------------------------------
-- Database Driver
-- ------------------------------
-- Create a new connection using the configuration parameters.
procedure Create_Connection (D : in out Driver;
Config : in Configuration'Class;
Result : out Database_Connection_Access) is abstract;
-- Get the driver unique index.
function Get_Driver_Index (D : in Driver) return Driver_Index;
-- Get the driver name.
function Get_Driver_Name (D : in Driver) return String;
-- Register a database driver.
procedure Register (Driver : in Driver_Access);
-- Get a database driver given its name.
function Get_Driver (Name : in String) return Driver_Access;
private
type Driver is abstract new Ada.Finalization.Limited_Controlled with record
Name : Util.Strings.Name_Access;
Index : Driver_Index;
end record;
type Configuration is new Ada.Finalization.Controlled with record
URI : Unbounded_String := Null_Unbounded_String;
Server : Unbounded_String := Null_Unbounded_String;
Port : Integer := 0;
Database : Unbounded_String := Null_Unbounded_String;
Properties : Util.Properties.Manager;
Driver : Driver_Access;
end record;
end ADO.Drivers.Connections;
| true | -----------------------------------------------------------------------
-- ADO Drivers -- Database Drivers
-- Copyright (C) 2010, 2011, 2012 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Finalization;
with ADO.Statements;
with ADO.Schemas;
with Util.Properties;
with Util.Strings;
-- The <b>ADO.Drivers</b> package represents the database driver that will create
-- database connections and provide the database specific implementation.
package ADO.Drivers.Connections is
use ADO.Statements;
type Driver is abstract tagged limited private;
type Driver_Access is access all Driver'Class;
-- ------------------------------
-- Database connection implementation
-- ------------------------------
--
type Database_Connection is abstract new Ada.Finalization.Limited_Controlled with record
Count : Natural := 0;
Ident : String (1 .. 8) := (others => ' ');
end record;
type Database_Connection_Access is access all Database_Connection'Class;
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Query_Statement_Access is abstract;
function Create_Statement (Database : in Database_Connection;
Query : in String)
return Query_Statement_Access is abstract;
-- Create a delete statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Delete_Statement_Access is abstract;
-- Create an insert statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Insert_Statement_Access is abstract;
-- Create an update statement.
function Create_Statement (Database : in Database_Connection;
Table : in ADO.Schemas.Class_Mapping_Access)
return Update_Statement_Access is abstract;
-- Start a transaction.
procedure Begin_Transaction (Database : in out Database_Connection) is abstract;
-- Commit the current transaction.
procedure Commit (Database : in out Database_Connection) is abstract;
-- Rollback the current transaction.
procedure Rollback (Database : in out Database_Connection) is abstract;
-- Load the database schema definition for the current database.
procedure Load_Schema (Database : in Database_Connection;
Schema : out ADO.Schemas.Schema_Definition) is abstract;
-- Get the database driver which manages this connection.
function Get_Driver (Database : in Database_Connection)
return Driver_Access is abstract;
-- Closes the database connection
procedure Close (Database : in out Database_Connection) is abstract;
-- ------------------------------
-- The database configuration properties
-- ------------------------------
type Configuration is new Ada.Finalization.Controlled with private;
type Configuration_Access is access all Configuration'Class;
-- Set the connection URL to connect to the database.
-- The driver connection is a string of the form:
--
-- driver://[host][:port]/[database][?property1][=value1]...
--
-- If the string is invalid or if the driver cannot be found,
-- the Connection_Error exception is raised.
procedure Set_Connection (Controller : in out Configuration;
URI : in String);
-- Set a property on the datasource for the driver.
-- The driver can retrieve the property to configure and open
-- the database connection.
procedure Set_Property (Controller : in out Configuration;
Name : in String;
Value : in String);
-- Get a property from the data source configuration.
-- If the property does not exist, an empty string is returned.
function Get_Property (Controller : in Configuration;
Name : in String) return String;
-- Get the server hostname.
function Get_Server (Controller : in Configuration) return String;
-- Get the server port.
function Get_Port (Controller : in Configuration) return Integer;
-- Get the database name.
function Get_Database (Controller : in Configuration) return String;
-- Create a new connection using the configuration parameters.
procedure Create_Connection (Config : in Configuration'Class;
Result : out Database_Connection_Access);
-- ------------------------------
-- Database Driver
-- ------------------------------
-- Create a new connection using the configuration parameters.
procedure Create_Connection (D : in out Driver;
Config : in Configuration'Class;
Result : out Database_Connection_Access) is abstract;
-- Get the driver unique index.
function Get_Driver_Index (D : in Driver) return Driver_Index;
-- Get the driver name.
function Get_Driver_Name (D : in Driver) return String;
-- Register a database driver.
procedure Register (Driver : in Driver_Access);
-- Get a database driver given its name.
function Get_Driver (Name : in String) return Driver_Access;
private
type Driver is abstract new Ada.Finalization.Limited_Controlled with record
Name : Util.Strings.Name_Access;
Index : Driver_Index;
end record;
type Configuration is new Ada.Finalization.Controlled with record
URI : Unbounded_String := Null_Unbounded_String;
Server : Unbounded_String := Null_Unbounded_String;
Port : Integer := 0;
Database : Unbounded_String := Null_Unbounded_String;
Properties : Util.Properties.Manager;
Driver : Driver_Access;
end record;
end ADO.Drivers.Connections;
|
[
{
"context": " --\n-- Copyright © 2010-2017, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.9998857378959656,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2010-2017, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999322891235352,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/xml/sax/matreshka-internals-xml-symbol_tables.adb | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2010-2017, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides symbol table to store frequently used strings,
-- allocate identifier for them and reduce number of memory allocations by
-- reusing shared strings.
------------------------------------------------------------------------------
with Ada.Unchecked_Deallocation;
with League.Strings.Internals;
with Matreshka.Internals.Strings.Operations;
with Matreshka.Internals.Unicode.Characters.Latin;
package body Matreshka.Internals.XML.Symbol_Tables is
use Matreshka.Internals.Unicode.Characters.Latin;
procedure Free is
new Ada.Unchecked_Deallocation
(Symbol_Record_Array, Symbol_Record_Array_Access);
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean;
-- Returns True when code point belongs to NSNameStartChar.
-------------
-- Element --
-------------
function Element
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Element_Identifier is
begin
return Self.Table (Identifier).Element;
end Element;
--------------
-- Finalize --
--------------
procedure Finalize (Self : in out Symbol_Table) is
begin
for J in Self.Table'First .. Self.Last loop
Matreshka.Internals.Strings.Dereference (Self.Table (J).String);
end loop;
Free (Self.Table);
end Finalize;
--------------------
-- General_Entity --
--------------------
function General_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).General_Entity;
end General_Entity;
----------------
-- Initialize --
----------------
procedure Initialize (Self : in out Symbol_Table) is
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier);
-- Registers predefined entity.
procedure Register_Symbol (Name : League.Strings.Universal_String);
--------------------------------
-- Register_Predefined_Entity --
--------------------------------
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier)
is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => Entity);
end Register_Predefined_Entity;
---------------------
-- Register_Symbol --
---------------------
procedure Register_Symbol (Name : League.Strings.Universal_String) is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end Register_Symbol;
begin
Self.Table := new Symbol_Record_Array (0 .. 31);
Self.Table (No_Symbol) :=
(String => Matreshka.Internals.Strings.Shared_Empty'Access,
Namespace_Processed => True,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
Self.Last := No_Symbol;
-- Register predefined entities.
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("lt"),
Entity => Entity_lt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("gt"),
Entity => Entity_gt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("amp"),
Entity => Entity_amp);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("apos"),
Entity => Entity_apos);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("quot"),
Entity => Entity_quot);
-- Register attribute type's names.
Register_Symbol (League.Strings.To_Universal_String ("CDATA"));
Register_Symbol (League.Strings.To_Universal_String ("ID"));
Register_Symbol (League.Strings.To_Universal_String ("IDREF"));
Register_Symbol (League.Strings.To_Universal_String ("IDREFS"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKEN"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKENS"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITY"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITIES"));
Register_Symbol (League.Strings.To_Universal_String ("NOTATION"));
-- Register well known names and namespaces.
Register_Symbol (League.Strings.To_Universal_String ("xml"));
Register_Symbol (League.Strings.To_Universal_String ("xmlns"));
Register_Symbol
(League.Strings.To_Universal_String
("http://www.w3.org/XML/1998/namespace"));
Register_Symbol
(League.Strings.To_Universal_String ("http://www.w3.org/2000/xmlns/"));
Register_Symbol (League.Strings.To_Universal_String ("xml:base"));
end Initialize;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
First : Matreshka.Internals.Utf16.Utf16_String_Index;
Size : Matreshka.Internals.Utf16.Utf16_String_Index;
Length : Natural;
Namespaces : Boolean;
Qname_Error : out Qualified_Name_Errors;
Identifier : out Symbol_Identifier)
is
use Matreshka.Internals.Unicode;
use Matreshka.Internals.Utf16;
D_Position : Utf16_String_Index;
D_Index : Natural;
C : Code_Point;
C_Position : Utf16_String_Index;
C_Index : Natural;
Found : Boolean := False;
N_Position : Utf16_String_Index;
T_Position : Utf16_String_Index;
Prefix_Name : Symbol_Identifier;
Local_Name : Symbol_Identifier;
begin
for J in Self.Table'First .. Self.Last loop
if Self.Table (J).String.Unused = Size then
N_Position := First;
T_Position := 0;
while N_Position < First + Size loop
exit when
String.Value (N_Position)
/= Self.Table (J).String.Value (T_Position);
N_Position := N_Position + 1;
T_Position := T_Position + 1;
end loop;
if N_Position = First + Size then
Identifier := J;
Found := True;
exit;
end if;
end if;
end loop;
if not Found then
Self.Last := Self.Last + 1;
Identifier := Self.Last;
if Self.Last > Self.Table'Last then
declare
Old : Symbol_Record_Array_Access := Self.Table;
begin
Self.Table := new Symbol_Record_Array (0 .. Old'Last + 32);
Self.Table (Old'Range) := Old.all;
Free (Old);
end;
end if;
Self.Table (Identifier) :=
(String =>
Matreshka.Internals.Strings.Operations.Slice
(String, First, Size, Length),
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end if;
if Namespaces
and then not Self.Table (Identifier).Namespace_Processed
then
D_Position := First;
D_Index := 1;
Found := False;
while D_Position < First + Size loop
Unchecked_Next (String.Value, D_Position, C);
D_Index := D_Index + 1;
if C = Colon then
if Found then
-- Second colon found in qualified name, document is not
-- wellformed.
Identifier := No_Symbol;
Qname_Error := Multiple_Colons;
return;
else
-- Colon occupy one code unit, use this fact instead of
-- more expensive Unchecked_Previous.
C_Position := D_Position - 1;
C_Index := D_Index - 1;
Found := True;
end if;
end if;
end loop;
if Found then
if C_Position = First then
-- Colon is the first character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_Start;
return;
elsif C_Position = First + Size - 1 then
-- Colon is the last character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_End;
return;
end if;
-- Check whether the first character after colon belongs to
-- NSNameStartChar.
D_Position := C_Position + 1;
Unchecked_Next (String.Value, D_Position, C);
if not Is_Valid_NS_Name_Start_Character (C) then
Identifier := No_Symbol;
Qname_Error := First_Character_Is_Not_NS_Name_Start_Char;
return;
end if;
Insert
(Self,
String,
First,
C_Position - First,
C_Index - 1,
False,
Qname_Error,
Prefix_Name);
Insert
(Self,
String,
C_Position + 1,
First + Size - C_Position - 1,
Length - C_Index,
False,
Qname_Error,
Local_Name);
Self.Table (Identifier).Prefix_Name := Prefix_Name;
Self.Table (Identifier).Local_Name := Local_Name;
else
Self.Table (Identifier).Local_Name := Identifier;
end if;
Self.Table (Identifier).Namespace_Processed := True;
end if;
Qname_Error := Valid;
end Insert;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
Identifier : out Symbol_Identifier)
is
Error : Qualified_Name_Errors;
begin
Insert
(Self,
String,
0,
String.Unused,
String.Length,
False,
Error,
Identifier);
end Insert;
--------------------------------------
-- Is_Valid_NS_Name_Start_Character --
--------------------------------------
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean
is
use type Matreshka.Internals.Unicode.Code_Point;
begin
return
Code in 16#0041# .. 16#005A# -- A-Z
or Code = 16#005F# -- _
or Code in 16#0061# .. 16#007A# -- a-z
or Code in 16#00C0# .. 16#00D6# -- \u00C0-\u00D6
or Code in 16#00D8# .. 16#00F6# -- \u00D8-\u00F6
or Code in 16#00F8# .. 16#02FF# -- \u00F8-\u02FF
or Code in 16#0370# .. 16#037D# -- \u0370-\u037D
or Code in 16#037F# .. 16#1FFF# -- \u037F-\u1FFF
or Code in 16#200C# .. 16#200D# -- \u200C-\u200D
or Code in 16#2070# .. 16#218F# -- \u2070-\u218F
or Code in 16#2C00# .. 16#2FEF# -- \u2C00-\u2FEF
or Code in 16#3001# .. 16#D7FF# -- \u3001-\uD7FF
or Code in 16#F900# .. 16#FDCF# -- \uF900-\uFDCF
or Code in 16#FDF0# .. 16#FFFD# -- \uFDF0-\uFFFD
or Code in 16#10000# .. 16#EFFFF#; -- \u10000-\uEFFFF
end Is_Valid_NS_Name_Start_Character;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Local_Name;
end Local_Name;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Self.Table (Identifier).Local_Name).String;
end Local_Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Identifier).String;
end Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return League.Strings.Universal_String is
begin
return League.Strings.Internals.Create (Self.Table (Identifier).String);
end Name;
--------------
-- Notation --
--------------
function Notation
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Notation_Identifier is
begin
return Self.Table (Identifier).Notation;
end Notation;
----------------------
-- Parameter_Entity --
----------------------
function Parameter_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).Parameter_Entity;
end Parameter_Entity;
-----------------
-- Prefix_Name --
-----------------
function Prefix_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Prefix_Name;
end Prefix_Name;
-----------
-- Reset --
-----------
procedure Reset (Self : in out Symbol_Table) is
begin
Finalize (Self);
Initialize (Self);
end Reset;
-----------------
-- Set_Element --
-----------------
procedure Set_Element
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Element : Element_Identifier) is
begin
Self.Table (Identifier).Element := Element;
end Set_Element;
------------------------
-- Set_General_Entity --
------------------------
procedure Set_General_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).General_Entity := Entity;
end Set_General_Entity;
------------------
-- Set_Notation --
------------------
procedure Set_Notation
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Notation : Notation_Identifier) is
begin
Self.Table (Identifier).Notation := Notation;
end Set_Notation;
--------------------------
-- Set_Parameter_Entity --
--------------------------
procedure Set_Parameter_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).Parameter_Entity := Entity;
end Set_Parameter_Entity;
end Matreshka.Internals.XML.Symbol_Tables;
| 6700 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2010-2017, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides symbol table to store frequently used strings,
-- allocate identifier for them and reduce number of memory allocations by
-- reusing shared strings.
------------------------------------------------------------------------------
with Ada.Unchecked_Deallocation;
with League.Strings.Internals;
with Matreshka.Internals.Strings.Operations;
with Matreshka.Internals.Unicode.Characters.Latin;
package body Matreshka.Internals.XML.Symbol_Tables is
use Matreshka.Internals.Unicode.Characters.Latin;
procedure Free is
new Ada.Unchecked_Deallocation
(Symbol_Record_Array, Symbol_Record_Array_Access);
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean;
-- Returns True when code point belongs to NSNameStartChar.
-------------
-- Element --
-------------
function Element
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Element_Identifier is
begin
return Self.Table (Identifier).Element;
end Element;
--------------
-- Finalize --
--------------
procedure Finalize (Self : in out Symbol_Table) is
begin
for J in Self.Table'First .. Self.Last loop
Matreshka.Internals.Strings.Dereference (Self.Table (J).String);
end loop;
Free (Self.Table);
end Finalize;
--------------------
-- General_Entity --
--------------------
function General_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).General_Entity;
end General_Entity;
----------------
-- Initialize --
----------------
procedure Initialize (Self : in out Symbol_Table) is
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier);
-- Registers predefined entity.
procedure Register_Symbol (Name : League.Strings.Universal_String);
--------------------------------
-- Register_Predefined_Entity --
--------------------------------
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier)
is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => Entity);
end Register_Predefined_Entity;
---------------------
-- Register_Symbol --
---------------------
procedure Register_Symbol (Name : League.Strings.Universal_String) is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end Register_Symbol;
begin
Self.Table := new Symbol_Record_Array (0 .. 31);
Self.Table (No_Symbol) :=
(String => Matreshka.Internals.Strings.Shared_Empty'Access,
Namespace_Processed => True,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
Self.Last := No_Symbol;
-- Register predefined entities.
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("lt"),
Entity => Entity_lt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("gt"),
Entity => Entity_gt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("amp"),
Entity => Entity_amp);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("apos"),
Entity => Entity_apos);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("quot"),
Entity => Entity_quot);
-- Register attribute type's names.
Register_Symbol (League.Strings.To_Universal_String ("CDATA"));
Register_Symbol (League.Strings.To_Universal_String ("ID"));
Register_Symbol (League.Strings.To_Universal_String ("IDREF"));
Register_Symbol (League.Strings.To_Universal_String ("IDREFS"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKEN"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKENS"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITY"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITIES"));
Register_Symbol (League.Strings.To_Universal_String ("NOTATION"));
-- Register well known names and namespaces.
Register_Symbol (League.Strings.To_Universal_String ("xml"));
Register_Symbol (League.Strings.To_Universal_String ("xmlns"));
Register_Symbol
(League.Strings.To_Universal_String
("http://www.w3.org/XML/1998/namespace"));
Register_Symbol
(League.Strings.To_Universal_String ("http://www.w3.org/2000/xmlns/"));
Register_Symbol (League.Strings.To_Universal_String ("xml:base"));
end Initialize;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
First : Matreshka.Internals.Utf16.Utf16_String_Index;
Size : Matreshka.Internals.Utf16.Utf16_String_Index;
Length : Natural;
Namespaces : Boolean;
Qname_Error : out Qualified_Name_Errors;
Identifier : out Symbol_Identifier)
is
use Matreshka.Internals.Unicode;
use Matreshka.Internals.Utf16;
D_Position : Utf16_String_Index;
D_Index : Natural;
C : Code_Point;
C_Position : Utf16_String_Index;
C_Index : Natural;
Found : Boolean := False;
N_Position : Utf16_String_Index;
T_Position : Utf16_String_Index;
Prefix_Name : Symbol_Identifier;
Local_Name : Symbol_Identifier;
begin
for J in Self.Table'First .. Self.Last loop
if Self.Table (J).String.Unused = Size then
N_Position := First;
T_Position := 0;
while N_Position < First + Size loop
exit when
String.Value (N_Position)
/= Self.Table (J).String.Value (T_Position);
N_Position := N_Position + 1;
T_Position := T_Position + 1;
end loop;
if N_Position = First + Size then
Identifier := J;
Found := True;
exit;
end if;
end if;
end loop;
if not Found then
Self.Last := Self.Last + 1;
Identifier := Self.Last;
if Self.Last > Self.Table'Last then
declare
Old : Symbol_Record_Array_Access := Self.Table;
begin
Self.Table := new Symbol_Record_Array (0 .. Old'Last + 32);
Self.Table (Old'Range) := Old.all;
Free (Old);
end;
end if;
Self.Table (Identifier) :=
(String =>
Matreshka.Internals.Strings.Operations.Slice
(String, First, Size, Length),
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end if;
if Namespaces
and then not Self.Table (Identifier).Namespace_Processed
then
D_Position := First;
D_Index := 1;
Found := False;
while D_Position < First + Size loop
Unchecked_Next (String.Value, D_Position, C);
D_Index := D_Index + 1;
if C = Colon then
if Found then
-- Second colon found in qualified name, document is not
-- wellformed.
Identifier := No_Symbol;
Qname_Error := Multiple_Colons;
return;
else
-- Colon occupy one code unit, use this fact instead of
-- more expensive Unchecked_Previous.
C_Position := D_Position - 1;
C_Index := D_Index - 1;
Found := True;
end if;
end if;
end loop;
if Found then
if C_Position = First then
-- Colon is the first character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_Start;
return;
elsif C_Position = First + Size - 1 then
-- Colon is the last character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_End;
return;
end if;
-- Check whether the first character after colon belongs to
-- NSNameStartChar.
D_Position := C_Position + 1;
Unchecked_Next (String.Value, D_Position, C);
if not Is_Valid_NS_Name_Start_Character (C) then
Identifier := No_Symbol;
Qname_Error := First_Character_Is_Not_NS_Name_Start_Char;
return;
end if;
Insert
(Self,
String,
First,
C_Position - First,
C_Index - 1,
False,
Qname_Error,
Prefix_Name);
Insert
(Self,
String,
C_Position + 1,
First + Size - C_Position - 1,
Length - C_Index,
False,
Qname_Error,
Local_Name);
Self.Table (Identifier).Prefix_Name := Prefix_Name;
Self.Table (Identifier).Local_Name := Local_Name;
else
Self.Table (Identifier).Local_Name := Identifier;
end if;
Self.Table (Identifier).Namespace_Processed := True;
end if;
Qname_Error := Valid;
end Insert;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
Identifier : out Symbol_Identifier)
is
Error : Qualified_Name_Errors;
begin
Insert
(Self,
String,
0,
String.Unused,
String.Length,
False,
Error,
Identifier);
end Insert;
--------------------------------------
-- Is_Valid_NS_Name_Start_Character --
--------------------------------------
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean
is
use type Matreshka.Internals.Unicode.Code_Point;
begin
return
Code in 16#0041# .. 16#005A# -- A-Z
or Code = 16#005F# -- _
or Code in 16#0061# .. 16#007A# -- a-z
or Code in 16#00C0# .. 16#00D6# -- \u00C0-\u00D6
or Code in 16#00D8# .. 16#00F6# -- \u00D8-\u00F6
or Code in 16#00F8# .. 16#02FF# -- \u00F8-\u02FF
or Code in 16#0370# .. 16#037D# -- \u0370-\u037D
or Code in 16#037F# .. 16#1FFF# -- \u037F-\u1FFF
or Code in 16#200C# .. 16#200D# -- \u200C-\u200D
or Code in 16#2070# .. 16#218F# -- \u2070-\u218F
or Code in 16#2C00# .. 16#2FEF# -- \u2C00-\u2FEF
or Code in 16#3001# .. 16#D7FF# -- \u3001-\uD7FF
or Code in 16#F900# .. 16#FDCF# -- \uF900-\uFDCF
or Code in 16#FDF0# .. 16#FFFD# -- \uFDF0-\uFFFD
or Code in 16#10000# .. 16#EFFFF#; -- \u10000-\uEFFFF
end Is_Valid_NS_Name_Start_Character;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Local_Name;
end Local_Name;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Self.Table (Identifier).Local_Name).String;
end Local_Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Identifier).String;
end Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return League.Strings.Universal_String is
begin
return League.Strings.Internals.Create (Self.Table (Identifier).String);
end Name;
--------------
-- Notation --
--------------
function Notation
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Notation_Identifier is
begin
return Self.Table (Identifier).Notation;
end Notation;
----------------------
-- Parameter_Entity --
----------------------
function Parameter_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).Parameter_Entity;
end Parameter_Entity;
-----------------
-- Prefix_Name --
-----------------
function Prefix_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Prefix_Name;
end Prefix_Name;
-----------
-- Reset --
-----------
procedure Reset (Self : in out Symbol_Table) is
begin
Finalize (Self);
Initialize (Self);
end Reset;
-----------------
-- Set_Element --
-----------------
procedure Set_Element
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Element : Element_Identifier) is
begin
Self.Table (Identifier).Element := Element;
end Set_Element;
------------------------
-- Set_General_Entity --
------------------------
procedure Set_General_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).General_Entity := Entity;
end Set_General_Entity;
------------------
-- Set_Notation --
------------------
procedure Set_Notation
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Notation : Notation_Identifier) is
begin
Self.Table (Identifier).Notation := Notation;
end Set_Notation;
--------------------------
-- Set_Parameter_Entity --
--------------------------
procedure Set_Parameter_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).Parameter_Entity := Entity;
end Set_Parameter_Entity;
end Matreshka.Internals.XML.Symbol_Tables;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- XML Processor --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2010-2017, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This package provides symbol table to store frequently used strings,
-- allocate identifier for them and reduce number of memory allocations by
-- reusing shared strings.
------------------------------------------------------------------------------
with Ada.Unchecked_Deallocation;
with League.Strings.Internals;
with Matreshka.Internals.Strings.Operations;
with Matreshka.Internals.Unicode.Characters.Latin;
package body Matreshka.Internals.XML.Symbol_Tables is
use Matreshka.Internals.Unicode.Characters.Latin;
procedure Free is
new Ada.Unchecked_Deallocation
(Symbol_Record_Array, Symbol_Record_Array_Access);
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean;
-- Returns True when code point belongs to NSNameStartChar.
-------------
-- Element --
-------------
function Element
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Element_Identifier is
begin
return Self.Table (Identifier).Element;
end Element;
--------------
-- Finalize --
--------------
procedure Finalize (Self : in out Symbol_Table) is
begin
for J in Self.Table'First .. Self.Last loop
Matreshka.Internals.Strings.Dereference (Self.Table (J).String);
end loop;
Free (Self.Table);
end Finalize;
--------------------
-- General_Entity --
--------------------
function General_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).General_Entity;
end General_Entity;
----------------
-- Initialize --
----------------
procedure Initialize (Self : in out Symbol_Table) is
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier);
-- Registers predefined entity.
procedure Register_Symbol (Name : League.Strings.Universal_String);
--------------------------------
-- Register_Predefined_Entity --
--------------------------------
procedure Register_Predefined_Entity
(Name : League.Strings.Universal_String;
Entity : Entity_Identifier)
is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => Entity);
end Register_Predefined_Entity;
---------------------
-- Register_Symbol --
---------------------
procedure Register_Symbol (Name : League.Strings.Universal_String) is
N : constant Matreshka.Internals.Strings.Shared_String_Access
:= League.Strings.Internals.Internal (Name);
begin
Matreshka.Internals.Strings.Reference (N);
Self.Last := Self.Last + 1;
Self.Table (Self.Last) :=
(String => N,
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end Register_Symbol;
begin
Self.Table := new Symbol_Record_Array (0 .. 31);
Self.Table (No_Symbol) :=
(String => Matreshka.Internals.Strings.Shared_Empty'Access,
Namespace_Processed => True,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
Self.Last := No_Symbol;
-- Register predefined entities.
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("lt"),
Entity => Entity_lt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("gt"),
Entity => Entity_gt);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("amp"),
Entity => Entity_amp);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("apos"),
Entity => Entity_apos);
Register_Predefined_Entity
(Name => League.Strings.To_Universal_String ("quot"),
Entity => Entity_quot);
-- Register attribute type's names.
Register_Symbol (League.Strings.To_Universal_String ("CDATA"));
Register_Symbol (League.Strings.To_Universal_String ("ID"));
Register_Symbol (League.Strings.To_Universal_String ("IDREF"));
Register_Symbol (League.Strings.To_Universal_String ("IDREFS"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKEN"));
Register_Symbol (League.Strings.To_Universal_String ("NMTOKENS"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITY"));
Register_Symbol (League.Strings.To_Universal_String ("ENTITIES"));
Register_Symbol (League.Strings.To_Universal_String ("NOTATION"));
-- Register well known names and namespaces.
Register_Symbol (League.Strings.To_Universal_String ("xml"));
Register_Symbol (League.Strings.To_Universal_String ("xmlns"));
Register_Symbol
(League.Strings.To_Universal_String
("http://www.w3.org/XML/1998/namespace"));
Register_Symbol
(League.Strings.To_Universal_String ("http://www.w3.org/2000/xmlns/"));
Register_Symbol (League.Strings.To_Universal_String ("xml:base"));
end Initialize;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
First : Matreshka.Internals.Utf16.Utf16_String_Index;
Size : Matreshka.Internals.Utf16.Utf16_String_Index;
Length : Natural;
Namespaces : Boolean;
Qname_Error : out Qualified_Name_Errors;
Identifier : out Symbol_Identifier)
is
use Matreshka.Internals.Unicode;
use Matreshka.Internals.Utf16;
D_Position : Utf16_String_Index;
D_Index : Natural;
C : Code_Point;
C_Position : Utf16_String_Index;
C_Index : Natural;
Found : Boolean := False;
N_Position : Utf16_String_Index;
T_Position : Utf16_String_Index;
Prefix_Name : Symbol_Identifier;
Local_Name : Symbol_Identifier;
begin
for J in Self.Table'First .. Self.Last loop
if Self.Table (J).String.Unused = Size then
N_Position := First;
T_Position := 0;
while N_Position < First + Size loop
exit when
String.Value (N_Position)
/= Self.Table (J).String.Value (T_Position);
N_Position := N_Position + 1;
T_Position := T_Position + 1;
end loop;
if N_Position = First + Size then
Identifier := J;
Found := True;
exit;
end if;
end if;
end loop;
if not Found then
Self.Last := Self.Last + 1;
Identifier := Self.Last;
if Self.Last > Self.Table'Last then
declare
Old : Symbol_Record_Array_Access := Self.Table;
begin
Self.Table := new Symbol_Record_Array (0 .. Old'Last + 32);
Self.Table (Old'Range) := Old.all;
Free (Old);
end;
end if;
Self.Table (Identifier) :=
(String =>
Matreshka.Internals.Strings.Operations.Slice
(String, First, Size, Length),
Namespace_Processed => False,
Prefix_Name => No_Symbol,
Local_Name => No_Symbol,
Element => No_Element,
Notation => No_Notation,
Parameter_Entity => No_Entity,
General_Entity => No_Entity);
end if;
if Namespaces
and then not Self.Table (Identifier).Namespace_Processed
then
D_Position := First;
D_Index := 1;
Found := False;
while D_Position < First + Size loop
Unchecked_Next (String.Value, D_Position, C);
D_Index := D_Index + 1;
if C = Colon then
if Found then
-- Second colon found in qualified name, document is not
-- wellformed.
Identifier := No_Symbol;
Qname_Error := Multiple_Colons;
return;
else
-- Colon occupy one code unit, use this fact instead of
-- more expensive Unchecked_Previous.
C_Position := D_Position - 1;
C_Index := D_Index - 1;
Found := True;
end if;
end if;
end loop;
if Found then
if C_Position = First then
-- Colon is the first character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_Start;
return;
elsif C_Position = First + Size - 1 then
-- Colon is the last character in the qualified name,
-- document is not wellformed.
Identifier := No_Symbol;
Qname_Error := Colon_At_End;
return;
end if;
-- Check whether the first character after colon belongs to
-- NSNameStartChar.
D_Position := C_Position + 1;
Unchecked_Next (String.Value, D_Position, C);
if not Is_Valid_NS_Name_Start_Character (C) then
Identifier := No_Symbol;
Qname_Error := First_Character_Is_Not_NS_Name_Start_Char;
return;
end if;
Insert
(Self,
String,
First,
C_Position - First,
C_Index - 1,
False,
Qname_Error,
Prefix_Name);
Insert
(Self,
String,
C_Position + 1,
First + Size - C_Position - 1,
Length - C_Index,
False,
Qname_Error,
Local_Name);
Self.Table (Identifier).Prefix_Name := Prefix_Name;
Self.Table (Identifier).Local_Name := Local_Name;
else
Self.Table (Identifier).Local_Name := Identifier;
end if;
Self.Table (Identifier).Namespace_Processed := True;
end if;
Qname_Error := Valid;
end Insert;
------------
-- Insert --
------------
procedure Insert
(Self : in out Symbol_Table;
String : not null Matreshka.Internals.Strings.Shared_String_Access;
Identifier : out Symbol_Identifier)
is
Error : Qualified_Name_Errors;
begin
Insert
(Self,
String,
0,
String.Unused,
String.Length,
False,
Error,
Identifier);
end Insert;
--------------------------------------
-- Is_Valid_NS_Name_Start_Character --
--------------------------------------
function Is_Valid_NS_Name_Start_Character
(Code : Matreshka.Internals.Unicode.Code_Point) return Boolean
is
use type Matreshka.Internals.Unicode.Code_Point;
begin
return
Code in 16#0041# .. 16#005A# -- A-Z
or Code = 16#005F# -- _
or Code in 16#0061# .. 16#007A# -- a-z
or Code in 16#00C0# .. 16#00D6# -- \u00C0-\u00D6
or Code in 16#00D8# .. 16#00F6# -- \u00D8-\u00F6
or Code in 16#00F8# .. 16#02FF# -- \u00F8-\u02FF
or Code in 16#0370# .. 16#037D# -- \u0370-\u037D
or Code in 16#037F# .. 16#1FFF# -- \u037F-\u1FFF
or Code in 16#200C# .. 16#200D# -- \u200C-\u200D
or Code in 16#2070# .. 16#218F# -- \u2070-\u218F
or Code in 16#2C00# .. 16#2FEF# -- \u2C00-\u2FEF
or Code in 16#3001# .. 16#D7FF# -- \u3001-\uD7FF
or Code in 16#F900# .. 16#FDCF# -- \uF900-\uFDCF
or Code in 16#FDF0# .. 16#FFFD# -- \uFDF0-\uFFFD
or Code in 16#10000# .. 16#EFFFF#; -- \u10000-\uEFFFF
end Is_Valid_NS_Name_Start_Character;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Local_Name;
end Local_Name;
----------------
-- Local_Name --
----------------
function Local_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Self.Table (Identifier).Local_Name).String;
end Local_Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier)
return not null Matreshka.Internals.Strings.Shared_String_Access is
begin
return Self.Table (Identifier).String;
end Name;
----------
-- Name --
----------
function Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return League.Strings.Universal_String is
begin
return League.Strings.Internals.Create (Self.Table (Identifier).String);
end Name;
--------------
-- Notation --
--------------
function Notation
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Notation_Identifier is
begin
return Self.Table (Identifier).Notation;
end Notation;
----------------------
-- Parameter_Entity --
----------------------
function Parameter_Entity
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Entity_Identifier is
begin
return Self.Table (Identifier).Parameter_Entity;
end Parameter_Entity;
-----------------
-- Prefix_Name --
-----------------
function Prefix_Name
(Self : Symbol_Table;
Identifier : Symbol_Identifier) return Symbol_Identifier is
begin
return Self.Table (Identifier).Prefix_Name;
end Prefix_Name;
-----------
-- Reset --
-----------
procedure Reset (Self : in out Symbol_Table) is
begin
Finalize (Self);
Initialize (Self);
end Reset;
-----------------
-- Set_Element --
-----------------
procedure Set_Element
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Element : Element_Identifier) is
begin
Self.Table (Identifier).Element := Element;
end Set_Element;
------------------------
-- Set_General_Entity --
------------------------
procedure Set_General_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).General_Entity := Entity;
end Set_General_Entity;
------------------
-- Set_Notation --
------------------
procedure Set_Notation
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Notation : Notation_Identifier) is
begin
Self.Table (Identifier).Notation := Notation;
end Set_Notation;
--------------------------
-- Set_Parameter_Entity --
--------------------------
procedure Set_Parameter_Entity
(Self : in out Symbol_Table;
Identifier : Symbol_Identifier;
Entity : Entity_Identifier) is
begin
Self.Table (Identifier).Parameter_Entity := Entity;
end Set_Parameter_Entity;
end Matreshka.Internals.XML.Symbol_Tables;
|
[
{
"context": "elpers for service contexts\n-- Copyright (C) 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 167,
"score": 0.9998733401298523,
"start": 152,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2013 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 198,
"score": 0.9998806118965149,
"start": 183,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "3 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 225,
"score": 0.999927818775177,
"start": 200,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | awa/awaunit/awa-tests-helpers-contexts.adb | fuzzysloth/ada-awa | 81 | -----------------------------------------------------------------------
-- users-tests-contexts -- Helpers for service contexts
-- Copyright (C) 2013 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
package body AWA.Tests.Helpers.Contexts is
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
Pos : constant Util.Beans.Objects.Maps.Cursor := Ctx.Session_Attributes.Find (Name);
begin
if Util.Beans.Objects.Maps.Has_Element (Pos) then
return Util.Beans.Objects.Maps.Element (Pos);
else
return Util.Beans.Objects.Null_Object;
end if;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
Ctx.Session_Attributes.Include (Name, Value);
end Set_Session_Attribute;
end AWA.Tests.Helpers.Contexts;
| 25311 | -----------------------------------------------------------------------
-- users-tests-contexts -- Helpers for service contexts
-- Copyright (C) 2013 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
package body AWA.Tests.Helpers.Contexts is
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
Pos : constant Util.Beans.Objects.Maps.Cursor := Ctx.Session_Attributes.Find (Name);
begin
if Util.Beans.Objects.Maps.Has_Element (Pos) then
return Util.Beans.Objects.Maps.Element (Pos);
else
return Util.Beans.Objects.Null_Object;
end if;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
Ctx.Session_Attributes.Include (Name, Value);
end Set_Session_Attribute;
end AWA.Tests.Helpers.Contexts;
| true | -----------------------------------------------------------------------
-- users-tests-contexts -- Helpers for service contexts
-- Copyright (C) 2013 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
package body AWA.Tests.Helpers.Contexts is
-- ------------------------------
-- Get the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
function Get_Session_Attribute (Ctx : in Service_Context;
Name : in String) return Util.Beans.Objects.Object is
Pos : constant Util.Beans.Objects.Maps.Cursor := Ctx.Session_Attributes.Find (Name);
begin
if Util.Beans.Objects.Maps.Has_Element (Pos) then
return Util.Beans.Objects.Maps.Element (Pos);
else
return Util.Beans.Objects.Null_Object;
end if;
end Get_Session_Attribute;
-- ------------------------------
-- Set the attribute registered under the given name in the HTTP session.
-- ------------------------------
overriding
procedure Set_Session_Attribute (Ctx : in out Service_Context;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
Ctx.Session_Attributes.Include (Name, Value);
end Set_Session_Attribute;
end AWA.Tests.Helpers.Contexts;
|
[
{
"context": " --\n-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --\n-- Al",
"end": 824,
"score": 0.9998863339424133,
"start": 811,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 844,
"score": 0.9999317526817322,
"start": 826,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/mofext/amf-internals-mof_tags.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with AMF.Internals.MOF_Elements;
with AMF.MOF.Tags;
with AMF.UML.Comments.Collections;
with AMF.UML.Elements.Collections;
with AMF.Visitors;
package AMF.Internals.MOF_Tags is
type MOF_Tag_Proxy is
limited new AMF.Internals.MOF_Elements.MOF_Element_Proxy
and AMF.MOF.Tags.MOF_Tag with null record;
overriding function Get_Name
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::name.
--
overriding procedure Set_Name
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::name.
--
overriding function Get_Value
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::value.
--
overriding procedure Set_Value
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::value.
--
overriding function Get_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Tag::element.
--
overriding function Get_Tag_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Tag::tagOwner.
--
overriding procedure Set_Tag_Owner
(Self : not null access MOF_Tag_Proxy;
To : AMF.UML.Elements.UML_Element_Access);
-- Setter of Tag::tagOwner.
--
overriding function Get_Owned_Comment
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Comments.Collections.Set_Of_UML_Comment;
-- Getter of Element::ownedComment.
--
-- The Comments owned by this element.
overriding function Get_Owned_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Element::ownedElement.
--
-- The Elements owned by this element.
overriding function Get_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Element::owner.
--
-- The Element that owns this element.
overriding function All_Owned_Elements
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Operation Element::allOwnedElements.
--
-- The query allOwnedElements() gives all of the direct and indirect owned
-- elements of an element.
overriding function Must_Be_Owned
(Self : not null access constant MOF_Tag_Proxy)
return Boolean;
-- Operation Element::mustBeOwned.
--
-- The query mustBeOwned() indicates whether elements of this type must
-- have an owner. Subclasses of Element that do not require an owner must
-- override this operation.
overriding procedure Enter_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Leave_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Visit_Element
(Self : not null access constant MOF_Tag_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of iterator interface.
end AMF.Internals.MOF_Tags;
| 20771 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with AMF.Internals.MOF_Elements;
with AMF.MOF.Tags;
with AMF.UML.Comments.Collections;
with AMF.UML.Elements.Collections;
with AMF.Visitors;
package AMF.Internals.MOF_Tags is
type MOF_Tag_Proxy is
limited new AMF.Internals.MOF_Elements.MOF_Element_Proxy
and AMF.MOF.Tags.MOF_Tag with null record;
overriding function Get_Name
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::name.
--
overriding procedure Set_Name
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::name.
--
overriding function Get_Value
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::value.
--
overriding procedure Set_Value
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::value.
--
overriding function Get_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Tag::element.
--
overriding function Get_Tag_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Tag::tagOwner.
--
overriding procedure Set_Tag_Owner
(Self : not null access MOF_Tag_Proxy;
To : AMF.UML.Elements.UML_Element_Access);
-- Setter of Tag::tagOwner.
--
overriding function Get_Owned_Comment
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Comments.Collections.Set_Of_UML_Comment;
-- Getter of Element::ownedComment.
--
-- The Comments owned by this element.
overriding function Get_Owned_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Element::ownedElement.
--
-- The Elements owned by this element.
overriding function Get_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Element::owner.
--
-- The Element that owns this element.
overriding function All_Owned_Elements
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Operation Element::allOwnedElements.
--
-- The query allOwnedElements() gives all of the direct and indirect owned
-- elements of an element.
overriding function Must_Be_Owned
(Self : not null access constant MOF_Tag_Proxy)
return Boolean;
-- Operation Element::mustBeOwned.
--
-- The query mustBeOwned() indicates whether elements of this type must
-- have an owner. Subclasses of Element that do not require an owner must
-- override this operation.
overriding procedure Enter_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Leave_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Visit_Element
(Self : not null access constant MOF_Tag_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of iterator interface.
end AMF.Internals.MOF_Tags;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with AMF.Internals.MOF_Elements;
with AMF.MOF.Tags;
with AMF.UML.Comments.Collections;
with AMF.UML.Elements.Collections;
with AMF.Visitors;
package AMF.Internals.MOF_Tags is
type MOF_Tag_Proxy is
limited new AMF.Internals.MOF_Elements.MOF_Element_Proxy
and AMF.MOF.Tags.MOF_Tag with null record;
overriding function Get_Name
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::name.
--
overriding procedure Set_Name
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::name.
--
overriding function Get_Value
(Self : not null access constant MOF_Tag_Proxy)
return League.Strings.Universal_String;
-- Getter of Tag::value.
--
overriding procedure Set_Value
(Self : not null access MOF_Tag_Proxy;
To : League.Strings.Universal_String);
-- Setter of Tag::value.
--
overriding function Get_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Tag::element.
--
overriding function Get_Tag_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Tag::tagOwner.
--
overriding procedure Set_Tag_Owner
(Self : not null access MOF_Tag_Proxy;
To : AMF.UML.Elements.UML_Element_Access);
-- Setter of Tag::tagOwner.
--
overriding function Get_Owned_Comment
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Comments.Collections.Set_Of_UML_Comment;
-- Getter of Element::ownedComment.
--
-- The Comments owned by this element.
overriding function Get_Owned_Element
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Getter of Element::ownedElement.
--
-- The Elements owned by this element.
overriding function Get_Owner
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.UML_Element_Access;
-- Getter of Element::owner.
--
-- The Element that owns this element.
overriding function All_Owned_Elements
(Self : not null access constant MOF_Tag_Proxy)
return AMF.UML.Elements.Collections.Set_Of_UML_Element;
-- Operation Element::allOwnedElements.
--
-- The query allOwnedElements() gives all of the direct and indirect owned
-- elements of an element.
overriding function Must_Be_Owned
(Self : not null access constant MOF_Tag_Proxy)
return Boolean;
-- Operation Element::mustBeOwned.
--
-- The query mustBeOwned() indicates whether elements of this type must
-- have an owner. Subclasses of Element that do not require an owner must
-- override this operation.
overriding procedure Enter_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Leave_Element
(Self : not null access constant MOF_Tag_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Visit_Element
(Self : not null access constant MOF_Tag_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of iterator interface.
end AMF.Internals.MOF_Tags;
|
[
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.999863862991333,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.9999313950538635,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | sources/ada/processes.adb | reznikmm/jupyter | 4 | -- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Streams;
with Ada.Exceptions;
with League.Stream_Element_Vectors;
with League.Text_Codecs;
with Spawn.Environments;
with Spawn.Processes.Monitor_Loop;
with Spawn.Processes;
with Spawn.String_Vectors;
package body Processes is
function "+" (Text : Wide_Wide_String)
return League.Strings.Universal_String
renames League.Strings.To_Universal_String;
---------
-- Run --
---------
procedure Run
(Program : League.Strings.Universal_String;
Arguments : League.String_Vectors.Universal_String_Vector;
Directory : League.Strings.Universal_String;
Env : Environment := No_Env;
Output : out League.Strings.Universal_String;
Errors : out League.Strings.Universal_String;
Status : out Integer)
is
type Listener is new Spawn.Processes.Process_Listener with record
Output : League.Stream_Element_Vectors.Stream_Element_Vector;
Errors : League.Stream_Element_Vectors.Stream_Element_Vector;
Status : Integer := 0;
Done : Boolean := False;
Write : Boolean := True;
end record;
procedure Standard_Output_Available (Self : in out Listener);
procedure Standard_Error_Available (Self : in out Listener);
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code);
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer);
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence);
Process : Spawn.Processes.Process;
Codec : constant League.Text_Codecs.Text_Codec :=
League.Text_Codecs.Codec_For_Application_Locale;
-------------------------------
-- Standard_Output_Available --
-------------------------------
procedure Standard_Output_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Output (Data, Last);
exit when Last < Data'First;
Self.Output.Append (Data (1 .. Last));
end loop;
end Standard_Output_Available;
------------------------------
-- Standard_Error_Available --
------------------------------
procedure Standard_Error_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Error (Data, Last);
exit when Last < Data'First;
Self.Errors.Append (Data (1 .. Last));
end loop;
end Standard_Error_Available;
--------------
-- Finished --
--------------
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code) is
pragma Unreferenced (Exit_Status);
begin
Self.Status := Integer (Exit_Code);
Self.Done := True;
end Finished;
--------------------
-- Error_Occurred --
--------------------
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer) is
pragma Unreferenced (Self);
begin
Errors.Append (+"Error_Occurred");
Self.Status := Process_Error;
Self.Done := True;
end Error_Occurred;
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence) is
begin
Errors.Append
(League.Strings.From_UTF_8_String
(Ada.Exceptions.Exception_Information (Occurrence)));
Self.Status := -1;
Self.Done := True;
end Exception_Occurred;
Args : Spawn.String_Vectors.UTF_8_String_Vector;
Feedback : aliased Listener;
begin
Process.Set_Program (Program.To_UTF_8_String);
for J in 1 .. Arguments.Length loop
Args.Append (Arguments (J).To_UTF_8_String);
end loop;
if Env /= No_Env then
declare
Environment : Spawn.Environments.Process_Environment :=
Process.Environment;
begin
for J in 1 .. Env.Names.Length loop
Environment.Insert
(Env.Names (J).To_UTF_8_String,
Env.Values (J).To_UTF_8_String);
end loop;
Process.Set_Environment (Environment);
end;
end if;
Process.Set_Arguments (Args);
Process.Set_Working_Directory (Directory.To_UTF_8_String);
Process.Set_Listener (Feedback'Unchecked_Access);
Process.Start;
while not Feedback.Done loop
Spawn.Processes.Monitor_Loop (Timeout => 50);
end loop;
Output := Codec.Decode (Feedback.Output);
Errors.Append (Codec.Decode (Feedback.Errors));
Status := Feedback.Status;
end Run;
end Processes;
| 4215 | -- SPDX-FileCopyrightText: 2020 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Streams;
with Ada.Exceptions;
with League.Stream_Element_Vectors;
with League.Text_Codecs;
with Spawn.Environments;
with Spawn.Processes.Monitor_Loop;
with Spawn.Processes;
with Spawn.String_Vectors;
package body Processes is
function "+" (Text : Wide_Wide_String)
return League.Strings.Universal_String
renames League.Strings.To_Universal_String;
---------
-- Run --
---------
procedure Run
(Program : League.Strings.Universal_String;
Arguments : League.String_Vectors.Universal_String_Vector;
Directory : League.Strings.Universal_String;
Env : Environment := No_Env;
Output : out League.Strings.Universal_String;
Errors : out League.Strings.Universal_String;
Status : out Integer)
is
type Listener is new Spawn.Processes.Process_Listener with record
Output : League.Stream_Element_Vectors.Stream_Element_Vector;
Errors : League.Stream_Element_Vectors.Stream_Element_Vector;
Status : Integer := 0;
Done : Boolean := False;
Write : Boolean := True;
end record;
procedure Standard_Output_Available (Self : in out Listener);
procedure Standard_Error_Available (Self : in out Listener);
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code);
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer);
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence);
Process : Spawn.Processes.Process;
Codec : constant League.Text_Codecs.Text_Codec :=
League.Text_Codecs.Codec_For_Application_Locale;
-------------------------------
-- Standard_Output_Available --
-------------------------------
procedure Standard_Output_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Output (Data, Last);
exit when Last < Data'First;
Self.Output.Append (Data (1 .. Last));
end loop;
end Standard_Output_Available;
------------------------------
-- Standard_Error_Available --
------------------------------
procedure Standard_Error_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Error (Data, Last);
exit when Last < Data'First;
Self.Errors.Append (Data (1 .. Last));
end loop;
end Standard_Error_Available;
--------------
-- Finished --
--------------
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code) is
pragma Unreferenced (Exit_Status);
begin
Self.Status := Integer (Exit_Code);
Self.Done := True;
end Finished;
--------------------
-- Error_Occurred --
--------------------
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer) is
pragma Unreferenced (Self);
begin
Errors.Append (+"Error_Occurred");
Self.Status := Process_Error;
Self.Done := True;
end Error_Occurred;
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence) is
begin
Errors.Append
(League.Strings.From_UTF_8_String
(Ada.Exceptions.Exception_Information (Occurrence)));
Self.Status := -1;
Self.Done := True;
end Exception_Occurred;
Args : Spawn.String_Vectors.UTF_8_String_Vector;
Feedback : aliased Listener;
begin
Process.Set_Program (Program.To_UTF_8_String);
for J in 1 .. Arguments.Length loop
Args.Append (Arguments (J).To_UTF_8_String);
end loop;
if Env /= No_Env then
declare
Environment : Spawn.Environments.Process_Environment :=
Process.Environment;
begin
for J in 1 .. Env.Names.Length loop
Environment.Insert
(Env.Names (J).To_UTF_8_String,
Env.Values (J).To_UTF_8_String);
end loop;
Process.Set_Environment (Environment);
end;
end if;
Process.Set_Arguments (Args);
Process.Set_Working_Directory (Directory.To_UTF_8_String);
Process.Set_Listener (Feedback'Unchecked_Access);
Process.Start;
while not Feedback.Done loop
Spawn.Processes.Monitor_Loop (Timeout => 50);
end loop;
Output := Codec.Decode (Feedback.Output);
Errors.Append (Codec.Decode (Feedback.Errors));
Status := Feedback.Status;
end Run;
end Processes;
| true | -- SPDX-FileCopyrightText: 2020 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Streams;
with Ada.Exceptions;
with League.Stream_Element_Vectors;
with League.Text_Codecs;
with Spawn.Environments;
with Spawn.Processes.Monitor_Loop;
with Spawn.Processes;
with Spawn.String_Vectors;
package body Processes is
function "+" (Text : Wide_Wide_String)
return League.Strings.Universal_String
renames League.Strings.To_Universal_String;
---------
-- Run --
---------
procedure Run
(Program : League.Strings.Universal_String;
Arguments : League.String_Vectors.Universal_String_Vector;
Directory : League.Strings.Universal_String;
Env : Environment := No_Env;
Output : out League.Strings.Universal_String;
Errors : out League.Strings.Universal_String;
Status : out Integer)
is
type Listener is new Spawn.Processes.Process_Listener with record
Output : League.Stream_Element_Vectors.Stream_Element_Vector;
Errors : League.Stream_Element_Vectors.Stream_Element_Vector;
Status : Integer := 0;
Done : Boolean := False;
Write : Boolean := True;
end record;
procedure Standard_Output_Available (Self : in out Listener);
procedure Standard_Error_Available (Self : in out Listener);
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code);
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer);
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence);
Process : Spawn.Processes.Process;
Codec : constant League.Text_Codecs.Text_Codec :=
League.Text_Codecs.Codec_For_Application_Locale;
-------------------------------
-- Standard_Output_Available --
-------------------------------
procedure Standard_Output_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Output (Data, Last);
exit when Last < Data'First;
Self.Output.Append (Data (1 .. Last));
end loop;
end Standard_Output_Available;
------------------------------
-- Standard_Error_Available --
------------------------------
procedure Standard_Error_Available (Self : in out Listener) is
use type Ada.Streams.Stream_Element_Count;
Data : Ada.Streams.Stream_Element_Array (1 .. 512);
Last : Ada.Streams.Stream_Element_Count;
begin
loop
Process.Read_Standard_Error (Data, Last);
exit when Last < Data'First;
Self.Errors.Append (Data (1 .. Last));
end loop;
end Standard_Error_Available;
--------------
-- Finished --
--------------
procedure Finished
(Self : in out Listener;
Exit_Status : Spawn.Processes.Process_Exit_Status;
Exit_Code : Spawn.Processes.Process_Exit_Code) is
pragma Unreferenced (Exit_Status);
begin
Self.Status := Integer (Exit_Code);
Self.Done := True;
end Finished;
--------------------
-- Error_Occurred --
--------------------
procedure Error_Occurred
(Self : in out Listener;
Process_Error : Integer) is
pragma Unreferenced (Self);
begin
Errors.Append (+"Error_Occurred");
Self.Status := Process_Error;
Self.Done := True;
end Error_Occurred;
procedure Exception_Occurred
(Self : in out Listener;
Occurrence : Ada.Exceptions.Exception_Occurrence) is
begin
Errors.Append
(League.Strings.From_UTF_8_String
(Ada.Exceptions.Exception_Information (Occurrence)));
Self.Status := -1;
Self.Done := True;
end Exception_Occurred;
Args : Spawn.String_Vectors.UTF_8_String_Vector;
Feedback : aliased Listener;
begin
Process.Set_Program (Program.To_UTF_8_String);
for J in 1 .. Arguments.Length loop
Args.Append (Arguments (J).To_UTF_8_String);
end loop;
if Env /= No_Env then
declare
Environment : Spawn.Environments.Process_Environment :=
Process.Environment;
begin
for J in 1 .. Env.Names.Length loop
Environment.Insert
(Env.Names (J).To_UTF_8_String,
Env.Values (J).To_UTF_8_String);
end loop;
Process.Set_Environment (Environment);
end;
end if;
Process.Set_Arguments (Args);
Process.Set_Working_Directory (Directory.To_UTF_8_String);
Process.Set_Listener (Feedback'Unchecked_Access);
Process.Start;
while not Feedback.Done loop
Spawn.Processes.Monitor_Loop (Timeout => 50);
end loop;
Output := Codec.Decode (Feedback.Output);
Errors.Append (Codec.Decode (Feedback.Errors));
Status := Feedback.Status;
end Run;
end Processes;
|
[
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.9998573064804077,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.9999315142631531,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | tools/generator/meta-writes.ads | reznikmm/gela | 0 | -- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Meta.Classes;
with Meta.Read;
package Meta.Writes is
procedure Write_Elements (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Elements_Body (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Visitors (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Iterators (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Factories
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_Factories_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_One_Element
(Item : Meta.Classes.Class;
With_List : Boolean);
procedure Write_One_Node
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
procedure Write_One_Node_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
end Meta.Writes;
| 3704 | -- SPDX-FileCopyrightText: 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Meta.Classes;
with Meta.Read;
package Meta.Writes is
procedure Write_Elements (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Elements_Body (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Visitors (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Iterators (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Factories
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_Factories_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_One_Element
(Item : Meta.Classes.Class;
With_List : Boolean);
procedure Write_One_Node
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
procedure Write_One_Node_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
end Meta.Writes;
| true | -- SPDX-FileCopyrightText: 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Meta.Classes;
with Meta.Read;
package Meta.Writes is
procedure Write_Elements (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Elements_Body (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Visitors (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Iterators (Vector : Meta.Read.Class_Vectors.Vector);
procedure Write_Factories
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_Factories_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Implicit : Boolean := False);
procedure Write_One_Element
(Item : Meta.Classes.Class;
With_List : Boolean);
procedure Write_One_Node
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
procedure Write_One_Node_Body
(Vector : Meta.Read.Class_Vectors.Vector;
Item : Meta.Classes.Class);
end Meta.Writes;
|
[
{
"context": "-- Ada regular expression library\n-- (c) Kristian Klomsten Skordal 2020 <kristian.skordal@wafflemail.net>\n-- Report",
"end": 68,
"score": 0.9998829364776611,
"start": 43,
"tag": "NAME",
"value": "Kristian Klomsten Skordal"
},
{
"context": "n library\n-- (c) Kristian Klomsten Skordal 2020 <kristian.skordal@wafflemail.net>\n-- Report bugs and issues on <https://github.co",
"end": 106,
"score": 0.9999318718910217,
"start": 75,
"tag": "EMAIL",
"value": "kristian.skordal@wafflemail.net"
},
{
"context": "eport bugs and issues on <https://github.com/skordal/ada-regex>\n\nwith Ada.Unchecked_Deallocation;\n\npac",
"end": 165,
"score": 0.6574476361274719,
"start": 163,
"tag": "USERNAME",
"value": "al"
}
] | src/regex-state_machines.adb | skordal/ada-regex | 2 | -- Ada regular expression library
-- (c) Kristian Klomsten Skordal 2020 <kristian.skordal@wafflemail.net>
-- Report bugs and issues on <https://github.com/skordal/ada-regex>
with Ada.Unchecked_Deallocation;
package body Regex.State_Machines is
use Regex.Syntax_Trees;
function Clone (Object : in Input_Symbol_Access) return Input_Symbol_Access is
New_Object : constant Input_Symbol_Access := new Input_Symbol (Symbol_Type => Object.Symbol_Type);
begin
New_Object.all := Object.all;
return New_Object;
end Clone;
function Compare_Input_Symbols (Left, Right : in Input_Symbol_Access) return Boolean is
begin
case Left.Symbol_Type is
when Single_Character =>
if Right.Symbol_Type = Single_Character then
return Left.Char < Right.Char;
else
return True;
end if;
when Any_Character =>
return False;
end case;
end Compare_Input_Symbols;
function Input_Symbol_Equals (Left, Right : in Input_Symbol_Access) return Boolean is
begin
return Left.all = Right.all;
end Input_Symbol_Equals;
function "<" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Compare_Input_Symbols (Left.Transition_On, Right.Transition_On);
end "<";
function "=" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Input_Symbol_Equals (Left.Transition_On, Right.Transition_On) and Left.Target_State = Right.Target_State;
end "=";
function Create_Transition_On_Symbol (Input_Symbol : in Input_Symbol_Access;
Target_State : in State_Machine_State_Access)
return State_Machine_Transition is
begin
return Retval : State_Machine_Transition do
Retval.Transition_On := Input_Symbol;
Retval.Target_State := Target_State;
end return;
end Create_Transition_On_Symbol;
procedure Adjust (This : in out State_Machine_Transition) is
pragma Assert (This.Transition_On /= null);
New_Input_Symbol : constant Input_Symbol_Access := new Input_Symbol (
Symbol_Type => This.Transition_On.Symbol_Type);
begin
New_Input_Symbol.all := This.Transition_On.all;
This.Transition_On := New_Input_Symbol;
end Adjust;
procedure Finalize (This : in out State_Machine_Transition) is
procedure Free is new Ada.Unchecked_Deallocation (Input_Symbol, Input_Symbol_Access);
begin
Free (This.Transition_On);
end Finalize;
function Create_State (Syntax_Tree_Nodes : in Syntax_Tree_Node_Sets.Sorted_Set) return State_Machine_State_Access is
Retval : constant State_Machine_State_Access := new State_Machine_State'(
Syntax_Tree_Nodes => Syntax_Tree_Nodes,
Transitions => State_Machine_Transition_Vectors.Empty_Vector,
Acceptance_Id => 0,
others => False);
begin
return Retval;
end Create_State;
end Regex.State_Machines;
| 14810 | -- Ada regular expression library
-- (c) <NAME> 2020 <<EMAIL>>
-- Report bugs and issues on <https://github.com/skordal/ada-regex>
with Ada.Unchecked_Deallocation;
package body Regex.State_Machines is
use Regex.Syntax_Trees;
function Clone (Object : in Input_Symbol_Access) return Input_Symbol_Access is
New_Object : constant Input_Symbol_Access := new Input_Symbol (Symbol_Type => Object.Symbol_Type);
begin
New_Object.all := Object.all;
return New_Object;
end Clone;
function Compare_Input_Symbols (Left, Right : in Input_Symbol_Access) return Boolean is
begin
case Left.Symbol_Type is
when Single_Character =>
if Right.Symbol_Type = Single_Character then
return Left.Char < Right.Char;
else
return True;
end if;
when Any_Character =>
return False;
end case;
end Compare_Input_Symbols;
function Input_Symbol_Equals (Left, Right : in Input_Symbol_Access) return Boolean is
begin
return Left.all = Right.all;
end Input_Symbol_Equals;
function "<" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Compare_Input_Symbols (Left.Transition_On, Right.Transition_On);
end "<";
function "=" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Input_Symbol_Equals (Left.Transition_On, Right.Transition_On) and Left.Target_State = Right.Target_State;
end "=";
function Create_Transition_On_Symbol (Input_Symbol : in Input_Symbol_Access;
Target_State : in State_Machine_State_Access)
return State_Machine_Transition is
begin
return Retval : State_Machine_Transition do
Retval.Transition_On := Input_Symbol;
Retval.Target_State := Target_State;
end return;
end Create_Transition_On_Symbol;
procedure Adjust (This : in out State_Machine_Transition) is
pragma Assert (This.Transition_On /= null);
New_Input_Symbol : constant Input_Symbol_Access := new Input_Symbol (
Symbol_Type => This.Transition_On.Symbol_Type);
begin
New_Input_Symbol.all := This.Transition_On.all;
This.Transition_On := New_Input_Symbol;
end Adjust;
procedure Finalize (This : in out State_Machine_Transition) is
procedure Free is new Ada.Unchecked_Deallocation (Input_Symbol, Input_Symbol_Access);
begin
Free (This.Transition_On);
end Finalize;
function Create_State (Syntax_Tree_Nodes : in Syntax_Tree_Node_Sets.Sorted_Set) return State_Machine_State_Access is
Retval : constant State_Machine_State_Access := new State_Machine_State'(
Syntax_Tree_Nodes => Syntax_Tree_Nodes,
Transitions => State_Machine_Transition_Vectors.Empty_Vector,
Acceptance_Id => 0,
others => False);
begin
return Retval;
end Create_State;
end Regex.State_Machines;
| true | -- Ada regular expression library
-- (c) PI:NAME:<NAME>END_PI 2020 <PI:EMAIL:<EMAIL>END_PI>
-- Report bugs and issues on <https://github.com/skordal/ada-regex>
with Ada.Unchecked_Deallocation;
package body Regex.State_Machines is
use Regex.Syntax_Trees;
function Clone (Object : in Input_Symbol_Access) return Input_Symbol_Access is
New_Object : constant Input_Symbol_Access := new Input_Symbol (Symbol_Type => Object.Symbol_Type);
begin
New_Object.all := Object.all;
return New_Object;
end Clone;
function Compare_Input_Symbols (Left, Right : in Input_Symbol_Access) return Boolean is
begin
case Left.Symbol_Type is
when Single_Character =>
if Right.Symbol_Type = Single_Character then
return Left.Char < Right.Char;
else
return True;
end if;
when Any_Character =>
return False;
end case;
end Compare_Input_Symbols;
function Input_Symbol_Equals (Left, Right : in Input_Symbol_Access) return Boolean is
begin
return Left.all = Right.all;
end Input_Symbol_Equals;
function "<" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Compare_Input_Symbols (Left.Transition_On, Right.Transition_On);
end "<";
function "=" (Left, Right : in State_Machine_Transition) return Boolean is
begin
return Input_Symbol_Equals (Left.Transition_On, Right.Transition_On) and Left.Target_State = Right.Target_State;
end "=";
function Create_Transition_On_Symbol (Input_Symbol : in Input_Symbol_Access;
Target_State : in State_Machine_State_Access)
return State_Machine_Transition is
begin
return Retval : State_Machine_Transition do
Retval.Transition_On := Input_Symbol;
Retval.Target_State := Target_State;
end return;
end Create_Transition_On_Symbol;
procedure Adjust (This : in out State_Machine_Transition) is
pragma Assert (This.Transition_On /= null);
New_Input_Symbol : constant Input_Symbol_Access := new Input_Symbol (
Symbol_Type => This.Transition_On.Symbol_Type);
begin
New_Input_Symbol.all := This.Transition_On.all;
This.Transition_On := New_Input_Symbol;
end Adjust;
procedure Finalize (This : in out State_Machine_Transition) is
procedure Free is new Ada.Unchecked_Deallocation (Input_Symbol, Input_Symbol_Access);
begin
Free (This.Transition_On);
end Finalize;
function Create_State (Syntax_Tree_Nodes : in Syntax_Tree_Node_Sets.Sorted_Set) return State_Machine_State_Access is
Retval : constant State_Machine_State_Access := new State_Machine_State'(
Syntax_Tree_Nodes => Syntax_Tree_Nodes,
Transitions => State_Machine_Transition_Vectors.Empty_Vector,
Acceptance_Id => 0,
others => False);
begin
return Retval;
end Create_State;
end Regex.State_Machines;
|
[
{
"context": "\nwith text_io; use text_io;\r\n\r\n-- translated from Marsaglia, Tsang diehard suite.\r\n\r\nprocedure gcd_6",
"end": 212,
"score": 0.5381650924682617,
"start": 211,
"tag": "NAME",
"value": "M"
}
] | disorderly/gcd_6bytes_2.adb | jscparker/math_packages | 30 |
with Disorderly.Basic_Rand; use Disorderly.Basic_Rand;
with Disorderly.Basic_Rand.Clock_Entropy;
with Ada.Numerics.Discrete_Random;
with Chi_Gaussian_CDF;
with text_io; use text_io;
-- translated from Marsaglia, Tsang diehard suite.
procedure gcd_6bytes_2 is
Bits_per_Random_Word : constant := 48;
-- Must set this correctly here. There's no way to check this.
Stream_1 : Disorderly.Basic_Rand.State;
-- Create a stream of Random numbers.
-- Initializing this after the begin, w/ a call to Reset_with_Calendar
subtype gnat_Random_Int is Random_Int range 0 .. 2**Bits_per_Random_Word-1;
package rnd is new ada.numerics.Discrete_Random (gnat_Random_Int);
g : rnd.generator;
-- Call rnd.Reset (g); to initialize.
type Real is digits 15;
package Chi_Analysis is new Chi_Gaussian_CDF (Real); use Chi_Analysis;
type Unsigned_64 is mod 2**64;
type Statistical_Data is array (Unsigned_64 range <>) of Real;
-- Greatest Common Divisor Count test.
--
-- 1st test counts No of occurances of GCD's calculated for pairs of Rands:
Span_of_GCD_Count_Test : constant := 100;
subtype GCD_Count_Test_Range is Unsigned_64 range 1 .. Span_of_GCD_Count_Test;
subtype GCD_Counts is Statistical_Data (GCD_Count_Test_Range);
True_DOF_for_GCD_Count_Test : constant := Span_of_GCD_Count_Test - 1;
-- Greatest Common Divisor Iterations test.
--
-- 2nd test counts No of Iterations required to find GCD of a pair of Rands:
subtype GCD_Iterations_Test_Range is Unsigned_64 range 5..53;
subtype GCD_Iterations_Stats is Statistical_Data (GCD_Iterations_Test_Range);
True_DOF_for_Iterations_Test : constant := 48;
Probability_of_GCD_Iterations : constant GCD_Iterations_Stats :=
(
1.82133747963399E-09,
9.58898969998596E-09, 4.95900373562431E-08, 2.27481731154183E-07,
9.28626032480111E-07, 3.40040609676470E-06, 1.12699881420596E-05,
3.40712181596310E-05, 9.44518676549460E-05, 2.41209404024540E-04,
5.69742894566334E-04, 1.24896390954733E-03, 2.54813052386917E-03,
4.85060876606904E-03, 8.63352069814511E-03, 1.43949377324915E-02,
2.25197150861574E-02, 3.31014969046822E-02, 4.57718000608556E-02,
5.96024363457740E-02, 7.31521241333012E-02, 8.46879485357183E-02,
9.25374818484444E-02, 9.54841741832165E-02, 9.30779824121723E-02,
8.57414430641431E-02, 7.46531672639515E-02, 6.14429557739744E-02,
4.78042557873558E-02, 3.51559583569137E-02, 2.44342786072529E-02,
1.60456052696471E-02, 9.95230933086590E-03, 5.82790566428320E-03,
3.22011217073676E-03, 1.67784031979238E-03, 8.23785205774590E-04,
3.80796274659059E-04, 1.65557171340292E-04, 6.76216404052808E-05,
2.59157200839291E-05, 9.30882508186161E-06, 3.12834803067835E-06,
9.80931601705069E-07, 2.86878314503330E-07, 7.78360272500109E-08,
1.97336355105359E-08, 4.56083856575878E-09, 1.23887369078947E-09
);
-- distr based on 141 * 2^34 sample size
---------------------------------
-- Get_Chi_Statistic_and_P_val --
---------------------------------
procedure Get_Chi_Statistic_and_P_val
(Probability_Distribution : in Statistical_Data;
Observed_Count : in Statistical_Data;
True_Degrees_of_Freedom : in Positive;
Sample_Size : in Unsigned_64;
Chi_squared : out Real;
P_val, P_val_Variance : out Real)
is
Expected_Count, Sum : Real;
begin
Sum := 0.0;
for i in Probability_Distribution'Range loop
Expected_Count := Probability_Distribution(i) * Real (Sample_Size);
Sum := Sum + (Observed_Count(i) - Expected_Count)**2 / Expected_Count;
end loop;
Chi_squared := Sum;
P_val := Chi_Squared_CDF (Real (True_Degrees_of_Freedom), Chi_squared);
P_val_Variance := (P_val-0.5)**2;
end Get_Chi_Statistic_and_P_val;
------------------------------
-- Greatest_Common_Divisors --
------------------------------
-- translated from Marsaglia's diehard suite.
-- GCD Test, uses pairs of Rand's: u and v
-- where pairs = Sample_Size.
-- ***Requires uniform rands on 0..2**Bits_per_Random_Word-1.***
procedure Greatest_Common_Divisors
(Sample_Size : in Unsigned_64;
Count_of_GCD_Iterations : out GCD_Iterations_Stats) is
Observed_Count_of_GCDs : GCD_Counts;
s, e : Real;
p99, chi99,variance_p99 : Real;
ave_chi99, ave_p99, ave_variance_p99 : Real := 0.0;
p, chi, variance_p : Real;
ave_p, ave_chi, ave_variance_p : Real := 0.0;
k : Unsigned_64;
u, v, w : Unsigned_64;
u0, v0 : Random_Int;
No_of_Samples : constant Integer := 2**16;
begin
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
Outer: for j in 1..No_of_Samples loop
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
for i in Unsigned_64 range 1 .. Sample_Size loop
Get_Pair: loop
--Get_Random(u0, Stream_1);
--Get_Random(v0, Stream_1);
--u := Unsigned_64 (u0 mod 2**Bits_per_Random_Word);
--v := Unsigned_64 (v0 mod 2**Bits_per_Random_Word);
u := Unsigned_64 (rnd.Random (g));
v := Unsigned_64 (rnd.Random (g));
exit Get_Pair when (u > 0 and then v > 0);
end loop Get_Pair;
k := 0;
Euclid: loop
w := u mod v;
u := v;
v := w;
k := k + 1;
exit Euclid when v = 0;
end loop Euclid;
-- k is Observed number of Iterations to obtain greatest common divisor (GCD).
-- u is the greatest common divisor (GCD).
if k < Count_of_GCD_Iterations'First then
k := Count_of_GCD_Iterations'First;
end if;
if k > Count_of_GCD_Iterations'Last then
k := Count_of_GCD_Iterations'Last;
end if;
Count_of_GCD_Iterations(k) := Count_of_GCD_Iterations(k)+1.0;
if u > Observed_Count_of_GCDs'Last then
u := Observed_Count_of_GCDs'Last;
end if;
if u < Observed_Count_of_GCDs'First then
u := Observed_Count_of_GCDs'First;
end if;
Observed_Count_of_GCDs(u) := Observed_Count_of_GCDs(u) + 1.0;
end loop;
Get_Chi_Statistic_and_P_val
(Probability_Distribution => Probability_of_GCD_Iterations,
Observed_Count => Count_of_GCD_Iterations,
True_Degrees_of_Freedom => True_DOF_for_Iterations_Test,
Sample_Size => Sample_Size,
Chi_squared => chi,
P_val => p,
P_val_Variance => variance_p);
ave_chi := ave_chi + chi;
ave_p := ave_p + p;
ave_variance_p := ave_variance_p + variance_p;
-- on range 1..99 distribution seems to be: (0.607926 + 6.0e-8 * i) / i^2
-- theoretical value, with inf number of bits: 0.60792710 / i^2
--
-- e := Real (Sample_Size) * 0.6081842 / Real (i)**2;--asymptotically, i = 5410
p99 := 0.0;
variance_p99 := 0.0;
--e := Real (Sample_Size) * 0.61097691e-2; -- in theory, p >> 2**32
e := Real (Sample_Size) * 0.61097e-2; -- I get 0.61097e-2
chi99 := (Observed_Count_of_GCDs(GCD_Count_Test_Range'Last) - e)**2 / e;
for i in GCD_Count_Test_Range'First .. GCD_Count_Test_Range'Last-1 loop
e := Real (Sample_Size) * (0.607926 + 6.0E-8 * Real (i)) / Real (i)**2;
s := (Observed_Count_of_GCDs(i) - e)**2 / e;
chi99 := chi99 + s;
end loop;
p99 := Chi_Squared_CDF (Real(True_DOF_for_GCD_Count_Test), chi99);
variance_p99 := (p99-0.5)**2;
ave_chi99 := ave_chi99 + chi99;
ave_p99 := ave_p99 + p99;
ave_variance_p99 := ave_variance_p99 + variance_p99;
new_line(1);
put("Test"); put (Integer'Image(j));
put(". Chi^2 (48 dof), ave p-val, and ave normalized variance of GCD iterations:");
new_line;
put(" ");
put (Real'Image (chi));
put (Real'Image (ave_p / Real(j)));
put (Real'Image (ave_variance_p / (Real(j)*(0.25/3.0)))); -- should -> 1.0
new_line(1);
put(" Chi^2 (99 dof), ave p-val, and ave normalized variance of GCD's:");
new_line;
put(" ");
put (Real'Image (chi99));
put (Real'Image (ave_p99 / Real(j)));
put (Real'Image (ave_variance_p99 / (Real(j)*(0.25/3.0))));
end loop Outer;
end Greatest_Common_Divisors;
begin
rnd.Reset (g);
Disorderly.Basic_Rand.Clock_Entropy.Reset (Stream_1);
-- The state of the generator is Stream_1. (Starts up a random stream.)
test: declare
Sample_Size : constant Unsigned_64 := 2**40; -- turn way up to best see failure
-- 2**32 Sample_Size is OK, chi squared wise.
-- 2**37 Sample_Size is gd stnd tst. Tks a day at least (2+ for gnat etc)!
Full_Sample_Size : Real;
Sample_Iteration_Stats : GCD_Iterations_Stats;
Full_Iteration_Stats : GCD_Iterations_Stats := (others => 0.0);
begin
for i in 1..2**16 loop
Greatest_Common_Divisors (Sample_Size, Sample_Iteration_Stats);
Full_Sample_Size := Real(i)*Real(Sample_Size);
for k in Full_Iteration_Stats'Range loop
Full_Iteration_Stats(k) := Full_Iteration_Stats(k) + Sample_Iteration_Stats(k);
end loop;
new_line;
put (Integer'Image (i)); put ("Total Sample_Size:");
put (Real'Image (Real(i)*Real(Sample_Size)));
new_line;
for k in Full_Iteration_Stats'Range loop
if (Integer(k)-Integer(Full_Iteration_Stats'First)) mod 3 = 0 then
new_line;
end if;
put (Real'Image (Full_Iteration_Stats(k) / Full_Sample_Size)); put (",");
end loop;
new_line;
end loop;
end test;
end;
| 23600 |
with Disorderly.Basic_Rand; use Disorderly.Basic_Rand;
with Disorderly.Basic_Rand.Clock_Entropy;
with Ada.Numerics.Discrete_Random;
with Chi_Gaussian_CDF;
with text_io; use text_io;
-- translated from <NAME>arsaglia, Tsang diehard suite.
procedure gcd_6bytes_2 is
Bits_per_Random_Word : constant := 48;
-- Must set this correctly here. There's no way to check this.
Stream_1 : Disorderly.Basic_Rand.State;
-- Create a stream of Random numbers.
-- Initializing this after the begin, w/ a call to Reset_with_Calendar
subtype gnat_Random_Int is Random_Int range 0 .. 2**Bits_per_Random_Word-1;
package rnd is new ada.numerics.Discrete_Random (gnat_Random_Int);
g : rnd.generator;
-- Call rnd.Reset (g); to initialize.
type Real is digits 15;
package Chi_Analysis is new Chi_Gaussian_CDF (Real); use Chi_Analysis;
type Unsigned_64 is mod 2**64;
type Statistical_Data is array (Unsigned_64 range <>) of Real;
-- Greatest Common Divisor Count test.
--
-- 1st test counts No of occurances of GCD's calculated for pairs of Rands:
Span_of_GCD_Count_Test : constant := 100;
subtype GCD_Count_Test_Range is Unsigned_64 range 1 .. Span_of_GCD_Count_Test;
subtype GCD_Counts is Statistical_Data (GCD_Count_Test_Range);
True_DOF_for_GCD_Count_Test : constant := Span_of_GCD_Count_Test - 1;
-- Greatest Common Divisor Iterations test.
--
-- 2nd test counts No of Iterations required to find GCD of a pair of Rands:
subtype GCD_Iterations_Test_Range is Unsigned_64 range 5..53;
subtype GCD_Iterations_Stats is Statistical_Data (GCD_Iterations_Test_Range);
True_DOF_for_Iterations_Test : constant := 48;
Probability_of_GCD_Iterations : constant GCD_Iterations_Stats :=
(
1.82133747963399E-09,
9.58898969998596E-09, 4.95900373562431E-08, 2.27481731154183E-07,
9.28626032480111E-07, 3.40040609676470E-06, 1.12699881420596E-05,
3.40712181596310E-05, 9.44518676549460E-05, 2.41209404024540E-04,
5.69742894566334E-04, 1.24896390954733E-03, 2.54813052386917E-03,
4.85060876606904E-03, 8.63352069814511E-03, 1.43949377324915E-02,
2.25197150861574E-02, 3.31014969046822E-02, 4.57718000608556E-02,
5.96024363457740E-02, 7.31521241333012E-02, 8.46879485357183E-02,
9.25374818484444E-02, 9.54841741832165E-02, 9.30779824121723E-02,
8.57414430641431E-02, 7.46531672639515E-02, 6.14429557739744E-02,
4.78042557873558E-02, 3.51559583569137E-02, 2.44342786072529E-02,
1.60456052696471E-02, 9.95230933086590E-03, 5.82790566428320E-03,
3.22011217073676E-03, 1.67784031979238E-03, 8.23785205774590E-04,
3.80796274659059E-04, 1.65557171340292E-04, 6.76216404052808E-05,
2.59157200839291E-05, 9.30882508186161E-06, 3.12834803067835E-06,
9.80931601705069E-07, 2.86878314503330E-07, 7.78360272500109E-08,
1.97336355105359E-08, 4.56083856575878E-09, 1.23887369078947E-09
);
-- distr based on 141 * 2^34 sample size
---------------------------------
-- Get_Chi_Statistic_and_P_val --
---------------------------------
procedure Get_Chi_Statistic_and_P_val
(Probability_Distribution : in Statistical_Data;
Observed_Count : in Statistical_Data;
True_Degrees_of_Freedom : in Positive;
Sample_Size : in Unsigned_64;
Chi_squared : out Real;
P_val, P_val_Variance : out Real)
is
Expected_Count, Sum : Real;
begin
Sum := 0.0;
for i in Probability_Distribution'Range loop
Expected_Count := Probability_Distribution(i) * Real (Sample_Size);
Sum := Sum + (Observed_Count(i) - Expected_Count)**2 / Expected_Count;
end loop;
Chi_squared := Sum;
P_val := Chi_Squared_CDF (Real (True_Degrees_of_Freedom), Chi_squared);
P_val_Variance := (P_val-0.5)**2;
end Get_Chi_Statistic_and_P_val;
------------------------------
-- Greatest_Common_Divisors --
------------------------------
-- translated from Marsaglia's diehard suite.
-- GCD Test, uses pairs of Rand's: u and v
-- where pairs = Sample_Size.
-- ***Requires uniform rands on 0..2**Bits_per_Random_Word-1.***
procedure Greatest_Common_Divisors
(Sample_Size : in Unsigned_64;
Count_of_GCD_Iterations : out GCD_Iterations_Stats) is
Observed_Count_of_GCDs : GCD_Counts;
s, e : Real;
p99, chi99,variance_p99 : Real;
ave_chi99, ave_p99, ave_variance_p99 : Real := 0.0;
p, chi, variance_p : Real;
ave_p, ave_chi, ave_variance_p : Real := 0.0;
k : Unsigned_64;
u, v, w : Unsigned_64;
u0, v0 : Random_Int;
No_of_Samples : constant Integer := 2**16;
begin
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
Outer: for j in 1..No_of_Samples loop
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
for i in Unsigned_64 range 1 .. Sample_Size loop
Get_Pair: loop
--Get_Random(u0, Stream_1);
--Get_Random(v0, Stream_1);
--u := Unsigned_64 (u0 mod 2**Bits_per_Random_Word);
--v := Unsigned_64 (v0 mod 2**Bits_per_Random_Word);
u := Unsigned_64 (rnd.Random (g));
v := Unsigned_64 (rnd.Random (g));
exit Get_Pair when (u > 0 and then v > 0);
end loop Get_Pair;
k := 0;
Euclid: loop
w := u mod v;
u := v;
v := w;
k := k + 1;
exit Euclid when v = 0;
end loop Euclid;
-- k is Observed number of Iterations to obtain greatest common divisor (GCD).
-- u is the greatest common divisor (GCD).
if k < Count_of_GCD_Iterations'First then
k := Count_of_GCD_Iterations'First;
end if;
if k > Count_of_GCD_Iterations'Last then
k := Count_of_GCD_Iterations'Last;
end if;
Count_of_GCD_Iterations(k) := Count_of_GCD_Iterations(k)+1.0;
if u > Observed_Count_of_GCDs'Last then
u := Observed_Count_of_GCDs'Last;
end if;
if u < Observed_Count_of_GCDs'First then
u := Observed_Count_of_GCDs'First;
end if;
Observed_Count_of_GCDs(u) := Observed_Count_of_GCDs(u) + 1.0;
end loop;
Get_Chi_Statistic_and_P_val
(Probability_Distribution => Probability_of_GCD_Iterations,
Observed_Count => Count_of_GCD_Iterations,
True_Degrees_of_Freedom => True_DOF_for_Iterations_Test,
Sample_Size => Sample_Size,
Chi_squared => chi,
P_val => p,
P_val_Variance => variance_p);
ave_chi := ave_chi + chi;
ave_p := ave_p + p;
ave_variance_p := ave_variance_p + variance_p;
-- on range 1..99 distribution seems to be: (0.607926 + 6.0e-8 * i) / i^2
-- theoretical value, with inf number of bits: 0.60792710 / i^2
--
-- e := Real (Sample_Size) * 0.6081842 / Real (i)**2;--asymptotically, i = 5410
p99 := 0.0;
variance_p99 := 0.0;
--e := Real (Sample_Size) * 0.61097691e-2; -- in theory, p >> 2**32
e := Real (Sample_Size) * 0.61097e-2; -- I get 0.61097e-2
chi99 := (Observed_Count_of_GCDs(GCD_Count_Test_Range'Last) - e)**2 / e;
for i in GCD_Count_Test_Range'First .. GCD_Count_Test_Range'Last-1 loop
e := Real (Sample_Size) * (0.607926 + 6.0E-8 * Real (i)) / Real (i)**2;
s := (Observed_Count_of_GCDs(i) - e)**2 / e;
chi99 := chi99 + s;
end loop;
p99 := Chi_Squared_CDF (Real(True_DOF_for_GCD_Count_Test), chi99);
variance_p99 := (p99-0.5)**2;
ave_chi99 := ave_chi99 + chi99;
ave_p99 := ave_p99 + p99;
ave_variance_p99 := ave_variance_p99 + variance_p99;
new_line(1);
put("Test"); put (Integer'Image(j));
put(". Chi^2 (48 dof), ave p-val, and ave normalized variance of GCD iterations:");
new_line;
put(" ");
put (Real'Image (chi));
put (Real'Image (ave_p / Real(j)));
put (Real'Image (ave_variance_p / (Real(j)*(0.25/3.0)))); -- should -> 1.0
new_line(1);
put(" Chi^2 (99 dof), ave p-val, and ave normalized variance of GCD's:");
new_line;
put(" ");
put (Real'Image (chi99));
put (Real'Image (ave_p99 / Real(j)));
put (Real'Image (ave_variance_p99 / (Real(j)*(0.25/3.0))));
end loop Outer;
end Greatest_Common_Divisors;
begin
rnd.Reset (g);
Disorderly.Basic_Rand.Clock_Entropy.Reset (Stream_1);
-- The state of the generator is Stream_1. (Starts up a random stream.)
test: declare
Sample_Size : constant Unsigned_64 := 2**40; -- turn way up to best see failure
-- 2**32 Sample_Size is OK, chi squared wise.
-- 2**37 Sample_Size is gd stnd tst. Tks a day at least (2+ for gnat etc)!
Full_Sample_Size : Real;
Sample_Iteration_Stats : GCD_Iterations_Stats;
Full_Iteration_Stats : GCD_Iterations_Stats := (others => 0.0);
begin
for i in 1..2**16 loop
Greatest_Common_Divisors (Sample_Size, Sample_Iteration_Stats);
Full_Sample_Size := Real(i)*Real(Sample_Size);
for k in Full_Iteration_Stats'Range loop
Full_Iteration_Stats(k) := Full_Iteration_Stats(k) + Sample_Iteration_Stats(k);
end loop;
new_line;
put (Integer'Image (i)); put ("Total Sample_Size:");
put (Real'Image (Real(i)*Real(Sample_Size)));
new_line;
for k in Full_Iteration_Stats'Range loop
if (Integer(k)-Integer(Full_Iteration_Stats'First)) mod 3 = 0 then
new_line;
end if;
put (Real'Image (Full_Iteration_Stats(k) / Full_Sample_Size)); put (",");
end loop;
new_line;
end loop;
end test;
end;
| true |
with Disorderly.Basic_Rand; use Disorderly.Basic_Rand;
with Disorderly.Basic_Rand.Clock_Entropy;
with Ada.Numerics.Discrete_Random;
with Chi_Gaussian_CDF;
with text_io; use text_io;
-- translated from PI:NAME:<NAME>END_PIarsaglia, Tsang diehard suite.
procedure gcd_6bytes_2 is
Bits_per_Random_Word : constant := 48;
-- Must set this correctly here. There's no way to check this.
Stream_1 : Disorderly.Basic_Rand.State;
-- Create a stream of Random numbers.
-- Initializing this after the begin, w/ a call to Reset_with_Calendar
subtype gnat_Random_Int is Random_Int range 0 .. 2**Bits_per_Random_Word-1;
package rnd is new ada.numerics.Discrete_Random (gnat_Random_Int);
g : rnd.generator;
-- Call rnd.Reset (g); to initialize.
type Real is digits 15;
package Chi_Analysis is new Chi_Gaussian_CDF (Real); use Chi_Analysis;
type Unsigned_64 is mod 2**64;
type Statistical_Data is array (Unsigned_64 range <>) of Real;
-- Greatest Common Divisor Count test.
--
-- 1st test counts No of occurances of GCD's calculated for pairs of Rands:
Span_of_GCD_Count_Test : constant := 100;
subtype GCD_Count_Test_Range is Unsigned_64 range 1 .. Span_of_GCD_Count_Test;
subtype GCD_Counts is Statistical_Data (GCD_Count_Test_Range);
True_DOF_for_GCD_Count_Test : constant := Span_of_GCD_Count_Test - 1;
-- Greatest Common Divisor Iterations test.
--
-- 2nd test counts No of Iterations required to find GCD of a pair of Rands:
subtype GCD_Iterations_Test_Range is Unsigned_64 range 5..53;
subtype GCD_Iterations_Stats is Statistical_Data (GCD_Iterations_Test_Range);
True_DOF_for_Iterations_Test : constant := 48;
Probability_of_GCD_Iterations : constant GCD_Iterations_Stats :=
(
1.82133747963399E-09,
9.58898969998596E-09, 4.95900373562431E-08, 2.27481731154183E-07,
9.28626032480111E-07, 3.40040609676470E-06, 1.12699881420596E-05,
3.40712181596310E-05, 9.44518676549460E-05, 2.41209404024540E-04,
5.69742894566334E-04, 1.24896390954733E-03, 2.54813052386917E-03,
4.85060876606904E-03, 8.63352069814511E-03, 1.43949377324915E-02,
2.25197150861574E-02, 3.31014969046822E-02, 4.57718000608556E-02,
5.96024363457740E-02, 7.31521241333012E-02, 8.46879485357183E-02,
9.25374818484444E-02, 9.54841741832165E-02, 9.30779824121723E-02,
8.57414430641431E-02, 7.46531672639515E-02, 6.14429557739744E-02,
4.78042557873558E-02, 3.51559583569137E-02, 2.44342786072529E-02,
1.60456052696471E-02, 9.95230933086590E-03, 5.82790566428320E-03,
3.22011217073676E-03, 1.67784031979238E-03, 8.23785205774590E-04,
3.80796274659059E-04, 1.65557171340292E-04, 6.76216404052808E-05,
2.59157200839291E-05, 9.30882508186161E-06, 3.12834803067835E-06,
9.80931601705069E-07, 2.86878314503330E-07, 7.78360272500109E-08,
1.97336355105359E-08, 4.56083856575878E-09, 1.23887369078947E-09
);
-- distr based on 141 * 2^34 sample size
---------------------------------
-- Get_Chi_Statistic_and_P_val --
---------------------------------
procedure Get_Chi_Statistic_and_P_val
(Probability_Distribution : in Statistical_Data;
Observed_Count : in Statistical_Data;
True_Degrees_of_Freedom : in Positive;
Sample_Size : in Unsigned_64;
Chi_squared : out Real;
P_val, P_val_Variance : out Real)
is
Expected_Count, Sum : Real;
begin
Sum := 0.0;
for i in Probability_Distribution'Range loop
Expected_Count := Probability_Distribution(i) * Real (Sample_Size);
Sum := Sum + (Observed_Count(i) - Expected_Count)**2 / Expected_Count;
end loop;
Chi_squared := Sum;
P_val := Chi_Squared_CDF (Real (True_Degrees_of_Freedom), Chi_squared);
P_val_Variance := (P_val-0.5)**2;
end Get_Chi_Statistic_and_P_val;
------------------------------
-- Greatest_Common_Divisors --
------------------------------
-- translated from Marsaglia's diehard suite.
-- GCD Test, uses pairs of Rand's: u and v
-- where pairs = Sample_Size.
-- ***Requires uniform rands on 0..2**Bits_per_Random_Word-1.***
procedure Greatest_Common_Divisors
(Sample_Size : in Unsigned_64;
Count_of_GCD_Iterations : out GCD_Iterations_Stats) is
Observed_Count_of_GCDs : GCD_Counts;
s, e : Real;
p99, chi99,variance_p99 : Real;
ave_chi99, ave_p99, ave_variance_p99 : Real := 0.0;
p, chi, variance_p : Real;
ave_p, ave_chi, ave_variance_p : Real := 0.0;
k : Unsigned_64;
u, v, w : Unsigned_64;
u0, v0 : Random_Int;
No_of_Samples : constant Integer := 2**16;
begin
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
Outer: for j in 1..No_of_Samples loop
Observed_Count_of_GCDs := (others => 0.0);
Count_of_GCD_Iterations := (others => 0.0);
for i in Unsigned_64 range 1 .. Sample_Size loop
Get_Pair: loop
--Get_Random(u0, Stream_1);
--Get_Random(v0, Stream_1);
--u := Unsigned_64 (u0 mod 2**Bits_per_Random_Word);
--v := Unsigned_64 (v0 mod 2**Bits_per_Random_Word);
u := Unsigned_64 (rnd.Random (g));
v := Unsigned_64 (rnd.Random (g));
exit Get_Pair when (u > 0 and then v > 0);
end loop Get_Pair;
k := 0;
Euclid: loop
w := u mod v;
u := v;
v := w;
k := k + 1;
exit Euclid when v = 0;
end loop Euclid;
-- k is Observed number of Iterations to obtain greatest common divisor (GCD).
-- u is the greatest common divisor (GCD).
if k < Count_of_GCD_Iterations'First then
k := Count_of_GCD_Iterations'First;
end if;
if k > Count_of_GCD_Iterations'Last then
k := Count_of_GCD_Iterations'Last;
end if;
Count_of_GCD_Iterations(k) := Count_of_GCD_Iterations(k)+1.0;
if u > Observed_Count_of_GCDs'Last then
u := Observed_Count_of_GCDs'Last;
end if;
if u < Observed_Count_of_GCDs'First then
u := Observed_Count_of_GCDs'First;
end if;
Observed_Count_of_GCDs(u) := Observed_Count_of_GCDs(u) + 1.0;
end loop;
Get_Chi_Statistic_and_P_val
(Probability_Distribution => Probability_of_GCD_Iterations,
Observed_Count => Count_of_GCD_Iterations,
True_Degrees_of_Freedom => True_DOF_for_Iterations_Test,
Sample_Size => Sample_Size,
Chi_squared => chi,
P_val => p,
P_val_Variance => variance_p);
ave_chi := ave_chi + chi;
ave_p := ave_p + p;
ave_variance_p := ave_variance_p + variance_p;
-- on range 1..99 distribution seems to be: (0.607926 + 6.0e-8 * i) / i^2
-- theoretical value, with inf number of bits: 0.60792710 / i^2
--
-- e := Real (Sample_Size) * 0.6081842 / Real (i)**2;--asymptotically, i = 5410
p99 := 0.0;
variance_p99 := 0.0;
--e := Real (Sample_Size) * 0.61097691e-2; -- in theory, p >> 2**32
e := Real (Sample_Size) * 0.61097e-2; -- I get 0.61097e-2
chi99 := (Observed_Count_of_GCDs(GCD_Count_Test_Range'Last) - e)**2 / e;
for i in GCD_Count_Test_Range'First .. GCD_Count_Test_Range'Last-1 loop
e := Real (Sample_Size) * (0.607926 + 6.0E-8 * Real (i)) / Real (i)**2;
s := (Observed_Count_of_GCDs(i) - e)**2 / e;
chi99 := chi99 + s;
end loop;
p99 := Chi_Squared_CDF (Real(True_DOF_for_GCD_Count_Test), chi99);
variance_p99 := (p99-0.5)**2;
ave_chi99 := ave_chi99 + chi99;
ave_p99 := ave_p99 + p99;
ave_variance_p99 := ave_variance_p99 + variance_p99;
new_line(1);
put("Test"); put (Integer'Image(j));
put(". Chi^2 (48 dof), ave p-val, and ave normalized variance of GCD iterations:");
new_line;
put(" ");
put (Real'Image (chi));
put (Real'Image (ave_p / Real(j)));
put (Real'Image (ave_variance_p / (Real(j)*(0.25/3.0)))); -- should -> 1.0
new_line(1);
put(" Chi^2 (99 dof), ave p-val, and ave normalized variance of GCD's:");
new_line;
put(" ");
put (Real'Image (chi99));
put (Real'Image (ave_p99 / Real(j)));
put (Real'Image (ave_variance_p99 / (Real(j)*(0.25/3.0))));
end loop Outer;
end Greatest_Common_Divisors;
begin
rnd.Reset (g);
Disorderly.Basic_Rand.Clock_Entropy.Reset (Stream_1);
-- The state of the generator is Stream_1. (Starts up a random stream.)
test: declare
Sample_Size : constant Unsigned_64 := 2**40; -- turn way up to best see failure
-- 2**32 Sample_Size is OK, chi squared wise.
-- 2**37 Sample_Size is gd stnd tst. Tks a day at least (2+ for gnat etc)!
Full_Sample_Size : Real;
Sample_Iteration_Stats : GCD_Iterations_Stats;
Full_Iteration_Stats : GCD_Iterations_Stats := (others => 0.0);
begin
for i in 1..2**16 loop
Greatest_Common_Divisors (Sample_Size, Sample_Iteration_Stats);
Full_Sample_Size := Real(i)*Real(Sample_Size);
for k in Full_Iteration_Stats'Range loop
Full_Iteration_Stats(k) := Full_Iteration_Stats(k) + Sample_Iteration_Stats(k);
end loop;
new_line;
put (Integer'Image (i)); put ("Total Sample_Size:");
put (Real'Image (Real(i)*Real(Sample_Size)));
new_line;
for k in Full_Iteration_Stats'Range loop
if (Integer(k)-Integer(Full_Iteration_Stats'First)) mod 3 = 0 then
new_line;
end if;
put (Real'Image (Full_Iteration_Stats(k) / Full_Sample_Size)); put (",");
end loop;
new_line;
end loop;
end test;
end;
|
[
{
"context": "--------------------------------\n-- Copyright 2020 Thomas E. Dickey --\n-- Co",
"end": 745,
"score": 0.9998565316200256,
"start": 729,
"tag": "NAME",
"value": "Thomas E. Dickey"
},
{
"context": "-------------------------------------\n-- Author: Juergen Pfeifer, 1996\n-- Version Control:\n-- $Revision: 1.14 $\n",
"end": 2872,
"score": 0.9998742938041687,
"start": 2857,
"tag": "NAME",
"value": "Juergen Pfeifer"
}
] | Ada95/src/terminal_interface-curses-text_io-aux.adb | ProtonAOSP-platina/android_external_libncurses | 269 | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding --
-- --
-- Terminal_Interface.Curses.Text_IO.Aux --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 Thomas E. Dickey --
-- Copyright 1999-2006,2009 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: Juergen Pfeifer, 1996
-- Version Control:
-- $Revision: 1.14 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
package body Terminal_Interface.Curses.Text_IO.Aux is
procedure Put_Buf
(Win : Window;
Buf : String;
Width : Field;
Signal : Boolean := True;
Ljust : Boolean := False)
is
L : Field;
Len : Field;
W : Field := Width;
LC : Line_Count;
CC : Column_Count;
Y : Line_Position;
X : Column_Position;
procedure Output (From, To : Field);
procedure Output (From, To : Field)
is
begin
if Len > 0 then
if W = 0 then
W := Len;
end if;
if Len > W then
-- LRM A10.6 (7) says this
W := Len;
end if;
pragma Assert (Len <= W);
Get_Size (Win, LC, CC);
if Column_Count (Len) > CC then
if Signal then
raise Layout_Error;
else
return;
end if;
else
if Len < W and then not Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
Get_Cursor_Position (Win, Y, X);
if (X + Column_Position (Len)) > CC then
New_Line (Win);
end if;
Put (Win, Buf (From .. To));
if Len < W and then Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
end if;
end if;
end Output;
begin
pragma Assert (Win /= Null_Window);
if Ljust then
L := 1;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L + 1;
end loop;
Len := L - 1;
Output (1, Len);
else -- input buffer is not left justified
L := Buf'Length;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L - 1;
end loop;
Len := Buf'Length - L;
Output (L + 1, Buf'Length);
end if;
end Put_Buf;
end Terminal_Interface.Curses.Text_IO.Aux;
| 22724 | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding --
-- --
-- Terminal_Interface.Curses.Text_IO.Aux --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 <NAME> --
-- Copyright 1999-2006,2009 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: <NAME>, 1996
-- Version Control:
-- $Revision: 1.14 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
package body Terminal_Interface.Curses.Text_IO.Aux is
procedure Put_Buf
(Win : Window;
Buf : String;
Width : Field;
Signal : Boolean := True;
Ljust : Boolean := False)
is
L : Field;
Len : Field;
W : Field := Width;
LC : Line_Count;
CC : Column_Count;
Y : Line_Position;
X : Column_Position;
procedure Output (From, To : Field);
procedure Output (From, To : Field)
is
begin
if Len > 0 then
if W = 0 then
W := Len;
end if;
if Len > W then
-- LRM A10.6 (7) says this
W := Len;
end if;
pragma Assert (Len <= W);
Get_Size (Win, LC, CC);
if Column_Count (Len) > CC then
if Signal then
raise Layout_Error;
else
return;
end if;
else
if Len < W and then not Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
Get_Cursor_Position (Win, Y, X);
if (X + Column_Position (Len)) > CC then
New_Line (Win);
end if;
Put (Win, Buf (From .. To));
if Len < W and then Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
end if;
end if;
end Output;
begin
pragma Assert (Win /= Null_Window);
if Ljust then
L := 1;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L + 1;
end loop;
Len := L - 1;
Output (1, Len);
else -- input buffer is not left justified
L := Buf'Length;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L - 1;
end loop;
Len := Buf'Length - L;
Output (L + 1, Buf'Length);
end if;
end Put_Buf;
end Terminal_Interface.Curses.Text_IO.Aux;
| true | ------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding --
-- --
-- Terminal_Interface.Curses.Text_IO.Aux --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 PI:NAME:<NAME>END_PI --
-- Copyright 1999-2006,2009 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: PI:NAME:<NAME>END_PI, 1996
-- Version Control:
-- $Revision: 1.14 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
package body Terminal_Interface.Curses.Text_IO.Aux is
procedure Put_Buf
(Win : Window;
Buf : String;
Width : Field;
Signal : Boolean := True;
Ljust : Boolean := False)
is
L : Field;
Len : Field;
W : Field := Width;
LC : Line_Count;
CC : Column_Count;
Y : Line_Position;
X : Column_Position;
procedure Output (From, To : Field);
procedure Output (From, To : Field)
is
begin
if Len > 0 then
if W = 0 then
W := Len;
end if;
if Len > W then
-- LRM A10.6 (7) says this
W := Len;
end if;
pragma Assert (Len <= W);
Get_Size (Win, LC, CC);
if Column_Count (Len) > CC then
if Signal then
raise Layout_Error;
else
return;
end if;
else
if Len < W and then not Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
Get_Cursor_Position (Win, Y, X);
if (X + Column_Position (Len)) > CC then
New_Line (Win);
end if;
Put (Win, Buf (From .. To));
if Len < W and then Ljust then
declare
Filler : constant String (1 .. (W - Len))
:= (others => ' ');
begin
Put (Win, Filler);
end;
end if;
end if;
end if;
end Output;
begin
pragma Assert (Win /= Null_Window);
if Ljust then
L := 1;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L + 1;
end loop;
Len := L - 1;
Output (1, Len);
else -- input buffer is not left justified
L := Buf'Length;
for I in 1 .. Buf'Length loop
exit when Buf (L) = ' ';
L := L - 1;
end loop;
Len := Buf'Length - L;
Output (L + 1, Buf'Length);
end if;
end Put_Buf;
end Terminal_Interface.Curses.Text_IO.Aux;
|
[
{
"context": "-- Copyright 2016 Steven Stewart-Gallus\n--\n-- Licensed under the Apache License, Version ",
"end": 39,
"score": 0.9993307590484619,
"start": 18,
"tag": "NAME",
"value": "Steven Stewart-Gallus"
}
] | src/ada-core/src/linted-logs.adb | mstewartgallus/linted | 0 | -- Copyright 2016 Steven Stewart-Gallus
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
-- implied. See the License for the specific language governing
-- permissions and limitations under the License.
with Ada.Command_Line;
with Interfaces.C;
with Libc.Syslog;
package body Linted.Logs is
package C renames Interfaces.C;
use type C.unsigned;
procedure syslog (pri : C.int; fmt : C.char_array; str : C.char_array);
pragma Import (C_Variadic_2, syslog, "syslog");
procedure Log (Pri : Priority; Str : String) with
Spark_Mode => Off is
Sys_Pri : C.int;
begin
declare
Ident : aliased C.char_array :=
C.To_C (Ada.Command_Line.Command_Name);
begin
Libc.Syslog.openlog
(Ident,
C.int (C.unsigned (Libc.Syslog.LOG_PID) or Libc.Syslog.LOG_NDELAY),
Libc.Syslog.LOG_USER);
end;
case Pri is
when Error =>
Sys_Pri := Libc.Syslog.LOG_ERR;
when Warning =>
Sys_Pri := Libc.Syslog.LOG_WARNING;
when Info =>
Sys_Pri := Libc.Syslog.LOG_INFO;
end case;
declare
Fmt : C.char_array := C.To_C ("%s");
C_Str : C.char_array := C.To_C (Str);
begin
syslog (Sys_Pri, Fmt, C_Str);
end;
end Log;
end Linted.Logs;
| 5094 | -- Copyright 2016 <NAME>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
-- implied. See the License for the specific language governing
-- permissions and limitations under the License.
with Ada.Command_Line;
with Interfaces.C;
with Libc.Syslog;
package body Linted.Logs is
package C renames Interfaces.C;
use type C.unsigned;
procedure syslog (pri : C.int; fmt : C.char_array; str : C.char_array);
pragma Import (C_Variadic_2, syslog, "syslog");
procedure Log (Pri : Priority; Str : String) with
Spark_Mode => Off is
Sys_Pri : C.int;
begin
declare
Ident : aliased C.char_array :=
C.To_C (Ada.Command_Line.Command_Name);
begin
Libc.Syslog.openlog
(Ident,
C.int (C.unsigned (Libc.Syslog.LOG_PID) or Libc.Syslog.LOG_NDELAY),
Libc.Syslog.LOG_USER);
end;
case Pri is
when Error =>
Sys_Pri := Libc.Syslog.LOG_ERR;
when Warning =>
Sys_Pri := Libc.Syslog.LOG_WARNING;
when Info =>
Sys_Pri := Libc.Syslog.LOG_INFO;
end case;
declare
Fmt : C.char_array := C.To_C ("%s");
C_Str : C.char_array := C.To_C (Str);
begin
syslog (Sys_Pri, Fmt, C_Str);
end;
end Log;
end Linted.Logs;
| true | -- Copyright 2016 PI:NAME:<NAME>END_PI
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
-- implied. See the License for the specific language governing
-- permissions and limitations under the License.
with Ada.Command_Line;
with Interfaces.C;
with Libc.Syslog;
package body Linted.Logs is
package C renames Interfaces.C;
use type C.unsigned;
procedure syslog (pri : C.int; fmt : C.char_array; str : C.char_array);
pragma Import (C_Variadic_2, syslog, "syslog");
procedure Log (Pri : Priority; Str : String) with
Spark_Mode => Off is
Sys_Pri : C.int;
begin
declare
Ident : aliased C.char_array :=
C.To_C (Ada.Command_Line.Command_Name);
begin
Libc.Syslog.openlog
(Ident,
C.int (C.unsigned (Libc.Syslog.LOG_PID) or Libc.Syslog.LOG_NDELAY),
Libc.Syslog.LOG_USER);
end;
case Pri is
when Error =>
Sys_Pri := Libc.Syslog.LOG_ERR;
when Warning =>
Sys_Pri := Libc.Syslog.LOG_WARNING;
when Info =>
Sys_Pri := Libc.Syslog.LOG_INFO;
end case;
declare
Fmt : C.char_array := C.To_C ("%s");
C_Str : C.char_array := C.To_C (Str);
begin
syslog (Sys_Pri, Fmt, C_Str);
end;
end Log;
end Linted.Logs;
|
[
{
"context": "-- MP: a Music Player\n-- Copyright (C) 2020 by PragmAda Software Engineering. All rights reserved.\n-- Re",
"end": 55,
"score": 0.9964979290962219,
"start": 47,
"tag": "NAME",
"value": "PragmAda"
}
] | mp.ads | jrcarter/MP | 1 | -- MP: a Music Player
-- Copyright (C) 2020 by PragmAda Software Engineering. All rights reserved.
-- Released under the terms of the BSD 3-Clause license; see https://opensource.org/licenses
--
-- Uses the Gnoga audio widget to create a music player
--
-- The audio widget requires relative paths to the audio files. The file browser in this program will only choose audio files that
-- are in the program's working directory, or in a directory under that.
--
-- 2020-09-15 Initial version
--
package MP is
pragma Pure;
end MP;
| 13950 | -- MP: a Music Player
-- Copyright (C) 2020 by <NAME> Software Engineering. All rights reserved.
-- Released under the terms of the BSD 3-Clause license; see https://opensource.org/licenses
--
-- Uses the Gnoga audio widget to create a music player
--
-- The audio widget requires relative paths to the audio files. The file browser in this program will only choose audio files that
-- are in the program's working directory, or in a directory under that.
--
-- 2020-09-15 Initial version
--
package MP is
pragma Pure;
end MP;
| true | -- MP: a Music Player
-- Copyright (C) 2020 by PI:NAME:<NAME>END_PI Software Engineering. All rights reserved.
-- Released under the terms of the BSD 3-Clause license; see https://opensource.org/licenses
--
-- Uses the Gnoga audio widget to create a music player
--
-- The audio widget requires relative paths to the audio files. The file browser in this program will only choose audio files that
-- are in the program's working directory, or in a directory under that.
--
-- 2020-09-15 Initial version
--
package MP is
pragma Pure;
end MP;
|
[
{
"context": " --\n-- Eugene Nonko, cm@liceum.secna.ru ",
"end": 730,
"score": 0.9998676180839539,
"start": 718,
"tag": "NAME",
"value": "Eugene Nonko"
},
{
"context": " --\n-- Eugene Nonko, cm@liceum.secna.ru --\n-- ",
"end": 750,
"score": 0.9999306201934814,
"start": 732,
"tag": "EMAIL",
"value": "cm@liceum.secna.ru"
}
] | src/format/formatted_output-enumeration_output.adb | dshadrin/AProxy | 1 | ------------------------------------------------------------------------------
-- --
-- File: --
-- formatted_output-enumeration_output.adb --
-- --
-- Description: --
-- Formatted_Output.Enumeration_Output generic package body --
-- --
-- Author: --
-- Eugene Nonko, cm@liceum.secna.ru --
-- --
-- Revision history: --
-- 27/01/99 - original --
-- 16/03/99 - added support for justification characters --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
use Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
package body Formatted_Output.Enumeration_Output is
package Item_Type_IO is new Enumeration_IO (Item_Type);
use Item_Type_IO;
type Style_Type is (Capitalized, Upper_Case, Lower_Case);
function Format
(Value : Item_Type; Initial_Width : Integer; Justification : Alignment;
Style : Style_Type) return String is
Img : String (1 .. Maximal_Item_Length);
Width, Real_Width : Integer;
Past_Last : Integer := 1;
begin -- Format
case Style is
when Capitalized =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
Img (1) := To_Upper (Img (1));
when Lower_Case =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
when Upper_Case =>
Put (Img, Value, Set => Type_Set'(Upper_Case));
end case;
while Img (Past_Last) /= ' ' loop
Past_Last := Past_Last + 1;
end loop;
Real_Width := Past_Last - 1;
if Initial_Width < Real_Width then
Width := Real_Width;
else
Width := Initial_Width;
end if;
declare
S : String (1 .. Width);
begin
Move (Img (Past_Last - Real_Width .. Past_Last - 1), S,
Justify => Justification, Pad => Filler);
return S;
end;
end Format;
function "&" (Fmt : Format_Type; Value : Item_Type) return Format_Type is
Command_Start : constant Integer := Scan_To_Percent_Sign (Fmt);
Width : Integer := 0;
Digit_Occured, Justification_Changed : Boolean := False;
Justification : Alignment := Right;
Fmt_Copy : Unbounded_String;
begin -- "&"
if Command_Start /= 0 then
Fmt_Copy := Unbounded_String (Fmt);
for I in Command_Start + 1 .. Length (Fmt_Copy) loop
case Element (Fmt_Copy, I) is
when 'c' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Capitalized));
return Format_Type (Fmt_Copy);
when 'u' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Upper_Case));
return Format_Type (Fmt_Copy);
when 'l' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Lower_Case));
return Format_Type (Fmt_Copy);
when '-' | '+' | '*' =>
if Justification_Changed or else Digit_Occured then
raise Format_Error;
end if;
Justification_Changed := True;
case Element (Fmt_Copy, I) is
when '-' =>
Justification := Left;
when '+' =>
Justification := Right;
when '*' =>
Justification := Center;
when others =>
null;
end case;
when '0' .. '9' =>
Width := Width * 10
+ Character'Pos (Element (Fmt_Copy, I))
- Character'Pos ('0');
when others =>
raise Format_Error;
end case;
end loop;
end if;
raise Format_Error;
end "&";
end Formatted_Output.Enumeration_Output;
| 25686 | ------------------------------------------------------------------------------
-- --
-- File: --
-- formatted_output-enumeration_output.adb --
-- --
-- Description: --
-- Formatted_Output.Enumeration_Output generic package body --
-- --
-- Author: --
-- <NAME>, <EMAIL> --
-- --
-- Revision history: --
-- 27/01/99 - original --
-- 16/03/99 - added support for justification characters --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
use Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
package body Formatted_Output.Enumeration_Output is
package Item_Type_IO is new Enumeration_IO (Item_Type);
use Item_Type_IO;
type Style_Type is (Capitalized, Upper_Case, Lower_Case);
function Format
(Value : Item_Type; Initial_Width : Integer; Justification : Alignment;
Style : Style_Type) return String is
Img : String (1 .. Maximal_Item_Length);
Width, Real_Width : Integer;
Past_Last : Integer := 1;
begin -- Format
case Style is
when Capitalized =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
Img (1) := To_Upper (Img (1));
when Lower_Case =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
when Upper_Case =>
Put (Img, Value, Set => Type_Set'(Upper_Case));
end case;
while Img (Past_Last) /= ' ' loop
Past_Last := Past_Last + 1;
end loop;
Real_Width := Past_Last - 1;
if Initial_Width < Real_Width then
Width := Real_Width;
else
Width := Initial_Width;
end if;
declare
S : String (1 .. Width);
begin
Move (Img (Past_Last - Real_Width .. Past_Last - 1), S,
Justify => Justification, Pad => Filler);
return S;
end;
end Format;
function "&" (Fmt : Format_Type; Value : Item_Type) return Format_Type is
Command_Start : constant Integer := Scan_To_Percent_Sign (Fmt);
Width : Integer := 0;
Digit_Occured, Justification_Changed : Boolean := False;
Justification : Alignment := Right;
Fmt_Copy : Unbounded_String;
begin -- "&"
if Command_Start /= 0 then
Fmt_Copy := Unbounded_String (Fmt);
for I in Command_Start + 1 .. Length (Fmt_Copy) loop
case Element (Fmt_Copy, I) is
when 'c' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Capitalized));
return Format_Type (Fmt_Copy);
when 'u' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Upper_Case));
return Format_Type (Fmt_Copy);
when 'l' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Lower_Case));
return Format_Type (Fmt_Copy);
when '-' | '+' | '*' =>
if Justification_Changed or else Digit_Occured then
raise Format_Error;
end if;
Justification_Changed := True;
case Element (Fmt_Copy, I) is
when '-' =>
Justification := Left;
when '+' =>
Justification := Right;
when '*' =>
Justification := Center;
when others =>
null;
end case;
when '0' .. '9' =>
Width := Width * 10
+ Character'Pos (Element (Fmt_Copy, I))
- Character'Pos ('0');
when others =>
raise Format_Error;
end case;
end loop;
end if;
raise Format_Error;
end "&";
end Formatted_Output.Enumeration_Output;
| true | ------------------------------------------------------------------------------
-- --
-- File: --
-- formatted_output-enumeration_output.adb --
-- --
-- Description: --
-- Formatted_Output.Enumeration_Output generic package body --
-- --
-- Author: --
-- PI:NAME:<NAME>END_PI, PI:EMAIL:<EMAIL>END_PI --
-- --
-- Revision history: --
-- 27/01/99 - original --
-- 16/03/99 - added support for justification characters --
-- --
------------------------------------------------------------------------------
with Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
use Ada.Text_IO,
Ada.Characters.Handling,
Ada.Strings,
Ada.Strings.Fixed,
Ada.Strings.Unbounded;
package body Formatted_Output.Enumeration_Output is
package Item_Type_IO is new Enumeration_IO (Item_Type);
use Item_Type_IO;
type Style_Type is (Capitalized, Upper_Case, Lower_Case);
function Format
(Value : Item_Type; Initial_Width : Integer; Justification : Alignment;
Style : Style_Type) return String is
Img : String (1 .. Maximal_Item_Length);
Width, Real_Width : Integer;
Past_Last : Integer := 1;
begin -- Format
case Style is
when Capitalized =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
Img (1) := To_Upper (Img (1));
when Lower_Case =>
Put (Img, Value, Set => Type_Set'(Lower_Case));
when Upper_Case =>
Put (Img, Value, Set => Type_Set'(Upper_Case));
end case;
while Img (Past_Last) /= ' ' loop
Past_Last := Past_Last + 1;
end loop;
Real_Width := Past_Last - 1;
if Initial_Width < Real_Width then
Width := Real_Width;
else
Width := Initial_Width;
end if;
declare
S : String (1 .. Width);
begin
Move (Img (Past_Last - Real_Width .. Past_Last - 1), S,
Justify => Justification, Pad => Filler);
return S;
end;
end Format;
function "&" (Fmt : Format_Type; Value : Item_Type) return Format_Type is
Command_Start : constant Integer := Scan_To_Percent_Sign (Fmt);
Width : Integer := 0;
Digit_Occured, Justification_Changed : Boolean := False;
Justification : Alignment := Right;
Fmt_Copy : Unbounded_String;
begin -- "&"
if Command_Start /= 0 then
Fmt_Copy := Unbounded_String (Fmt);
for I in Command_Start + 1 .. Length (Fmt_Copy) loop
case Element (Fmt_Copy, I) is
when 'c' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Capitalized));
return Format_Type (Fmt_Copy);
when 'u' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Upper_Case));
return Format_Type (Fmt_Copy);
when 'l' =>
Replace_Slice (Fmt_Copy, Command_Start, I,
Format (Value, Width, Justification, Lower_Case));
return Format_Type (Fmt_Copy);
when '-' | '+' | '*' =>
if Justification_Changed or else Digit_Occured then
raise Format_Error;
end if;
Justification_Changed := True;
case Element (Fmt_Copy, I) is
when '-' =>
Justification := Left;
when '+' =>
Justification := Right;
when '*' =>
Justification := Center;
when others =>
null;
end case;
when '0' .. '9' =>
Width := Width * 10
+ Character'Pos (Element (Fmt_Copy, I))
- Character'Pos ('0');
when others =>
raise Format_Error;
end case;
end loop;
end if;
raise Format_Error;
end "&";
end Formatted_Output.Enumeration_Output;
|
[
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.9998879432678223,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999330639839172,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/uml/amf-uml-structural_features.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
-- By specializing multiplicity element, it supports a multiplicity that
-- specifies valid cardinalities for the collection of values associated with
-- an instantiation of the structural feature.
--
-- A structural feature is a typed feature of a classifier that specifies the
-- structure of instances of the classifier.
------------------------------------------------------------------------------
with AMF.UML.Features;
with AMF.UML.Multiplicity_Elements;
with AMF.UML.Typed_Elements;
package AMF.UML.Structural_Features is
pragma Preelaborate;
type UML_Structural_Feature is limited interface
and AMF.UML.Multiplicity_Elements.UML_Multiplicity_Element
and AMF.UML.Features.UML_Feature
and AMF.UML.Typed_Elements.UML_Typed_Element;
type UML_Structural_Feature_Access is
access all UML_Structural_Feature'Class;
for UML_Structural_Feature_Access'Storage_Size use 0;
not overriding function Get_Is_Read_Only
(Self : not null access constant UML_Structural_Feature)
return Boolean is abstract;
-- Getter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
not overriding procedure Set_Is_Read_Only
(Self : not null access UML_Structural_Feature;
To : Boolean) is abstract;
-- Setter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
end AMF.UML.Structural_Features;
| 13487 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
-- By specializing multiplicity element, it supports a multiplicity that
-- specifies valid cardinalities for the collection of values associated with
-- an instantiation of the structural feature.
--
-- A structural feature is a typed feature of a classifier that specifies the
-- structure of instances of the classifier.
------------------------------------------------------------------------------
with AMF.UML.Features;
with AMF.UML.Multiplicity_Elements;
with AMF.UML.Typed_Elements;
package AMF.UML.Structural_Features is
pragma Preelaborate;
type UML_Structural_Feature is limited interface
and AMF.UML.Multiplicity_Elements.UML_Multiplicity_Element
and AMF.UML.Features.UML_Feature
and AMF.UML.Typed_Elements.UML_Typed_Element;
type UML_Structural_Feature_Access is
access all UML_Structural_Feature'Class;
for UML_Structural_Feature_Access'Storage_Size use 0;
not overriding function Get_Is_Read_Only
(Self : not null access constant UML_Structural_Feature)
return Boolean is abstract;
-- Getter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
not overriding procedure Set_Is_Read_Only
(Self : not null access UML_Structural_Feature;
To : Boolean) is abstract;
-- Setter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
end AMF.UML.Structural_Features;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
-- By specializing multiplicity element, it supports a multiplicity that
-- specifies valid cardinalities for the collection of values associated with
-- an instantiation of the structural feature.
--
-- A structural feature is a typed feature of a classifier that specifies the
-- structure of instances of the classifier.
------------------------------------------------------------------------------
with AMF.UML.Features;
with AMF.UML.Multiplicity_Elements;
with AMF.UML.Typed_Elements;
package AMF.UML.Structural_Features is
pragma Preelaborate;
type UML_Structural_Feature is limited interface
and AMF.UML.Multiplicity_Elements.UML_Multiplicity_Element
and AMF.UML.Features.UML_Feature
and AMF.UML.Typed_Elements.UML_Typed_Element;
type UML_Structural_Feature_Access is
access all UML_Structural_Feature'Class;
for UML_Structural_Feature_Access'Storage_Size use 0;
not overriding function Get_Is_Read_Only
(Self : not null access constant UML_Structural_Feature)
return Boolean is abstract;
-- Getter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
not overriding procedure Set_Is_Read_Only
(Self : not null access UML_Structural_Feature;
To : Boolean) is abstract;
-- Setter of StructuralFeature::isReadOnly.
--
-- States whether the feature's value may be modified by a client.
end AMF.UML.Structural_Features;
|
[
{
"context": "e-Identifier: Apache-2.0\n--\n-- Copyright (c) 2019 onox <denkpadje@gmail.com>\n--\n-- Licensed under the A",
"end": 70,
"score": 0.9992201328277588,
"start": 66,
"tag": "USERNAME",
"value": "onox"
},
{
"context": "ifier: Apache-2.0\n--\n-- Copyright (c) 2019 onox <denkpadje@gmail.com>\n--\n-- Licensed under the Apache License, Versio",
"end": 91,
"score": 0.9999234080314636,
"start": 72,
"tag": "EMAIL",
"value": "denkpadje@gmail.com"
}
] | orka_plugin_sdl/src/orka-inputs-sdl.adb | onox/orka | 52 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2019 onox <denkpadje@gmail.com>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with SDL.Inputs.Mice;
package body Orka.Inputs.SDL is
overriding
procedure Set_Cursor_Mode
(Object : in out SDL_Pointer_Input;
Mode : Pointers.Default.Cursor_Mode)
is
use all type Pointers.Default.Cursor_Mode;
begin
case Mode is
when Normal =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (True);
when Hidden =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (False);
when Disabled =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (True);
end case;
end Set_Cursor_Mode;
procedure Set_Button_State
(Object : in out SDL_Pointer_Input;
Subject : Standard.SDL.Events.Mice.Buttons;
State : Pointers.Button_State)
is
use Standard.SDL.Events;
use all type Inputs.Pointers.Button;
begin
case Subject is
when Mice.Left =>
Object.Set_Button_State (Left, State);
when Mice.Right =>
Object.Set_Button_State (Right, State);
when Mice.Middle =>
Object.Set_Button_State (Middle, State);
when others =>
raise Program_Error with "Invalid mouse button";
end case;
end Set_Button_State;
procedure Set_Window
(Object : in out SDL_Pointer_Input;
Window : Standard.SDL.Video.Windows.Window) is
begin
Object.Window := Window.Get_ID;
end Set_Window;
function Create_Pointer_Input return Inputs.Pointers.Pointer_Input_Ptr is
begin
return new SDL_Pointer_Input'
(Pointers.Default.Abstract_Pointer_Input with others => <>);
end Create_Pointer_Input;
end Orka.Inputs.SDL;
| 5848 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2019 onox <<EMAIL>>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with SDL.Inputs.Mice;
package body Orka.Inputs.SDL is
overriding
procedure Set_Cursor_Mode
(Object : in out SDL_Pointer_Input;
Mode : Pointers.Default.Cursor_Mode)
is
use all type Pointers.Default.Cursor_Mode;
begin
case Mode is
when Normal =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (True);
when Hidden =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (False);
when Disabled =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (True);
end case;
end Set_Cursor_Mode;
procedure Set_Button_State
(Object : in out SDL_Pointer_Input;
Subject : Standard.SDL.Events.Mice.Buttons;
State : Pointers.Button_State)
is
use Standard.SDL.Events;
use all type Inputs.Pointers.Button;
begin
case Subject is
when Mice.Left =>
Object.Set_Button_State (Left, State);
when Mice.Right =>
Object.Set_Button_State (Right, State);
when Mice.Middle =>
Object.Set_Button_State (Middle, State);
when others =>
raise Program_Error with "Invalid mouse button";
end case;
end Set_Button_State;
procedure Set_Window
(Object : in out SDL_Pointer_Input;
Window : Standard.SDL.Video.Windows.Window) is
begin
Object.Window := Window.Get_ID;
end Set_Window;
function Create_Pointer_Input return Inputs.Pointers.Pointer_Input_Ptr is
begin
return new SDL_Pointer_Input'
(Pointers.Default.Abstract_Pointer_Input with others => <>);
end Create_Pointer_Input;
end Orka.Inputs.SDL;
| true | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2019 onox <PI:EMAIL:<EMAIL>END_PI>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with SDL.Inputs.Mice;
package body Orka.Inputs.SDL is
overriding
procedure Set_Cursor_Mode
(Object : in out SDL_Pointer_Input;
Mode : Pointers.Default.Cursor_Mode)
is
use all type Pointers.Default.Cursor_Mode;
begin
case Mode is
when Normal =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (True);
when Hidden =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (False);
Standard.SDL.Inputs.Mice.Show_Cursor (False);
when Disabled =>
Standard.SDL.Inputs.Mice.Set_Relative_Mode (True);
end case;
end Set_Cursor_Mode;
procedure Set_Button_State
(Object : in out SDL_Pointer_Input;
Subject : Standard.SDL.Events.Mice.Buttons;
State : Pointers.Button_State)
is
use Standard.SDL.Events;
use all type Inputs.Pointers.Button;
begin
case Subject is
when Mice.Left =>
Object.Set_Button_State (Left, State);
when Mice.Right =>
Object.Set_Button_State (Right, State);
when Mice.Middle =>
Object.Set_Button_State (Middle, State);
when others =>
raise Program_Error with "Invalid mouse button";
end case;
end Set_Button_State;
procedure Set_Window
(Object : in out SDL_Pointer_Input;
Window : Standard.SDL.Video.Windows.Window) is
begin
Object.Window := Window.Get_ID;
end Set_Window;
function Create_Pointer_Input return Inputs.Pointers.Pointer_Input_Ptr is
begin
return new SDL_Pointer_Input'
(Pointers.Default.Abstract_Pointer_Input with others => <>);
end Create_Pointer_Input;
end Orka.Inputs.SDL;
|
[
{
"context": "-- part of OpenGLAda, (c) 2017 Felix Krause\n-- released under the terms of the MIT license, ",
"end": 44,
"score": 0.9998462796211243,
"start": 32,
"tag": "NAME",
"value": "Felix Krause"
}
] | src/gl/implementation/gl-enums-indexes.ads | Roldak/OpenGLAda | 79 | -- part of OpenGLAda, (c) 2017 Felix Krause
-- released under the terms of the MIT license, see the file "COPYING"
with GL.Types;
with GL.Enums.Getter;
generic
Min_Representation : Types.Int;
Getter_Param : Enums.Getter.Parameter;
package GL.Enums.Indexes is
pragma Preelaborate;
use GL.Types;
Max : constant Int := Getter.Get_Max (Getter_Param);
subtype Index is Int range 0 .. Max;
function Representation (Value : Index) return Int;
function Value (Representation : Int) return Index;
end GL.Enums.Indexes; | 25538 | -- part of OpenGLAda, (c) 2017 <NAME>
-- released under the terms of the MIT license, see the file "COPYING"
with GL.Types;
with GL.Enums.Getter;
generic
Min_Representation : Types.Int;
Getter_Param : Enums.Getter.Parameter;
package GL.Enums.Indexes is
pragma Preelaborate;
use GL.Types;
Max : constant Int := Getter.Get_Max (Getter_Param);
subtype Index is Int range 0 .. Max;
function Representation (Value : Index) return Int;
function Value (Representation : Int) return Index;
end GL.Enums.Indexes; | true | -- part of OpenGLAda, (c) 2017 PI:NAME:<NAME>END_PI
-- released under the terms of the MIT license, see the file "COPYING"
with GL.Types;
with GL.Enums.Getter;
generic
Min_Representation : Types.Int;
Getter_Param : Enums.Getter.Parameter;
package GL.Enums.Indexes is
pragma Preelaborate;
use GL.Types;
Max : constant Int := Getter.Get_Max (Getter_Param);
subtype Index is Int range 0 .. Max;
function Representation (Value : Index) return Int;
function Value (Representation : Int) return Index;
end GL.Enums.Indexes; |
[
{
"context": "-- Copyright 2017-2021 Jeff Foley. All rights reserved.\n-- Use of this source code ",
"end": 33,
"score": 0.9998526573181152,
"start": 23,
"tag": "NAME",
"value": "Jeff Foley"
},
{
"context": "file.\n\nlocal url = require(\"url\")\n\nname = \"ArchiveIt\"\ntype = \"archive\"\n\nfunction start()\n set_rate_",
"end": 200,
"score": 0.5825909376144409,
"start": 198,
"tag": "USERNAME",
"value": "It"
}
] | resources/scripts/archive/archiveit.ads | Elon143/Amass | 7,053 | -- Copyright 2017-2021 Jeff Foley. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
local url = require("url")
name = "ArchiveIt"
type = "archive"
function start()
set_rate_limit(2)
end
function vertical(ctx, domain)
scrape(ctx, {['url']=first_url(domain)})
local found = pages(ctx, domain)
if not found then
return
end
for i=1,50,1 do
local ok = scrape(ctx, {['url']=second_url(domain, i)})
if not ok then
break
end
end
end
function first_url(domain)
local params = {
['url']=domain,
['matchType']="domain",
['fl']="original",
['collapse']="urlkey",
}
return "https://wayback.archive-it.org/all/timemap/cdx?" .. url.build_query_string(params)
end
function second_url(domain, pagenum)
local params = {
['show']="Sites",
['q']=domain,
['page']=pagenum,
}
return "https://archive-it.org/explore?" .. url.build_query_string(params)
end
function pages(ctx, domain)
local u = "https://archive-it.org/explore?show=Sites&q=" .. domain
local resp, err = request(ctx, {['url']=u})
if (err ~= nil and err ~= "") then
log(ctx, "pages request to service failed: " .. err)
return false
end
local match = find(resp, "No metadata results")
if (match == nil or #match == 0) then
return false
end
return true
end
| 15418 | -- Copyright 2017-2021 <NAME>. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
local url = require("url")
name = "ArchiveIt"
type = "archive"
function start()
set_rate_limit(2)
end
function vertical(ctx, domain)
scrape(ctx, {['url']=first_url(domain)})
local found = pages(ctx, domain)
if not found then
return
end
for i=1,50,1 do
local ok = scrape(ctx, {['url']=second_url(domain, i)})
if not ok then
break
end
end
end
function first_url(domain)
local params = {
['url']=domain,
['matchType']="domain",
['fl']="original",
['collapse']="urlkey",
}
return "https://wayback.archive-it.org/all/timemap/cdx?" .. url.build_query_string(params)
end
function second_url(domain, pagenum)
local params = {
['show']="Sites",
['q']=domain,
['page']=pagenum,
}
return "https://archive-it.org/explore?" .. url.build_query_string(params)
end
function pages(ctx, domain)
local u = "https://archive-it.org/explore?show=Sites&q=" .. domain
local resp, err = request(ctx, {['url']=u})
if (err ~= nil and err ~= "") then
log(ctx, "pages request to service failed: " .. err)
return false
end
local match = find(resp, "No metadata results")
if (match == nil or #match == 0) then
return false
end
return true
end
| true | -- Copyright 2017-2021 PI:NAME:<NAME>END_PI. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
local url = require("url")
name = "ArchiveIt"
type = "archive"
function start()
set_rate_limit(2)
end
function vertical(ctx, domain)
scrape(ctx, {['url']=first_url(domain)})
local found = pages(ctx, domain)
if not found then
return
end
for i=1,50,1 do
local ok = scrape(ctx, {['url']=second_url(domain, i)})
if not ok then
break
end
end
end
function first_url(domain)
local params = {
['url']=domain,
['matchType']="domain",
['fl']="original",
['collapse']="urlkey",
}
return "https://wayback.archive-it.org/all/timemap/cdx?" .. url.build_query_string(params)
end
function second_url(domain, pagenum)
local params = {
['show']="Sites",
['q']=domain,
['page']=pagenum,
}
return "https://archive-it.org/explore?" .. url.build_query_string(params)
end
function pages(ctx, domain)
local u = "https://archive-it.org/explore?show=Sites&q=" .. domain
local resp, err = request(ctx, {['url']=u})
if (err ~= nil and err ~= "") then
log(ctx, "pages request to service failed: " .. err)
return false
end
local match = find(resp, "No metadata results")
if (match == nil or #match == 0) then
return false
end
return true
end
|
[
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.9998552203178406,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.9999306201934814,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | sources/md/markdown-fenced_code_blocks.ads | reznikmm/markdown | 0 | -- SPDX-FileCopyrightText: 2020 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Tags;
with League.String_Vectors;
with League.Strings;
with Markdown.Blocks;
limited with Markdown.Visitors;
package Markdown.Fenced_Code_Blocks is
type Fenced_Code_Block is new Markdown.Blocks.Block with private;
function Lines (Self : Fenced_Code_Block'Class)
return League.String_Vectors.Universal_String_Vector;
function Info_String (Self : Fenced_Code_Block'Class)
return League.Strings.Universal_String;
overriding function Create
(Line : not null access Markdown.Blocks.Text_Line)
return Fenced_Code_Block;
overriding procedure Append_Line
(Self : in out Fenced_Code_Block;
Line : Markdown.Blocks.Text_Line;
CIP : Can_Interrupt_Paragraph;
Ok : in out Boolean);
overriding procedure Visit
(Self : in out Fenced_Code_Block;
Visitor : in out Markdown.Visitors.Visitor'Class);
procedure Filter
(Line : Markdown.Blocks.Text_Line;
Tag : in out Ada.Tags.Tag;
CIP : out Can_Interrupt_Paragraph);
private
type Fenced_Code_Block is new Markdown.Blocks.Block with record
Is_Tick_Fence : Boolean;
Fence_Length : Positive;
Fence_Indent : Natural;
Closed : Boolean := False;
Lines : League.String_Vectors.Universal_String_Vector;
Blank : League.String_Vectors.Universal_String_Vector;
Info_String : League.Strings.Universal_String;
end record;
end Markdown.Fenced_Code_Blocks;
| 25196 | -- SPDX-FileCopyrightText: 2020 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Tags;
with League.String_Vectors;
with League.Strings;
with Markdown.Blocks;
limited with Markdown.Visitors;
package Markdown.Fenced_Code_Blocks is
type Fenced_Code_Block is new Markdown.Blocks.Block with private;
function Lines (Self : Fenced_Code_Block'Class)
return League.String_Vectors.Universal_String_Vector;
function Info_String (Self : Fenced_Code_Block'Class)
return League.Strings.Universal_String;
overriding function Create
(Line : not null access Markdown.Blocks.Text_Line)
return Fenced_Code_Block;
overriding procedure Append_Line
(Self : in out Fenced_Code_Block;
Line : Markdown.Blocks.Text_Line;
CIP : Can_Interrupt_Paragraph;
Ok : in out Boolean);
overriding procedure Visit
(Self : in out Fenced_Code_Block;
Visitor : in out Markdown.Visitors.Visitor'Class);
procedure Filter
(Line : Markdown.Blocks.Text_Line;
Tag : in out Ada.Tags.Tag;
CIP : out Can_Interrupt_Paragraph);
private
type Fenced_Code_Block is new Markdown.Blocks.Block with record
Is_Tick_Fence : Boolean;
Fence_Length : Positive;
Fence_Indent : Natural;
Closed : Boolean := False;
Lines : League.String_Vectors.Universal_String_Vector;
Blank : League.String_Vectors.Universal_String_Vector;
Info_String : League.Strings.Universal_String;
end record;
end Markdown.Fenced_Code_Blocks;
| true | -- SPDX-FileCopyrightText: 2020 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
----------------------------------------------------------------
with Ada.Tags;
with League.String_Vectors;
with League.Strings;
with Markdown.Blocks;
limited with Markdown.Visitors;
package Markdown.Fenced_Code_Blocks is
type Fenced_Code_Block is new Markdown.Blocks.Block with private;
function Lines (Self : Fenced_Code_Block'Class)
return League.String_Vectors.Universal_String_Vector;
function Info_String (Self : Fenced_Code_Block'Class)
return League.Strings.Universal_String;
overriding function Create
(Line : not null access Markdown.Blocks.Text_Line)
return Fenced_Code_Block;
overriding procedure Append_Line
(Self : in out Fenced_Code_Block;
Line : Markdown.Blocks.Text_Line;
CIP : Can_Interrupt_Paragraph;
Ok : in out Boolean);
overriding procedure Visit
(Self : in out Fenced_Code_Block;
Visitor : in out Markdown.Visitors.Visitor'Class);
procedure Filter
(Line : Markdown.Blocks.Text_Line;
Tag : in out Ada.Tags.Tag;
CIP : out Can_Interrupt_Paragraph);
private
type Fenced_Code_Block is new Markdown.Blocks.Block with record
Is_Tick_Fence : Boolean;
Fence_Length : Positive;
Fence_Indent : Natural;
Closed : Boolean := False;
Lines : League.String_Vectors.Universal_String_Vector;
Blank : League.String_Vectors.Universal_String_Vector;
Info_String : League.Strings.Universal_String;
end record;
end Markdown.Fenced_Code_Blocks;
|
[
{
"context": "--\n-- Copyright (c) 2007, 2008 Tero Koskinen <tero.koskinen@iki.fi>\n--\n-- Permission to use, c",
"end": 44,
"score": 0.9998421669006348,
"start": 31,
"tag": "NAME",
"value": "Tero Koskinen"
},
{
"context": "--\n-- Copyright (c) 2007, 2008 Tero Koskinen <tero.koskinen@iki.fi>\n--\n-- Permission to use, copy, modify, and distr",
"end": 66,
"score": 0.9999343156814575,
"start": 46,
"tag": "EMAIL",
"value": "tero.koskinen@iki.fi"
}
] | testutil/ahven/ahven-temporary_output.adb | Letractively/ada-util | 60 | --
-- Copyright (c) 2007, 2008 Tero Koskinen <tero.koskinen@iki.fi>
--
-- Permission to use, copy, modify, and distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
with Ada.Strings.Fixed;
package body Ahven.Temporary_Output is
use Ahven.AStrings;
use Ada.Strings.Fixed;
Temp_Counter : Natural := 0;
procedure Create_Temp (File : out Temporary_File) is
Filename : constant String := "ahven_temp_" &
Trim (Integer'Image (Temp_Counter), Ada.Strings.Both);
begin
if Temp_Counter < Natural'Last then
Temp_Counter := Temp_Counter + 1;
else
raise Temporary_File_Error;
end if;
File.Name := To_Bounded_String (Filename);
Ada.Text_IO.Create (File.Handle, Ada.Text_IO.Out_File, Filename);
end Create_Temp;
function Get_Name (File : Temporary_File) return String is
begin
return To_String (File.Name);
end Get_Name;
procedure Redirect_Output (To_File : in out Temporary_File) is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (To_File.Handle);
end Redirect_Output;
procedure Restore_Output is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (Ada.Text_IO.Standard_Output);
end Restore_Output;
procedure Remove_Temp (File : in out Temporary_File) is
begin
if not Ada.Text_IO.Is_Open (File.Handle) then
Ada.Text_IO.Open (File.Handle, Ada.Text_IO.Out_File,
To_String (File.Name));
end if;
Ada.Text_IO.Delete (File.Handle);
end Remove_Temp;
procedure Close_Temp (File : in out Temporary_File) is
begin
Ada.Text_IO.Close (File.Handle);
end Close_Temp;
end Ahven.Temporary_Output;
| 9500 | --
-- Copyright (c) 2007, 2008 <NAME> <<EMAIL>>
--
-- Permission to use, copy, modify, and distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
with Ada.Strings.Fixed;
package body Ahven.Temporary_Output is
use Ahven.AStrings;
use Ada.Strings.Fixed;
Temp_Counter : Natural := 0;
procedure Create_Temp (File : out Temporary_File) is
Filename : constant String := "ahven_temp_" &
Trim (Integer'Image (Temp_Counter), Ada.Strings.Both);
begin
if Temp_Counter < Natural'Last then
Temp_Counter := Temp_Counter + 1;
else
raise Temporary_File_Error;
end if;
File.Name := To_Bounded_String (Filename);
Ada.Text_IO.Create (File.Handle, Ada.Text_IO.Out_File, Filename);
end Create_Temp;
function Get_Name (File : Temporary_File) return String is
begin
return To_String (File.Name);
end Get_Name;
procedure Redirect_Output (To_File : in out Temporary_File) is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (To_File.Handle);
end Redirect_Output;
procedure Restore_Output is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (Ada.Text_IO.Standard_Output);
end Restore_Output;
procedure Remove_Temp (File : in out Temporary_File) is
begin
if not Ada.Text_IO.Is_Open (File.Handle) then
Ada.Text_IO.Open (File.Handle, Ada.Text_IO.Out_File,
To_String (File.Name));
end if;
Ada.Text_IO.Delete (File.Handle);
end Remove_Temp;
procedure Close_Temp (File : in out Temporary_File) is
begin
Ada.Text_IO.Close (File.Handle);
end Close_Temp;
end Ahven.Temporary_Output;
| true | --
-- Copyright (c) 2007, 2008 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- Permission to use, copy, modify, and distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--
with Ada.Strings.Fixed;
package body Ahven.Temporary_Output is
use Ahven.AStrings;
use Ada.Strings.Fixed;
Temp_Counter : Natural := 0;
procedure Create_Temp (File : out Temporary_File) is
Filename : constant String := "ahven_temp_" &
Trim (Integer'Image (Temp_Counter), Ada.Strings.Both);
begin
if Temp_Counter < Natural'Last then
Temp_Counter := Temp_Counter + 1;
else
raise Temporary_File_Error;
end if;
File.Name := To_Bounded_String (Filename);
Ada.Text_IO.Create (File.Handle, Ada.Text_IO.Out_File, Filename);
end Create_Temp;
function Get_Name (File : Temporary_File) return String is
begin
return To_String (File.Name);
end Get_Name;
procedure Redirect_Output (To_File : in out Temporary_File) is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (To_File.Handle);
end Redirect_Output;
procedure Restore_Output is
begin
Ada.Text_IO.Flush;
Ada.Text_IO.Set_Output (Ada.Text_IO.Standard_Output);
end Restore_Output;
procedure Remove_Temp (File : in out Temporary_File) is
begin
if not Ada.Text_IO.Is_Open (File.Handle) then
Ada.Text_IO.Open (File.Handle, Ada.Text_IO.Out_File,
To_String (File.Name));
end if;
Ada.Text_IO.Delete (File.Handle);
end Remove_Temp;
procedure Close_Temp (File : in out Temporary_File) is
begin
Ada.Text_IO.Close (File.Handle);
end Close_Temp;
end Ahven.Temporary_Output;
|
[
{
"context": "Fast Multimedia Library\n-- Copyright (C) 2007-2015 Laurent Gomila (laurent@sfml-dev.org)\n-- This software is provid",
"end": 147,
"score": 0.9998608827590942,
"start": 133,
"tag": "NAME",
"value": "Laurent Gomila"
},
{
"context": "ibrary\n-- Copyright (C) 2007-2015 Laurent Gomila (laurent@sfml-dev.org)\n-- This software is provided 'as-is', without an",
"end": 169,
"score": 0.9999318718910217,
"start": 149,
"tag": "EMAIL",
"value": "laurent@sfml-dev.org"
}
] | include/sf-network-udpsocket.ads | Fabien-Chouteau/ASFML | 0 | --//////////////////////////////////////////////////////////
-- SFML - Simple and Fast Multimedia Library
-- Copyright (C) 2007-2015 Laurent Gomila (laurent@sfml-dev.org)
-- This software is provided 'as-is', without any express or implied warranty.
-- In no event will the authors be held liable for any damages arising from the use of this software.
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it freely,
-- subject to the following restrictions:
-- 1. The origin of this software must not be misrepresented;
-- you must not claim that you wrote the original software.
-- If you use this software in a product, an acknowledgment
-- in the product documentation would be appreciated but is not required.
-- 2. Altered source versions must be plainly marked as such,
-- and must not be misrepresented as being the original software.
-- 3. This notice may not be removed or altered from any source distribution.
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
with Sf.Network.IpAddress;
with Sf.Network.SocketStatus;
package Sf.Network.UdpSocket is
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--/ @brief Create a new UDP socket
--/
--/ @return A new sfUdpSocket object
--/
--//////////////////////////////////////////////////////////
function create return sfUdpSocket_Ptr;
--//////////////////////////////////////////////////////////
--/ @brief Destroy a UDP socket
--/
--/ @param socket UDP socket to destroy
--/
--//////////////////////////////////////////////////////////
procedure destroy (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Set the blocking state of a UDP listener
--/
--/ In blocking mode, calls will not return until they have
--/ completed their task. For example, a call to
--/ sfUDPSocket_receive in blocking mode won't return until
--/ new data was actually received.
--/ In non-blocking mode, calls will always return immediately,
--/ using the return code to signal whether there was data
--/ available or not.
--/ By default, all sockets are blocking.
--/
--/ @param socket UDP socket object
--/ @param blocking sfTrue to set the socket as blocking, sfFalse for non-blocking
--/
--//////////////////////////////////////////////////////////
procedure setBlocking (socket : sfUdpSocket_Ptr; blocking : sfBool);
--//////////////////////////////////////////////////////////
--/ @brief Tell whether a UDP socket is in blocking or non-blocking mode
--/
--/ @param socket UDP socket object
--/
--/ @return sfTrue if the socket is blocking, sfFalse otherwise
--/
--//////////////////////////////////////////////////////////
function isBlocking (socket : sfUdpSocket_Ptr) return sfBool;
--//////////////////////////////////////////////////////////
--/ @brief Get the port to which a UDP socket is bound locally
--/
--/ If the socket is not bound to a port, this function
--/ returns 0.
--/
--/ @param socket UDP socket object
--/
--/ @return Port to which the socket is bound
--/
--//////////////////////////////////////////////////////////
function getLocalPort (socket : sfUdpSocket_Ptr) return sfUint16;
--//////////////////////////////////////////////////////////
--/ @brief Bind a UDP socket to a specific port
--/
--/ Binding the socket to a port is necessary for being
--/ able to receive data on that port.
--/ You can use the special value 0 to tell the
--/ system to automatically pick an available port, and then
--/ call sfUdpSocket_getLocalPort to retrieve the chosen port.
--/
--/ If there is no specific address to listen to, pass sfIpAddress_Any
--/
--/ @param socket UDP socket object
--/ @param port Port to bind the socket to
--/ @param address Address of the interface to bind to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function bind
(socket : sfUdpSocket_Ptr;
port : sfUint16;
address : Sf.Network.IpAddress.sfIpAddress) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Unbind a UDP socket from the local port to which it is bound
--/
--/ The port that the socket was previously using is immediately
--/ available after this function is called. If the
--/ socket is not bound to a port, this function has no effect.
--/
--/ @param socket UDP socket object
--/
--//////////////////////////////////////////////////////////
procedure unbind (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Send raw data to a remote peer with a UDP socket
--/
--/ Make sure that @a size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the sequence of bytes to send
--/ @param size Number of bytes to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function send
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive raw data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until some
--/ bytes are actually received.
--/ Be careful to use a buffer which is large enough for
--/ the data that you intend to receive, if it is too small
--/ then an error will be returned and *all* the data will
--/ be lost.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the array to fill with the received bytes
--/ @param size Maximum number of bytes that can be received
--/ @param received This variable is filled with the actual number of bytes received
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receive
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
received : access sfSize_t;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Send a formatted packet of data to a remote peer with a UDP socket
--/
--/ Make sure that the packet size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param packet Packet to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function sendPacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive a formatted packet of data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until the whole packet
--/ has been received.
--/
--/ @param packet Packet to fill with the received data
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receivePacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Return the maximum number of bytes that can be
--/ sent in a single UDP datagram
--/
--/ @return The maximum size of a UDP datagram (message)
--/
--//////////////////////////////////////////////////////////
function maxDatagramSize return sfUint32;
private
pragma Import (C, create, "sfUdpSocket_create");
pragma Import (C, destroy, "sfUdpSocket_destroy");
pragma Import (C, setBlocking, "sfUdpSocket_setBlocking");
pragma Import (C, isBlocking, "sfUdpSocket_isBlocking");
pragma Import (C, getLocalPort, "sfUdpSocket_getLocalPort");
pragma Import (C, bind, "sfUdpSocket_bind");
pragma Import (C, unbind, "sfUdpSocket_unbind");
pragma Import (C, send, "sfUdpSocket_send");
pragma Import (C, receive, "sfUdpSocket_receive");
pragma Import (C, sendPacket, "sfUdpSocket_sendPacket");
pragma Import (C, receivePacket, "sfUdpSocket_receivePacket");
pragma Import (C, maxDatagramSize, "sfUdpSocket_maxDatagramSize");
end Sf.Network.UdpSocket;
| 28050 | --//////////////////////////////////////////////////////////
-- SFML - Simple and Fast Multimedia Library
-- Copyright (C) 2007-2015 <NAME> (<EMAIL>)
-- This software is provided 'as-is', without any express or implied warranty.
-- In no event will the authors be held liable for any damages arising from the use of this software.
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it freely,
-- subject to the following restrictions:
-- 1. The origin of this software must not be misrepresented;
-- you must not claim that you wrote the original software.
-- If you use this software in a product, an acknowledgment
-- in the product documentation would be appreciated but is not required.
-- 2. Altered source versions must be plainly marked as such,
-- and must not be misrepresented as being the original software.
-- 3. This notice may not be removed or altered from any source distribution.
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
with Sf.Network.IpAddress;
with Sf.Network.SocketStatus;
package Sf.Network.UdpSocket is
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--/ @brief Create a new UDP socket
--/
--/ @return A new sfUdpSocket object
--/
--//////////////////////////////////////////////////////////
function create return sfUdpSocket_Ptr;
--//////////////////////////////////////////////////////////
--/ @brief Destroy a UDP socket
--/
--/ @param socket UDP socket to destroy
--/
--//////////////////////////////////////////////////////////
procedure destroy (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Set the blocking state of a UDP listener
--/
--/ In blocking mode, calls will not return until they have
--/ completed their task. For example, a call to
--/ sfUDPSocket_receive in blocking mode won't return until
--/ new data was actually received.
--/ In non-blocking mode, calls will always return immediately,
--/ using the return code to signal whether there was data
--/ available or not.
--/ By default, all sockets are blocking.
--/
--/ @param socket UDP socket object
--/ @param blocking sfTrue to set the socket as blocking, sfFalse for non-blocking
--/
--//////////////////////////////////////////////////////////
procedure setBlocking (socket : sfUdpSocket_Ptr; blocking : sfBool);
--//////////////////////////////////////////////////////////
--/ @brief Tell whether a UDP socket is in blocking or non-blocking mode
--/
--/ @param socket UDP socket object
--/
--/ @return sfTrue if the socket is blocking, sfFalse otherwise
--/
--//////////////////////////////////////////////////////////
function isBlocking (socket : sfUdpSocket_Ptr) return sfBool;
--//////////////////////////////////////////////////////////
--/ @brief Get the port to which a UDP socket is bound locally
--/
--/ If the socket is not bound to a port, this function
--/ returns 0.
--/
--/ @param socket UDP socket object
--/
--/ @return Port to which the socket is bound
--/
--//////////////////////////////////////////////////////////
function getLocalPort (socket : sfUdpSocket_Ptr) return sfUint16;
--//////////////////////////////////////////////////////////
--/ @brief Bind a UDP socket to a specific port
--/
--/ Binding the socket to a port is necessary for being
--/ able to receive data on that port.
--/ You can use the special value 0 to tell the
--/ system to automatically pick an available port, and then
--/ call sfUdpSocket_getLocalPort to retrieve the chosen port.
--/
--/ If there is no specific address to listen to, pass sfIpAddress_Any
--/
--/ @param socket UDP socket object
--/ @param port Port to bind the socket to
--/ @param address Address of the interface to bind to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function bind
(socket : sfUdpSocket_Ptr;
port : sfUint16;
address : Sf.Network.IpAddress.sfIpAddress) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Unbind a UDP socket from the local port to which it is bound
--/
--/ The port that the socket was previously using is immediately
--/ available after this function is called. If the
--/ socket is not bound to a port, this function has no effect.
--/
--/ @param socket UDP socket object
--/
--//////////////////////////////////////////////////////////
procedure unbind (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Send raw data to a remote peer with a UDP socket
--/
--/ Make sure that @a size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the sequence of bytes to send
--/ @param size Number of bytes to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function send
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive raw data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until some
--/ bytes are actually received.
--/ Be careful to use a buffer which is large enough for
--/ the data that you intend to receive, if it is too small
--/ then an error will be returned and *all* the data will
--/ be lost.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the array to fill with the received bytes
--/ @param size Maximum number of bytes that can be received
--/ @param received This variable is filled with the actual number of bytes received
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receive
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
received : access sfSize_t;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Send a formatted packet of data to a remote peer with a UDP socket
--/
--/ Make sure that the packet size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param packet Packet to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function sendPacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive a formatted packet of data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until the whole packet
--/ has been received.
--/
--/ @param packet Packet to fill with the received data
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receivePacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Return the maximum number of bytes that can be
--/ sent in a single UDP datagram
--/
--/ @return The maximum size of a UDP datagram (message)
--/
--//////////////////////////////////////////////////////////
function maxDatagramSize return sfUint32;
private
pragma Import (C, create, "sfUdpSocket_create");
pragma Import (C, destroy, "sfUdpSocket_destroy");
pragma Import (C, setBlocking, "sfUdpSocket_setBlocking");
pragma Import (C, isBlocking, "sfUdpSocket_isBlocking");
pragma Import (C, getLocalPort, "sfUdpSocket_getLocalPort");
pragma Import (C, bind, "sfUdpSocket_bind");
pragma Import (C, unbind, "sfUdpSocket_unbind");
pragma Import (C, send, "sfUdpSocket_send");
pragma Import (C, receive, "sfUdpSocket_receive");
pragma Import (C, sendPacket, "sfUdpSocket_sendPacket");
pragma Import (C, receivePacket, "sfUdpSocket_receivePacket");
pragma Import (C, maxDatagramSize, "sfUdpSocket_maxDatagramSize");
end Sf.Network.UdpSocket;
| true | --//////////////////////////////////////////////////////////
-- SFML - Simple and Fast Multimedia Library
-- Copyright (C) 2007-2015 PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
-- This software is provided 'as-is', without any express or implied warranty.
-- In no event will the authors be held liable for any damages arising from the use of this software.
-- Permission is granted to anyone to use this software for any purpose,
-- including commercial applications, and to alter it and redistribute it freely,
-- subject to the following restrictions:
-- 1. The origin of this software must not be misrepresented;
-- you must not claim that you wrote the original software.
-- If you use this software in a product, an acknowledgment
-- in the product documentation would be appreciated but is not required.
-- 2. Altered source versions must be plainly marked as such,
-- and must not be misrepresented as being the original software.
-- 3. This notice may not be removed or altered from any source distribution.
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
with Sf.Network.IpAddress;
with Sf.Network.SocketStatus;
package Sf.Network.UdpSocket is
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--//////////////////////////////////////////////////////////
--/ @brief Create a new UDP socket
--/
--/ @return A new sfUdpSocket object
--/
--//////////////////////////////////////////////////////////
function create return sfUdpSocket_Ptr;
--//////////////////////////////////////////////////////////
--/ @brief Destroy a UDP socket
--/
--/ @param socket UDP socket to destroy
--/
--//////////////////////////////////////////////////////////
procedure destroy (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Set the blocking state of a UDP listener
--/
--/ In blocking mode, calls will not return until they have
--/ completed their task. For example, a call to
--/ sfUDPSocket_receive in blocking mode won't return until
--/ new data was actually received.
--/ In non-blocking mode, calls will always return immediately,
--/ using the return code to signal whether there was data
--/ available or not.
--/ By default, all sockets are blocking.
--/
--/ @param socket UDP socket object
--/ @param blocking sfTrue to set the socket as blocking, sfFalse for non-blocking
--/
--//////////////////////////////////////////////////////////
procedure setBlocking (socket : sfUdpSocket_Ptr; blocking : sfBool);
--//////////////////////////////////////////////////////////
--/ @brief Tell whether a UDP socket is in blocking or non-blocking mode
--/
--/ @param socket UDP socket object
--/
--/ @return sfTrue if the socket is blocking, sfFalse otherwise
--/
--//////////////////////////////////////////////////////////
function isBlocking (socket : sfUdpSocket_Ptr) return sfBool;
--//////////////////////////////////////////////////////////
--/ @brief Get the port to which a UDP socket is bound locally
--/
--/ If the socket is not bound to a port, this function
--/ returns 0.
--/
--/ @param socket UDP socket object
--/
--/ @return Port to which the socket is bound
--/
--//////////////////////////////////////////////////////////
function getLocalPort (socket : sfUdpSocket_Ptr) return sfUint16;
--//////////////////////////////////////////////////////////
--/ @brief Bind a UDP socket to a specific port
--/
--/ Binding the socket to a port is necessary for being
--/ able to receive data on that port.
--/ You can use the special value 0 to tell the
--/ system to automatically pick an available port, and then
--/ call sfUdpSocket_getLocalPort to retrieve the chosen port.
--/
--/ If there is no specific address to listen to, pass sfIpAddress_Any
--/
--/ @param socket UDP socket object
--/ @param port Port to bind the socket to
--/ @param address Address of the interface to bind to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function bind
(socket : sfUdpSocket_Ptr;
port : sfUint16;
address : Sf.Network.IpAddress.sfIpAddress) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Unbind a UDP socket from the local port to which it is bound
--/
--/ The port that the socket was previously using is immediately
--/ available after this function is called. If the
--/ socket is not bound to a port, this function has no effect.
--/
--/ @param socket UDP socket object
--/
--//////////////////////////////////////////////////////////
procedure unbind (socket : sfUdpSocket_Ptr);
--//////////////////////////////////////////////////////////
--/ @brief Send raw data to a remote peer with a UDP socket
--/
--/ Make sure that @a size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the sequence of bytes to send
--/ @param size Number of bytes to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function send
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive raw data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until some
--/ bytes are actually received.
--/ Be careful to use a buffer which is large enough for
--/ the data that you intend to receive, if it is too small
--/ then an error will be returned and *all* the data will
--/ be lost.
--/
--/ @param socket UDP socket object
--/ @param data Pointer to the array to fill with the received bytes
--/ @param size Maximum number of bytes that can be received
--/ @param received This variable is filled with the actual number of bytes received
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receive
(socket : sfUdpSocket_Ptr;
data : Standard.System.Address;
size : sfSize_t;
received : access sfSize_t;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Send a formatted packet of data to a remote peer with a UDP socket
--/
--/ Make sure that the packet size is not greater than
--/ sfUdpSocket_maxDatagramSize(), otherwise this function will
--/ fail and no data will be sent.
--/
--/ @param socket UDP socket object
--/ @param packet Packet to send
--/ @param remoteAddress Address of the receiver
--/ @param remotePort Port of the receiver to send the data to
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function sendPacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : Sf.Network.IpAddress.sfIpAddress;
remotePort : sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Receive a formatted packet of data from a remote peer with a UDP socket
--/
--/ In blocking mode, this function will wait until the whole packet
--/ has been received.
--/
--/ @param packet Packet to fill with the received data
--/ @param remoteAddress Address of the peer that sent the data
--/ @param remotePort Port of the peer that sent the data
--/
--/ @return Status code
--/
--//////////////////////////////////////////////////////////
function receivePacket
(socket : sfUdpSocket_Ptr;
packet : sfPacket_Ptr;
remoteAddress : access Sf.Network.IpAddress.sfIpAddress;
remotePort : access sfUint16) return Sf.Network.SocketStatus.sfSocketStatus;
--//////////////////////////////////////////////////////////
--/ @brief Return the maximum number of bytes that can be
--/ sent in a single UDP datagram
--/
--/ @return The maximum size of a UDP datagram (message)
--/
--//////////////////////////////////////////////////////////
function maxDatagramSize return sfUint32;
private
pragma Import (C, create, "sfUdpSocket_create");
pragma Import (C, destroy, "sfUdpSocket_destroy");
pragma Import (C, setBlocking, "sfUdpSocket_setBlocking");
pragma Import (C, isBlocking, "sfUdpSocket_isBlocking");
pragma Import (C, getLocalPort, "sfUdpSocket_getLocalPort");
pragma Import (C, bind, "sfUdpSocket_bind");
pragma Import (C, unbind, "sfUdpSocket_unbind");
pragma Import (C, send, "sfUdpSocket_send");
pragma Import (C, receive, "sfUdpSocket_receive");
pragma Import (C, sendPacket, "sfUdpSocket_sendPacket");
pragma Import (C, receivePacket, "sfUdpSocket_receivePacket");
pragma Import (C, maxDatagramSize, "sfUdpSocket_maxDatagramSize");
end Sf.Network.UdpSocket;
|
[
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- Al",
"end": 824,
"score": 0.9998884201049805,
"start": 811,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 844,
"score": 0.9999321103096008,
"start": 826,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/amf/mof/amf-elements.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.CMOF.Classes;
with AMF.CMOF.Properties;
limited with AMF.Extents;
with League.Holders;
package AMF.Elements is
pragma Preelaborate;
type Abstract_Element is limited interface;
type Element_Access is access all Abstract_Element'Class;
----------------------
-- MOF Operations --
----------------------
not overriding function Get_Meta_Class
(Self : not null access constant Abstract_Element)
return AMF.CMOF.Classes.CMOF_Class_Access is abstract;
-- Returns the Class that describes this element.
not overriding function Container
(Self : not null access constant Abstract_Element)
return AMF.Elements.Element_Access is abstract;
-- Returns the parent container of this element if any. Return null if
-- there is no containing element.
not overriding function Get
(Self : not null access constant Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access)
return League.Holders.Holder is abstract;
-- Gets the value of the given property. If the Property has multiplicity
-- upper bound of 1, get() returns the value of the Property. If Property
-- has multiplicity upper bound >1, get() returns a ReflectiveCollection
-- containing the values of the Property. If there are no values, the
-- ReflectiveCollection returned is empty.
--
-- Exception: throws IllegalArgumentException if Property is not a member
-- of the Class from class().
not overriding procedure Set
(Self : not null access Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access;
Value : League.Holders.Holder) is abstract;
-- If the Property has multiplicity upper bound = 1, set() atomically
-- updates the value of the Property to the object parameter. If Property
-- has multiplicity upper bound >1, the Object must be a kind of
-- ReflectiveCollection. The behavior is identical to the following
-- operations performed atomically:
--
-- ReflectiveSequence list = element.get(property);
-- list.clear();
-- list.addAll((ReflectiveCollection) object);
--
-- There is no return value. Exception: throws IllegalArgumentException if
-- Property is not a member of the Class from getMetaClass().
--
-- Exception: throws ClassCastException if the Property’s type
-- isInstance(element) returns false and Property has multi-plicity upper
-- bound = 1.
--
-- Exception: throws ClassCastException if Element is not a
-- ReflectiveCollection and Property has multiplicity upper bound > 1.
--
-- Exception: throws IllegalArgumentException if element is null, Property
-- is of type Class, and the multiplicity upper bound > 1.
----------------------
-- AMF Extensions --
----------------------
not overriding function Extent
(Self : not null access constant Abstract_Element)
return AMF.Extents.Extent_Access is abstract;
-- Returns extents which contains element.
end AMF.Elements;
| 25523 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.CMOF.Classes;
with AMF.CMOF.Properties;
limited with AMF.Extents;
with League.Holders;
package AMF.Elements is
pragma Preelaborate;
type Abstract_Element is limited interface;
type Element_Access is access all Abstract_Element'Class;
----------------------
-- MOF Operations --
----------------------
not overriding function Get_Meta_Class
(Self : not null access constant Abstract_Element)
return AMF.CMOF.Classes.CMOF_Class_Access is abstract;
-- Returns the Class that describes this element.
not overriding function Container
(Self : not null access constant Abstract_Element)
return AMF.Elements.Element_Access is abstract;
-- Returns the parent container of this element if any. Return null if
-- there is no containing element.
not overriding function Get
(Self : not null access constant Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access)
return League.Holders.Holder is abstract;
-- Gets the value of the given property. If the Property has multiplicity
-- upper bound of 1, get() returns the value of the Property. If Property
-- has multiplicity upper bound >1, get() returns a ReflectiveCollection
-- containing the values of the Property. If there are no values, the
-- ReflectiveCollection returned is empty.
--
-- Exception: throws IllegalArgumentException if Property is not a member
-- of the Class from class().
not overriding procedure Set
(Self : not null access Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access;
Value : League.Holders.Holder) is abstract;
-- If the Property has multiplicity upper bound = 1, set() atomically
-- updates the value of the Property to the object parameter. If Property
-- has multiplicity upper bound >1, the Object must be a kind of
-- ReflectiveCollection. The behavior is identical to the following
-- operations performed atomically:
--
-- ReflectiveSequence list = element.get(property);
-- list.clear();
-- list.addAll((ReflectiveCollection) object);
--
-- There is no return value. Exception: throws IllegalArgumentException if
-- Property is not a member of the Class from getMetaClass().
--
-- Exception: throws ClassCastException if the Property’s type
-- isInstance(element) returns false and Property has multi-plicity upper
-- bound = 1.
--
-- Exception: throws ClassCastException if Element is not a
-- ReflectiveCollection and Property has multiplicity upper bound > 1.
--
-- Exception: throws IllegalArgumentException if element is null, Property
-- is of type Class, and the multiplicity upper bound > 1.
----------------------
-- AMF Extensions --
----------------------
not overriding function Extent
(Self : not null access constant Abstract_Element)
return AMF.Extents.Extent_Access is abstract;
-- Returns extents which contains element.
end AMF.Elements;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.CMOF.Classes;
with AMF.CMOF.Properties;
limited with AMF.Extents;
with League.Holders;
package AMF.Elements is
pragma Preelaborate;
type Abstract_Element is limited interface;
type Element_Access is access all Abstract_Element'Class;
----------------------
-- MOF Operations --
----------------------
not overriding function Get_Meta_Class
(Self : not null access constant Abstract_Element)
return AMF.CMOF.Classes.CMOF_Class_Access is abstract;
-- Returns the Class that describes this element.
not overriding function Container
(Self : not null access constant Abstract_Element)
return AMF.Elements.Element_Access is abstract;
-- Returns the parent container of this element if any. Return null if
-- there is no containing element.
not overriding function Get
(Self : not null access constant Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access)
return League.Holders.Holder is abstract;
-- Gets the value of the given property. If the Property has multiplicity
-- upper bound of 1, get() returns the value of the Property. If Property
-- has multiplicity upper bound >1, get() returns a ReflectiveCollection
-- containing the values of the Property. If there are no values, the
-- ReflectiveCollection returned is empty.
--
-- Exception: throws IllegalArgumentException if Property is not a member
-- of the Class from class().
not overriding procedure Set
(Self : not null access Abstract_Element;
Property : not null AMF.CMOF.Properties.CMOF_Property_Access;
Value : League.Holders.Holder) is abstract;
-- If the Property has multiplicity upper bound = 1, set() atomically
-- updates the value of the Property to the object parameter. If Property
-- has multiplicity upper bound >1, the Object must be a kind of
-- ReflectiveCollection. The behavior is identical to the following
-- operations performed atomically:
--
-- ReflectiveSequence list = element.get(property);
-- list.clear();
-- list.addAll((ReflectiveCollection) object);
--
-- There is no return value. Exception: throws IllegalArgumentException if
-- Property is not a member of the Class from getMetaClass().
--
-- Exception: throws ClassCastException if the Property’s type
-- isInstance(element) returns false and Property has multi-plicity upper
-- bound = 1.
--
-- Exception: throws ClassCastException if Element is not a
-- ReflectiveCollection and Property has multiplicity upper bound > 1.
--
-- Exception: throws IllegalArgumentException if element is null, Property
-- is of type Class, and the multiplicity upper bound > 1.
----------------------
-- AMF Extensions --
----------------------
not overriding function Extent
(Self : not null access constant Abstract_Element)
return AMF.Extents.Extent_Access is abstract;
-- Returns extents which contains element.
end AMF.Elements;
|
[
{
"context": ".Datasets -- Datasets\n-- Copyright (C) 2013, 2018 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 160,
"score": 0.9998763203620911,
"start": 145,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "ight (C) 2013, 2018 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 191,
"score": 0.9998822212219238,
"start": 176,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "8 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 218,
"score": 0.9999254941940308,
"start": 193,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | src/base/beans/util-beans-objects-datasets.ads | RREE/ada-util | 60 | -----------------------------------------------------------------------
-- Util.Beans.Objects.Datasets -- Datasets
-- Copyright (C) 2013, 2018 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Hash;
with Ada.Finalization;
with Ada.Containers.Indefinite_Hashed_Maps;
with Util.Beans.Basic;
-- == Datasets ==
-- The `Datasets` package implements the `Dataset` list bean which
-- defines a set of objects organized in rows and columns. The `Dataset`
-- implements the `List_Bean` interface and allows to iterate over its rows.
-- Each row defines a `Bean` instance and allows to access each column value.
-- Each column is associated with a unique name. The row `Bean` allows to
-- get or set the column by using the column name.
package Util.Beans.Objects.Datasets is
Invalid_State : exception;
-- An array of objects.
type Object_Array is array (Positive range <>) of Object;
type Dataset is new Util.Beans.Basic.List_Bean with private;
-- Get the number of elements in the list.
overriding
function Get_Count (From : in Dataset) return Natural;
-- Set the current row index. Valid row indexes start at 1.
overriding
procedure Set_Row_Index (From : in out Dataset;
Index : in Natural);
-- Get the element at the current row index.
overriding
function Get_Row (From : in Dataset) return Util.Beans.Objects.Object;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Dataset;
Name : in String) return Util.Beans.Objects.Object;
-- Append a row in the dataset and call the fill procedure to populate
-- the row content.
procedure Append (Into : in out Dataset;
Fill : not null access procedure (Data : in out Object_Array));
-- Add a column to the dataset. If the position is not specified,
-- the column count is incremented and the name associated with the last column.
-- Raises Invalid_State exception if the dataset contains some rows,
procedure Add_Column (Into : in out Dataset;
Name : in String;
Pos : in Natural := 0);
-- Clear the content of the dataset.
procedure Clear (Set : in out Dataset);
private
type Object_Array_Access is access all Object_Array;
type Dataset_Array is array (Positive range <>) of Object_Array_Access;
type Dataset_Array_Access is access all Dataset_Array;
package Dataset_Map is
new Ada.Containers.Indefinite_Hashed_Maps (Key_Type => String,
Element_Type => Positive,
Hash => Ada.Strings.Hash,
Equivalent_Keys => "=",
"=" => "=");
type Row is new Util.Beans.Basic.Bean with record
Data : Object_Array_Access;
Map : access Dataset_Map.Map;
end record;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Row;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
-- If the name cannot be found, the method should raise the No_Value
-- exception.
overriding
procedure Set_Value (From : in out Row;
Name : in String;
Value : in Util.Beans.Objects.Object);
type Dataset is new Ada.Finalization.Controlled and Util.Beans.Basic.List_Bean with record
Data : Dataset_Array_Access;
Count : Natural := 0;
Columns : Natural := 0;
Map : aliased Dataset_Map.Map;
Current : aliased Row;
Current_Pos : Natural := 0;
Row : Util.Beans.Objects.Object;
end record;
-- Initialize the dataset and the row bean instance.
overriding
procedure Initialize (Set : in out Dataset);
-- Release the dataset storage.
overriding
procedure Finalize (Set : in out Dataset);
end Util.Beans.Objects.Datasets;
| 27400 | -----------------------------------------------------------------------
-- Util.Beans.Objects.Datasets -- Datasets
-- Copyright (C) 2013, 2018 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Hash;
with Ada.Finalization;
with Ada.Containers.Indefinite_Hashed_Maps;
with Util.Beans.Basic;
-- == Datasets ==
-- The `Datasets` package implements the `Dataset` list bean which
-- defines a set of objects organized in rows and columns. The `Dataset`
-- implements the `List_Bean` interface and allows to iterate over its rows.
-- Each row defines a `Bean` instance and allows to access each column value.
-- Each column is associated with a unique name. The row `Bean` allows to
-- get or set the column by using the column name.
package Util.Beans.Objects.Datasets is
Invalid_State : exception;
-- An array of objects.
type Object_Array is array (Positive range <>) of Object;
type Dataset is new Util.Beans.Basic.List_Bean with private;
-- Get the number of elements in the list.
overriding
function Get_Count (From : in Dataset) return Natural;
-- Set the current row index. Valid row indexes start at 1.
overriding
procedure Set_Row_Index (From : in out Dataset;
Index : in Natural);
-- Get the element at the current row index.
overriding
function Get_Row (From : in Dataset) return Util.Beans.Objects.Object;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Dataset;
Name : in String) return Util.Beans.Objects.Object;
-- Append a row in the dataset and call the fill procedure to populate
-- the row content.
procedure Append (Into : in out Dataset;
Fill : not null access procedure (Data : in out Object_Array));
-- Add a column to the dataset. If the position is not specified,
-- the column count is incremented and the name associated with the last column.
-- Raises Invalid_State exception if the dataset contains some rows,
procedure Add_Column (Into : in out Dataset;
Name : in String;
Pos : in Natural := 0);
-- Clear the content of the dataset.
procedure Clear (Set : in out Dataset);
private
type Object_Array_Access is access all Object_Array;
type Dataset_Array is array (Positive range <>) of Object_Array_Access;
type Dataset_Array_Access is access all Dataset_Array;
package Dataset_Map is
new Ada.Containers.Indefinite_Hashed_Maps (Key_Type => String,
Element_Type => Positive,
Hash => Ada.Strings.Hash,
Equivalent_Keys => "=",
"=" => "=");
type Row is new Util.Beans.Basic.Bean with record
Data : Object_Array_Access;
Map : access Dataset_Map.Map;
end record;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Row;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
-- If the name cannot be found, the method should raise the No_Value
-- exception.
overriding
procedure Set_Value (From : in out Row;
Name : in String;
Value : in Util.Beans.Objects.Object);
type Dataset is new Ada.Finalization.Controlled and Util.Beans.Basic.List_Bean with record
Data : Dataset_Array_Access;
Count : Natural := 0;
Columns : Natural := 0;
Map : aliased Dataset_Map.Map;
Current : aliased Row;
Current_Pos : Natural := 0;
Row : Util.Beans.Objects.Object;
end record;
-- Initialize the dataset and the row bean instance.
overriding
procedure Initialize (Set : in out Dataset);
-- Release the dataset storage.
overriding
procedure Finalize (Set : in out Dataset);
end Util.Beans.Objects.Datasets;
| true | -----------------------------------------------------------------------
-- Util.Beans.Objects.Datasets -- Datasets
-- Copyright (C) 2013, 2018 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Hash;
with Ada.Finalization;
with Ada.Containers.Indefinite_Hashed_Maps;
with Util.Beans.Basic;
-- == Datasets ==
-- The `Datasets` package implements the `Dataset` list bean which
-- defines a set of objects organized in rows and columns. The `Dataset`
-- implements the `List_Bean` interface and allows to iterate over its rows.
-- Each row defines a `Bean` instance and allows to access each column value.
-- Each column is associated with a unique name. The row `Bean` allows to
-- get or set the column by using the column name.
package Util.Beans.Objects.Datasets is
Invalid_State : exception;
-- An array of objects.
type Object_Array is array (Positive range <>) of Object;
type Dataset is new Util.Beans.Basic.List_Bean with private;
-- Get the number of elements in the list.
overriding
function Get_Count (From : in Dataset) return Natural;
-- Set the current row index. Valid row indexes start at 1.
overriding
procedure Set_Row_Index (From : in out Dataset;
Index : in Natural);
-- Get the element at the current row index.
overriding
function Get_Row (From : in Dataset) return Util.Beans.Objects.Object;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Dataset;
Name : in String) return Util.Beans.Objects.Object;
-- Append a row in the dataset and call the fill procedure to populate
-- the row content.
procedure Append (Into : in out Dataset;
Fill : not null access procedure (Data : in out Object_Array));
-- Add a column to the dataset. If the position is not specified,
-- the column count is incremented and the name associated with the last column.
-- Raises Invalid_State exception if the dataset contains some rows,
procedure Add_Column (Into : in out Dataset;
Name : in String;
Pos : in Natural := 0);
-- Clear the content of the dataset.
procedure Clear (Set : in out Dataset);
private
type Object_Array_Access is access all Object_Array;
type Dataset_Array is array (Positive range <>) of Object_Array_Access;
type Dataset_Array_Access is access all Dataset_Array;
package Dataset_Map is
new Ada.Containers.Indefinite_Hashed_Maps (Key_Type => String,
Element_Type => Positive,
Hash => Ada.Strings.Hash,
Equivalent_Keys => "=",
"=" => "=");
type Row is new Util.Beans.Basic.Bean with record
Data : Object_Array_Access;
Map : access Dataset_Map.Map;
end record;
-- Get the value identified by the name.
-- If the name cannot be found, the method should return the Null object.
overriding
function Get_Value (From : in Row;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
-- If the name cannot be found, the method should raise the No_Value
-- exception.
overriding
procedure Set_Value (From : in out Row;
Name : in String;
Value : in Util.Beans.Objects.Object);
type Dataset is new Ada.Finalization.Controlled and Util.Beans.Basic.List_Bean with record
Data : Dataset_Array_Access;
Count : Natural := 0;
Columns : Natural := 0;
Map : aliased Dataset_Map.Map;
Current : aliased Row;
Current_Pos : Natural := 0;
Row : Util.Beans.Objects.Object;
end record;
-- Initialize the dataset and the row bean instance.
overriding
procedure Initialize (Set : in out Dataset);
-- Release the dataset storage.
overriding
procedure Finalize (Set : in out Dataset);
end Util.Beans.Objects.Datasets;
|
[
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.999886691570282,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999321699142456,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/sql/sql-databases.ads | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
pragma Ada_2012;
private with Ada.Finalization;
with League.Strings;
private with Matreshka.Internals.SQL_Drivers.Dummy;
with SQL.Options;
with SQL.Queries;
package SQL.Databases is
type SQL_Database is tagged limited private;
function Create
(Driver : League.Strings.Universal_String;
Options : SQL.Options.SQL_Options) return SQL_Database;
procedure Open (Self : in out SQL_Database'Class);
function Open (Self : in out SQL_Database'Class) return Boolean;
procedure Close (Self : in out SQL_Database'Class);
-- Closes the database connection, freeing any resources acquired, and
-- invalidating any existing QSqlQuery objects that are used with the
-- database.
procedure Commit (Self : in out SQL_Database'Class);
procedure Rollback (Self : in out SQL_Database'Class);
procedure Transaction (Self : in out SQL_Database'Class);
function Error_Message
(Self : SQL_Database'Class) return League.Strings.Universal_String;
function Query
(Self : in out SQL_Database'Class) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database.
function Query
(Self : in out SQL_Database'Class;
Query : League.Strings.Universal_String) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database and prepare specified statement for execution.
private
type SQL_Database is new Ada.Finalization.Limited_Controlled with record
Data : Matreshka.Internals.SQL_Drivers.Database_Access
:= Matreshka.Internals.SQL_Drivers.Dummy.Empty_Database'Access;
Options : SQL.Options.SQL_Options;
end record;
-- overriding procedure Adjust (Self : in out SQL_Database);
-- Increments reference counter of shared object.
overriding procedure Finalize (Self : in out SQL_Database);
-- Decrements reference counter of shared object.
end SQL.Databases;
| 13347 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
pragma Ada_2012;
private with Ada.Finalization;
with League.Strings;
private with Matreshka.Internals.SQL_Drivers.Dummy;
with SQL.Options;
with SQL.Queries;
package SQL.Databases is
type SQL_Database is tagged limited private;
function Create
(Driver : League.Strings.Universal_String;
Options : SQL.Options.SQL_Options) return SQL_Database;
procedure Open (Self : in out SQL_Database'Class);
function Open (Self : in out SQL_Database'Class) return Boolean;
procedure Close (Self : in out SQL_Database'Class);
-- Closes the database connection, freeing any resources acquired, and
-- invalidating any existing QSqlQuery objects that are used with the
-- database.
procedure Commit (Self : in out SQL_Database'Class);
procedure Rollback (Self : in out SQL_Database'Class);
procedure Transaction (Self : in out SQL_Database'Class);
function Error_Message
(Self : SQL_Database'Class) return League.Strings.Universal_String;
function Query
(Self : in out SQL_Database'Class) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database.
function Query
(Self : in out SQL_Database'Class;
Query : League.Strings.Universal_String) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database and prepare specified statement for execution.
private
type SQL_Database is new Ada.Finalization.Limited_Controlled with record
Data : Matreshka.Internals.SQL_Drivers.Database_Access
:= Matreshka.Internals.SQL_Drivers.Dummy.Empty_Database'Access;
Options : SQL.Options.SQL_Options;
end record;
-- overriding procedure Adjust (Self : in out SQL_Database);
-- Increments reference counter of shared object.
overriding procedure Finalize (Self : in out SQL_Database);
-- Decrements reference counter of shared object.
end SQL.Databases;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
pragma Ada_2012;
private with Ada.Finalization;
with League.Strings;
private with Matreshka.Internals.SQL_Drivers.Dummy;
with SQL.Options;
with SQL.Queries;
package SQL.Databases is
type SQL_Database is tagged limited private;
function Create
(Driver : League.Strings.Universal_String;
Options : SQL.Options.SQL_Options) return SQL_Database;
procedure Open (Self : in out SQL_Database'Class);
function Open (Self : in out SQL_Database'Class) return Boolean;
procedure Close (Self : in out SQL_Database'Class);
-- Closes the database connection, freeing any resources acquired, and
-- invalidating any existing QSqlQuery objects that are used with the
-- database.
procedure Commit (Self : in out SQL_Database'Class);
procedure Rollback (Self : in out SQL_Database'Class);
procedure Transaction (Self : in out SQL_Database'Class);
function Error_Message
(Self : SQL_Database'Class) return League.Strings.Universal_String;
function Query
(Self : in out SQL_Database'Class) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database.
function Query
(Self : in out SQL_Database'Class;
Query : League.Strings.Universal_String) return SQL.Queries.SQL_Query;
-- Creates SQL_Query object to execute statements in the specified
-- database and prepare specified statement for execution.
private
type SQL_Database is new Ada.Finalization.Limited_Controlled with record
Data : Matreshka.Internals.SQL_Drivers.Database_Access
:= Matreshka.Internals.SQL_Drivers.Dummy.Empty_Database'Access;
Options : SQL.Options.SQL_Options;
end record;
-- overriding procedure Adjust (Self : in out SQL_Database);
-- Increments reference counter of shared object.
overriding procedure Finalize (Self : in out SQL_Database);
-- Decrements reference counter of shared object.
end SQL.Databases;
|
[
{
"context": "bj);\n -- GStreamer\n -- * Copyright (C) 1999,2000 Erik Walthinsen <omega@cse.ogi.edu>\n -- * 200",
"end": 2108,
"score": 0.9998776912689209,
"start": 2093,
"tag": "NAME",
"value": "Erik Walthinsen"
},
{
"context": "r\n -- * Copyright (C) 1999,2000 Erik Walthinsen <omega@cse.ogi.edu>\n -- * 2000 Wim Taymans <wim.",
"end": 2127,
"score": 0.9999338984489441,
"start": 2110,
"tag": "EMAIL",
"value": "omega@cse.ogi.edu"
},
{
"context": "<omega@cse.ogi.edu>\n -- * 2000 Wim Taymans <wim.taymans@chello.be>\n -- * ",
"end": 2171,
"score": 0.9998736381530762,
"start": 2160,
"tag": "NAME",
"value": "Wim Taymans"
},
{
"context": ".edu>\n -- * 2000 Wim Taymans <wim.taymans@chello.be>\n -- * 2005 Andy Wingo <wingo",
"end": 2194,
"score": 0.9999349117279053,
"start": 2173,
"tag": "EMAIL",
"value": "wim.taymans@chello.be"
},
{
"context": ".taymans@chello.be>\n -- * 2005 Andy Wingo <wingo@pobox.com>\n -- *\n -- * gstghostpad.h: Pr",
"end": 2237,
"score": 0.9998790621757507,
"start": 2227,
"tag": "NAME",
"value": "Andy Wingo"
},
{
"context": "lo.be>\n -- * 2005 Andy Wingo <wingo@pobox.com>\n -- *\n -- * gstghostpad.h: Proxy pads\n -- *\n ",
"end": 2254,
"score": 0.9999333024024963,
"start": 2239,
"tag": "EMAIL",
"value": "wingo@pobox.com"
}
] | src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_gstghostpad_h.ads | persan/A-gst | 1 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h;
with System;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h is
-- unsupported macro: GST_TYPE_PROXY_PAD (gst_proxy_pad_get_type ())
-- arg-macro: function GST_IS_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_IS_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_PROXY_PAD, GstProxyPad);
-- arg-macro: function GST_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_PROXY_PAD, GstProxyPadClass);
-- unsupported macro: GST_TYPE_GHOST_PAD (gst_ghost_pad_get_type ())
-- arg-macro: function GST_IS_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_IS_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_GHOST_PAD, GstGhostPad);
-- arg-macro: function GST_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_GHOST_PAD, GstGhostPadClass);
-- arg-macro: function GST_GHOST_PAD_CAST (obj)
-- return (GstGhostPad*)(obj);
-- GStreamer
-- * Copyright (C) 1999,2000 Erik Walthinsen <omega@cse.ogi.edu>
-- * 2000 Wim Taymans <wim.taymans@chello.be>
-- * 2005 Andy Wingo <wingo@pobox.com>
-- *
-- * gstghostpad.h: Proxy pads
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
type GstProxyPad;
--subtype GstProxyPad is u_GstProxyPad; -- gst/gstghostpad.h:40
-- skipped empty struct u_GstProxyPadPrivate
-- skipped empty struct GstProxyPadPrivate
type GstProxyPadClass;
type u_GstProxyPadClass_u_gst_reserved_array is array (0 .. 0) of System.Address;
--subtype GstProxyPadClass is u_GstProxyPadClass; -- gst/gstghostpad.h:42
type GstProxyPad is record
pad : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:46
priv : System.Address; -- gst/gstghostpad.h:49
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPad); -- gst/gstghostpad.h:44
--< private >
type GstProxyPadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadClass; -- gst/gstghostpad.h:54
u_gst_reserved : u_GstProxyPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:57
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPadClass); -- gst/gstghostpad.h:52
--< private >
function gst_proxy_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:60
pragma Import (C, gst_proxy_pad_get_type, "gst_proxy_pad_get_type");
function gst_proxy_pad_get_internal (pad : access GstProxyPad) return access GstProxyPad; -- gst/gstghostpad.h:62
pragma Import (C, gst_proxy_pad_get_internal, "gst_proxy_pad_get_internal");
function gst_proxy_pad_query_type_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQueryType; -- gst/gstghostpad.h:65
pragma Import (C, gst_proxy_pad_query_type_default, "gst_proxy_pad_query_type_default");
function gst_proxy_pad_event_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; event : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/gstghostpad.h:66
pragma Import (C, gst_proxy_pad_event_default, "gst_proxy_pad_event_default");
function gst_proxy_pad_query_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; query : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/gstghostpad.h:67
pragma Import (C, gst_proxy_pad_query_default, "gst_proxy_pad_query_default");
function gst_proxy_pad_iterate_internal_links_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h.GstIterator; -- gst/gstghostpad.h:68
pragma Import (C, gst_proxy_pad_iterate_internal_links_default, "gst_proxy_pad_iterate_internal_links_default");
function gst_proxy_pad_bufferalloc_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
buf : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:69
pragma Import (C, gst_proxy_pad_bufferalloc_default, "gst_proxy_pad_bufferalloc_default");
function gst_proxy_pad_chain_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; buffer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:70
pragma Import (C, gst_proxy_pad_chain_default, "gst_proxy_pad_chain_default");
function gst_proxy_pad_chain_list_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:71
pragma Import (C, gst_proxy_pad_chain_list_default, "gst_proxy_pad_chain_list_default");
function gst_proxy_pad_getrange_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
buffer : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:72
pragma Import (C, gst_proxy_pad_getrange_default, "gst_proxy_pad_getrange_default");
function gst_proxy_pad_checkgetrange_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:73
pragma Import (C, gst_proxy_pad_checkgetrange_default, "gst_proxy_pad_checkgetrange_default");
function gst_proxy_pad_getcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/gstghostpad.h:74
pragma Import (C, gst_proxy_pad_getcaps_default, "gst_proxy_pad_getcaps_default");
function gst_proxy_pad_acceptcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:75
pragma Import (C, gst_proxy_pad_acceptcaps_default, "gst_proxy_pad_acceptcaps_default");
procedure gst_proxy_pad_fixatecaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/gstghostpad.h:76
pragma Import (C, gst_proxy_pad_fixatecaps_default, "gst_proxy_pad_fixatecaps_default");
function gst_proxy_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:77
pragma Import (C, gst_proxy_pad_setcaps_default, "gst_proxy_pad_setcaps_default");
procedure gst_proxy_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:78
pragma Import (C, gst_proxy_pad_unlink_default, "gst_proxy_pad_unlink_default");
--*
-- * GstGhostPad:
-- *
-- * Opaque #GstGhostPad structure.
--
type GstGhostPad;
--subtype GstGhostPad is u_GstGhostPad; -- gst/gstghostpad.h:92
-- skipped empty struct u_GstGhostPadPrivate
-- skipped empty struct GstGhostPadPrivate
type GstGhostPadClass;
type u_GstGhostPadClass_u_gst_reserved_array is array (0 .. 3) of System.Address;
--subtype GstGhostPadClass is u_GstGhostPadClass; -- gst/gstghostpad.h:94
type GstGhostPad is record
pad : aliased GstProxyPad; -- gst/gstghostpad.h:98
priv : System.Address; -- gst/gstghostpad.h:101
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPad); -- gst/gstghostpad.h:96
--< private >
type GstGhostPadClass is record
parent_class : aliased GstProxyPadClass; -- gst/gstghostpad.h:106
u_gst_reserved : u_GstGhostPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:109
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPadClass); -- gst/gstghostpad.h:104
--< private >
function gst_ghost_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:113
pragma Import (C, gst_ghost_pad_get_type, "gst_ghost_pad_get_type");
function gst_ghost_pad_new (name : access GLIB.gchar; target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:115
pragma Import (C, gst_ghost_pad_new, "gst_ghost_pad_new");
function gst_ghost_pad_new_no_target (name : access GLIB.gchar; dir : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:116
pragma Import (C, gst_ghost_pad_new_no_target, "gst_ghost_pad_new_no_target");
function gst_ghost_pad_new_from_template
(name : access GLIB.gchar;
target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:118
pragma Import (C, gst_ghost_pad_new_from_template, "gst_ghost_pad_new_from_template");
function gst_ghost_pad_new_no_target_from_template (name : access GLIB.gchar; templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:119
pragma Import (C, gst_ghost_pad_new_no_target_from_template, "gst_ghost_pad_new_no_target_from_template");
function gst_ghost_pad_get_target (gpad : access GstGhostPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:121
pragma Import (C, gst_ghost_pad_get_target, "gst_ghost_pad_get_target");
function gst_ghost_pad_set_target (gpad : access GstGhostPad; newtarget : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:122
pragma Import (C, gst_ghost_pad_set_target, "gst_ghost_pad_set_target");
function gst_ghost_pad_construct (gpad : access GstGhostPad) return GLIB.gboolean; -- gst/gstghostpad.h:124
pragma Import (C, gst_ghost_pad_construct, "gst_ghost_pad_construct");
function gst_ghost_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:126
pragma Import (C, gst_ghost_pad_setcaps_default, "gst_ghost_pad_setcaps_default");
procedure gst_ghost_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:127
pragma Import (C, gst_ghost_pad_unlink_default, "gst_ghost_pad_unlink_default");
function gst_ghost_pad_link_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; peer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadLinkReturn; -- gst/gstghostpad.h:128
pragma Import (C, gst_ghost_pad_link_default, "gst_ghost_pad_link_default");
function gst_ghost_pad_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:129
pragma Import (C, gst_ghost_pad_activate_pull_default, "gst_ghost_pad_activate_pull_default");
function gst_ghost_pad_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:130
pragma Import (C, gst_ghost_pad_activate_push_default, "gst_ghost_pad_activate_push_default");
function gst_ghost_pad_internal_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:132
pragma Import (C, gst_ghost_pad_internal_activate_push_default, "gst_ghost_pad_internal_activate_push_default");
function gst_ghost_pad_internal_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:133
pragma Import (C, gst_ghost_pad_internal_activate_pull_default, "gst_ghost_pad_internal_activate_pull_default");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h;
| 20635 | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h;
with System;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h is
-- unsupported macro: GST_TYPE_PROXY_PAD (gst_proxy_pad_get_type ())
-- arg-macro: function GST_IS_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_IS_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_PROXY_PAD, GstProxyPad);
-- arg-macro: function GST_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_PROXY_PAD, GstProxyPadClass);
-- unsupported macro: GST_TYPE_GHOST_PAD (gst_ghost_pad_get_type ())
-- arg-macro: function GST_IS_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_IS_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_GHOST_PAD, GstGhostPad);
-- arg-macro: function GST_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_GHOST_PAD, GstGhostPadClass);
-- arg-macro: function GST_GHOST_PAD_CAST (obj)
-- return (GstGhostPad*)(obj);
-- GStreamer
-- * Copyright (C) 1999,2000 <NAME> <<EMAIL>>
-- * 2000 <NAME> <<EMAIL>>
-- * 2005 <NAME> <<EMAIL>>
-- *
-- * gstghostpad.h: Proxy pads
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
type GstProxyPad;
--subtype GstProxyPad is u_GstProxyPad; -- gst/gstghostpad.h:40
-- skipped empty struct u_GstProxyPadPrivate
-- skipped empty struct GstProxyPadPrivate
type GstProxyPadClass;
type u_GstProxyPadClass_u_gst_reserved_array is array (0 .. 0) of System.Address;
--subtype GstProxyPadClass is u_GstProxyPadClass; -- gst/gstghostpad.h:42
type GstProxyPad is record
pad : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:46
priv : System.Address; -- gst/gstghostpad.h:49
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPad); -- gst/gstghostpad.h:44
--< private >
type GstProxyPadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadClass; -- gst/gstghostpad.h:54
u_gst_reserved : u_GstProxyPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:57
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPadClass); -- gst/gstghostpad.h:52
--< private >
function gst_proxy_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:60
pragma Import (C, gst_proxy_pad_get_type, "gst_proxy_pad_get_type");
function gst_proxy_pad_get_internal (pad : access GstProxyPad) return access GstProxyPad; -- gst/gstghostpad.h:62
pragma Import (C, gst_proxy_pad_get_internal, "gst_proxy_pad_get_internal");
function gst_proxy_pad_query_type_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQueryType; -- gst/gstghostpad.h:65
pragma Import (C, gst_proxy_pad_query_type_default, "gst_proxy_pad_query_type_default");
function gst_proxy_pad_event_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; event : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/gstghostpad.h:66
pragma Import (C, gst_proxy_pad_event_default, "gst_proxy_pad_event_default");
function gst_proxy_pad_query_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; query : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/gstghostpad.h:67
pragma Import (C, gst_proxy_pad_query_default, "gst_proxy_pad_query_default");
function gst_proxy_pad_iterate_internal_links_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h.GstIterator; -- gst/gstghostpad.h:68
pragma Import (C, gst_proxy_pad_iterate_internal_links_default, "gst_proxy_pad_iterate_internal_links_default");
function gst_proxy_pad_bufferalloc_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
buf : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:69
pragma Import (C, gst_proxy_pad_bufferalloc_default, "gst_proxy_pad_bufferalloc_default");
function gst_proxy_pad_chain_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; buffer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:70
pragma Import (C, gst_proxy_pad_chain_default, "gst_proxy_pad_chain_default");
function gst_proxy_pad_chain_list_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:71
pragma Import (C, gst_proxy_pad_chain_list_default, "gst_proxy_pad_chain_list_default");
function gst_proxy_pad_getrange_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
buffer : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:72
pragma Import (C, gst_proxy_pad_getrange_default, "gst_proxy_pad_getrange_default");
function gst_proxy_pad_checkgetrange_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:73
pragma Import (C, gst_proxy_pad_checkgetrange_default, "gst_proxy_pad_checkgetrange_default");
function gst_proxy_pad_getcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/gstghostpad.h:74
pragma Import (C, gst_proxy_pad_getcaps_default, "gst_proxy_pad_getcaps_default");
function gst_proxy_pad_acceptcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:75
pragma Import (C, gst_proxy_pad_acceptcaps_default, "gst_proxy_pad_acceptcaps_default");
procedure gst_proxy_pad_fixatecaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/gstghostpad.h:76
pragma Import (C, gst_proxy_pad_fixatecaps_default, "gst_proxy_pad_fixatecaps_default");
function gst_proxy_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:77
pragma Import (C, gst_proxy_pad_setcaps_default, "gst_proxy_pad_setcaps_default");
procedure gst_proxy_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:78
pragma Import (C, gst_proxy_pad_unlink_default, "gst_proxy_pad_unlink_default");
--*
-- * GstGhostPad:
-- *
-- * Opaque #GstGhostPad structure.
--
type GstGhostPad;
--subtype GstGhostPad is u_GstGhostPad; -- gst/gstghostpad.h:92
-- skipped empty struct u_GstGhostPadPrivate
-- skipped empty struct GstGhostPadPrivate
type GstGhostPadClass;
type u_GstGhostPadClass_u_gst_reserved_array is array (0 .. 3) of System.Address;
--subtype GstGhostPadClass is u_GstGhostPadClass; -- gst/gstghostpad.h:94
type GstGhostPad is record
pad : aliased GstProxyPad; -- gst/gstghostpad.h:98
priv : System.Address; -- gst/gstghostpad.h:101
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPad); -- gst/gstghostpad.h:96
--< private >
type GstGhostPadClass is record
parent_class : aliased GstProxyPadClass; -- gst/gstghostpad.h:106
u_gst_reserved : u_GstGhostPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:109
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPadClass); -- gst/gstghostpad.h:104
--< private >
function gst_ghost_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:113
pragma Import (C, gst_ghost_pad_get_type, "gst_ghost_pad_get_type");
function gst_ghost_pad_new (name : access GLIB.gchar; target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:115
pragma Import (C, gst_ghost_pad_new, "gst_ghost_pad_new");
function gst_ghost_pad_new_no_target (name : access GLIB.gchar; dir : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:116
pragma Import (C, gst_ghost_pad_new_no_target, "gst_ghost_pad_new_no_target");
function gst_ghost_pad_new_from_template
(name : access GLIB.gchar;
target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:118
pragma Import (C, gst_ghost_pad_new_from_template, "gst_ghost_pad_new_from_template");
function gst_ghost_pad_new_no_target_from_template (name : access GLIB.gchar; templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:119
pragma Import (C, gst_ghost_pad_new_no_target_from_template, "gst_ghost_pad_new_no_target_from_template");
function gst_ghost_pad_get_target (gpad : access GstGhostPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:121
pragma Import (C, gst_ghost_pad_get_target, "gst_ghost_pad_get_target");
function gst_ghost_pad_set_target (gpad : access GstGhostPad; newtarget : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:122
pragma Import (C, gst_ghost_pad_set_target, "gst_ghost_pad_set_target");
function gst_ghost_pad_construct (gpad : access GstGhostPad) return GLIB.gboolean; -- gst/gstghostpad.h:124
pragma Import (C, gst_ghost_pad_construct, "gst_ghost_pad_construct");
function gst_ghost_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:126
pragma Import (C, gst_ghost_pad_setcaps_default, "gst_ghost_pad_setcaps_default");
procedure gst_ghost_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:127
pragma Import (C, gst_ghost_pad_unlink_default, "gst_ghost_pad_unlink_default");
function gst_ghost_pad_link_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; peer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadLinkReturn; -- gst/gstghostpad.h:128
pragma Import (C, gst_ghost_pad_link_default, "gst_ghost_pad_link_default");
function gst_ghost_pad_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:129
pragma Import (C, gst_ghost_pad_activate_pull_default, "gst_ghost_pad_activate_pull_default");
function gst_ghost_pad_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:130
pragma Import (C, gst_ghost_pad_activate_push_default, "gst_ghost_pad_activate_push_default");
function gst_ghost_pad_internal_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:132
pragma Import (C, gst_ghost_pad_internal_activate_push_default, "gst_ghost_pad_internal_activate_push_default");
function gst_ghost_pad_internal_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:133
pragma Import (C, gst_ghost_pad_internal_activate_pull_default, "gst_ghost_pad_internal_activate_pull_default");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h;
| true | pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h;
with System;
with glib;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h;
with GLIB; -- with GStreamer.GST_Low_Level.glibconfig_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h is
-- unsupported macro: GST_TYPE_PROXY_PAD (gst_proxy_pad_get_type ())
-- arg-macro: function GST_IS_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_IS_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_PROXY_PAD);
-- arg-macro: function GST_PROXY_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_PROXY_PAD, GstProxyPad);
-- arg-macro: function GST_PROXY_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_PROXY_PAD, GstProxyPadClass);
-- unsupported macro: GST_TYPE_GHOST_PAD (gst_ghost_pad_get_type ())
-- arg-macro: function GST_IS_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_IS_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_GHOST_PAD);
-- arg-macro: function GST_GHOST_PAD (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_GHOST_PAD, GstGhostPad);
-- arg-macro: function GST_GHOST_PAD_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_GHOST_PAD, GstGhostPadClass);
-- arg-macro: function GST_GHOST_PAD_CAST (obj)
-- return (GstGhostPad*)(obj);
-- GStreamer
-- * Copyright (C) 1999,2000 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- * 2000 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- * 2005 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
-- *
-- * gstghostpad.h: Proxy pads
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
type GstProxyPad;
--subtype GstProxyPad is u_GstProxyPad; -- gst/gstghostpad.h:40
-- skipped empty struct u_GstProxyPadPrivate
-- skipped empty struct GstProxyPadPrivate
type GstProxyPadClass;
type u_GstProxyPadClass_u_gst_reserved_array is array (0 .. 0) of System.Address;
--subtype GstProxyPadClass is u_GstProxyPadClass; -- gst/gstghostpad.h:42
type GstProxyPad is record
pad : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:46
priv : System.Address; -- gst/gstghostpad.h:49
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPad); -- gst/gstghostpad.h:44
--< private >
type GstProxyPadClass is record
parent_class : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadClass; -- gst/gstghostpad.h:54
u_gst_reserved : u_GstProxyPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:57
end record;
pragma Convention (C_Pass_By_Copy, GstProxyPadClass); -- gst/gstghostpad.h:52
--< private >
function gst_proxy_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:60
pragma Import (C, gst_proxy_pad_get_type, "gst_proxy_pad_get_type");
function gst_proxy_pad_get_internal (pad : access GstProxyPad) return access GstProxyPad; -- gst/gstghostpad.h:62
pragma Import (C, gst_proxy_pad_get_internal, "gst_proxy_pad_get_internal");
function gst_proxy_pad_query_type_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQueryType; -- gst/gstghostpad.h:65
pragma Import (C, gst_proxy_pad_query_type_default, "gst_proxy_pad_query_type_default");
function gst_proxy_pad_event_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; event : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstevent_h.GstEvent) return GLIB.gboolean; -- gst/gstghostpad.h:66
pragma Import (C, gst_proxy_pad_event_default, "gst_proxy_pad_event_default");
function gst_proxy_pad_query_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; query : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstquery_h.GstQuery) return GLIB.gboolean; -- gst/gstghostpad.h:67
pragma Import (C, gst_proxy_pad_query_default, "gst_proxy_pad_query_default");
function gst_proxy_pad_iterate_internal_links_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstiterator_h.GstIterator; -- gst/gstghostpad.h:68
pragma Import (C, gst_proxy_pad_iterate_internal_links_default, "gst_proxy_pad_iterate_internal_links_default");
function gst_proxy_pad_bufferalloc_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps;
buf : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:69
pragma Import (C, gst_proxy_pad_bufferalloc_default, "gst_proxy_pad_bufferalloc_default");
function gst_proxy_pad_chain_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; buffer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:70
pragma Import (C, gst_proxy_pad_chain_default, "gst_proxy_pad_chain_default");
function gst_proxy_pad_chain_list_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; list : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:71
pragma Import (C, gst_proxy_pad_chain_list_default, "gst_proxy_pad_chain_list_default");
function gst_proxy_pad_getrange_default
(pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
offset : GLIB.guint64;
size : GLIB.guint;
buffer : System.Address) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstFlowReturn; -- gst/gstghostpad.h:72
pragma Import (C, gst_proxy_pad_getrange_default, "gst_proxy_pad_getrange_default");
function gst_proxy_pad_checkgetrange_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:73
pragma Import (C, gst_proxy_pad_checkgetrange_default, "gst_proxy_pad_checkgetrange_default");
function gst_proxy_pad_getcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/gstghostpad.h:74
pragma Import (C, gst_proxy_pad_getcaps_default, "gst_proxy_pad_getcaps_default");
function gst_proxy_pad_acceptcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:75
pragma Import (C, gst_proxy_pad_acceptcaps_default, "gst_proxy_pad_acceptcaps_default");
procedure gst_proxy_pad_fixatecaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/gstghostpad.h:76
pragma Import (C, gst_proxy_pad_fixatecaps_default, "gst_proxy_pad_fixatecaps_default");
function gst_proxy_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:77
pragma Import (C, gst_proxy_pad_setcaps_default, "gst_proxy_pad_setcaps_default");
procedure gst_proxy_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:78
pragma Import (C, gst_proxy_pad_unlink_default, "gst_proxy_pad_unlink_default");
--*
-- * GstGhostPad:
-- *
-- * Opaque #GstGhostPad structure.
--
type GstGhostPad;
--subtype GstGhostPad is u_GstGhostPad; -- gst/gstghostpad.h:92
-- skipped empty struct u_GstGhostPadPrivate
-- skipped empty struct GstGhostPadPrivate
type GstGhostPadClass;
type u_GstGhostPadClass_u_gst_reserved_array is array (0 .. 3) of System.Address;
--subtype GstGhostPadClass is u_GstGhostPadClass; -- gst/gstghostpad.h:94
type GstGhostPad is record
pad : aliased GstProxyPad; -- gst/gstghostpad.h:98
priv : System.Address; -- gst/gstghostpad.h:101
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPad); -- gst/gstghostpad.h:96
--< private >
type GstGhostPadClass is record
parent_class : aliased GstProxyPadClass; -- gst/gstghostpad.h:106
u_gst_reserved : u_GstGhostPadClass_u_gst_reserved_array; -- gst/gstghostpad.h:109
end record;
pragma Convention (C_Pass_By_Copy, GstGhostPadClass); -- gst/gstghostpad.h:104
--< private >
function gst_ghost_pad_get_type return GLIB.GType; -- gst/gstghostpad.h:113
pragma Import (C, gst_ghost_pad_get_type, "gst_ghost_pad_get_type");
function gst_ghost_pad_new (name : access GLIB.gchar; target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:115
pragma Import (C, gst_ghost_pad_new, "gst_ghost_pad_new");
function gst_ghost_pad_new_no_target (name : access GLIB.gchar; dir : GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadDirection) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:116
pragma Import (C, gst_ghost_pad_new_no_target, "gst_ghost_pad_new_no_target");
function gst_ghost_pad_new_from_template
(name : access GLIB.gchar;
target : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad;
templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:118
pragma Import (C, gst_ghost_pad_new_from_template, "gst_ghost_pad_new_from_template");
function gst_ghost_pad_new_no_target_from_template (name : access GLIB.gchar; templ : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpadtemplate_h.GstPadTemplate) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:119
pragma Import (C, gst_ghost_pad_new_no_target_from_template, "gst_ghost_pad_new_no_target_from_template");
function gst_ghost_pad_get_target (gpad : access GstGhostPad) return access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; -- gst/gstghostpad.h:121
pragma Import (C, gst_ghost_pad_get_target, "gst_ghost_pad_get_target");
function gst_ghost_pad_set_target (gpad : access GstGhostPad; newtarget : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GLIB.gboolean; -- gst/gstghostpad.h:122
pragma Import (C, gst_ghost_pad_set_target, "gst_ghost_pad_set_target");
function gst_ghost_pad_construct (gpad : access GstGhostPad) return GLIB.gboolean; -- gst/gstghostpad.h:124
pragma Import (C, gst_ghost_pad_construct, "gst_ghost_pad_construct");
function gst_ghost_pad_setcaps_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/gstghostpad.h:126
pragma Import (C, gst_ghost_pad_setcaps_default, "gst_ghost_pad_setcaps_default");
procedure gst_ghost_pad_unlink_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad); -- gst/gstghostpad.h:127
pragma Import (C, gst_ghost_pad_unlink_default, "gst_ghost_pad_unlink_default");
function gst_ghost_pad_link_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; peer : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad) return GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPadLinkReturn; -- gst/gstghostpad.h:128
pragma Import (C, gst_ghost_pad_link_default, "gst_ghost_pad_link_default");
function gst_ghost_pad_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:129
pragma Import (C, gst_ghost_pad_activate_pull_default, "gst_ghost_pad_activate_pull_default");
function gst_ghost_pad_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:130
pragma Import (C, gst_ghost_pad_activate_push_default, "gst_ghost_pad_activate_push_default");
function gst_ghost_pad_internal_activate_push_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:132
pragma Import (C, gst_ghost_pad_internal_activate_push_default, "gst_ghost_pad_internal_activate_push_default");
function gst_ghost_pad_internal_activate_pull_default (pad : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstpad_h.GstPad; active : GLIB.gboolean) return GLIB.gboolean; -- gst/gstghostpad.h:133
pragma Import (C, gst_ghost_pad_internal_activate_pull_default, "gst_ghost_pad_internal_activate_pull_default");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstghostpad_h;
|
[
{
"context": "--------------------------\n-- Copyright (c) 2019, Daniel King\n-- All rights reserved.\n--\n-- Redistribution an",
"end": 115,
"score": 0.9997885227203369,
"start": 104,
"tag": "NAME",
"value": "Daniel King"
}
] | src/common/keccak-generic_parallel_cshake.adb | damaki/libkeccak | 26 | -------------------------------------------------------------------------------
-- Copyright (c) 2019, Daniel King
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Util; use Keccak.Util;
package body Keccak.Generic_Parallel_CSHAKE
is
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
with Global => null,
Pre => (Block_Offset < Block'Length
and Block'First = 0
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating),
Post => (Block_Offset < Block'Length
and State_Of (Ctx) = Updating);
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
is
use type XOF.States;
Block_Length : constant Natural := Block'Length - Block_Offset;
Input_Remaining : Natural := Input'Length;
Input_Offset : Natural := 0;
Length : Natural;
Num_Full_Blocks : Natural;
Pos : Types.Index_Number;
begin
if Block_Offset > 0 then
-- Merge first bytes of Input with the last bytes currently in
-- the block.
if Input_Remaining < Block_Length then
-- Not enough for a full block.
Block (Block_Offset .. Block_Offset + Input_Remaining - 1) :=
Input (Input'First .. Input'First + Input_Remaining - 1);
Input_Offset := Input'Length;
Block_Offset := Block_Offset + Input_Remaining;
Input_Remaining := 0;
else
-- We have enough for a full block
Block (Block_Offset .. Block'Last) :=
Input (Input'First .. Input'First + Block_Length - 1);
XOF.Update_All (Ctx.XOF_Ctx, Block);
Input_Offset := Input_Offset + Block_Length;
Input_Remaining := Input_Remaining - Block_Length;
Block_Offset := 0;
end if;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and XOF.State_Of (Ctx.XOF_Ctx) = XOF.Updating
and (if Input_Remaining > 0 then Block_Offset = 0));
-- Now process as many full blocks from Input as we can.
Num_Full_Blocks := Input_Remaining / Block'Length;
if Num_Full_Blocks > 0 then
Pos := Input'First + Input_Offset;
Length := Num_Full_Blocks * Block'Length;
XOF.Update_All (Ctx.XOF_Ctx, Input (Pos .. Pos + Length - 1));
Input_Offset := Input_Offset + Length;
Input_Remaining := Input_Remaining - Length;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and (if Input_Remaining > 0 then Block_Offset = 0)
and Input_Remaining < Block'Length);
-- Store any leftover bytes in the block
if Input_Remaining > 0 then
Pos := Input'First + Input_Offset;
Block (0 .. Input_Remaining - 1) := Input (Pos .. Input'Last);
Block_Offset := Input_Remaining;
end if;
end Process_Full_Blocks;
------------
-- Init --
------------
procedure Init (Ctx : out Context;
Customization : in String;
Function_Name : in String)
is
Rate_Bytes : constant Positive := Rate / 8;
Block : Types.Byte_Array (0 .. Rate_Bytes - 1) := (others => 0);
Block_Offset : Natural;
begin
XOF.Init (Ctx.XOF_Ctx);
-- We need to make sure that the data length for each call to
-- XOF.Update_Separate is a multiple of the rate in order to keep the XOF
-- in the "Updating" state. This requires packing the encoded
-- rate, customization string, and function name into a block which is
-- the length of the rate.
--
-- +------+---------------+---------------+
-- | rate | Function_Name | Customization |
-- +------+---------------+---------------+
-- |<-------------->|
-- Rate
Block_Offset := 0;
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST (Rate_Bytes),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Function_Name'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Function_Name),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Customization'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Customization),
Block_Offset => Block_Offset);
if Block_Offset > 0 then
-- Need to add padding zeroes to leftover data
Block (Block_Offset .. Block'Last) := (others => 0);
XOF.Update_All (Ctx.XOF_Ctx, Block);
end if;
end Init;
-----------------------
-- Update_Separate --
-----------------------
procedure Update_Separate (Ctx : in out Context;
Data : in Types.Byte_Array)
is
begin
XOF.Update_Separate (Ctx.XOF_Ctx, Data);
end Update_Separate;
-----------------------
-- Extract_Separate --
-----------------------
procedure Extract_Separate (Ctx : in out Context;
Data : out Types.Byte_Array)
is
begin
XOF.Extract_Separate (Ctx.XOF_Ctx, Data);
end Extract_Separate;
end Keccak.Generic_Parallel_CSHAKE;
| 4230 | -------------------------------------------------------------------------------
-- Copyright (c) 2019, <NAME>
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Util; use Keccak.Util;
package body Keccak.Generic_Parallel_CSHAKE
is
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
with Global => null,
Pre => (Block_Offset < Block'Length
and Block'First = 0
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating),
Post => (Block_Offset < Block'Length
and State_Of (Ctx) = Updating);
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
is
use type XOF.States;
Block_Length : constant Natural := Block'Length - Block_Offset;
Input_Remaining : Natural := Input'Length;
Input_Offset : Natural := 0;
Length : Natural;
Num_Full_Blocks : Natural;
Pos : Types.Index_Number;
begin
if Block_Offset > 0 then
-- Merge first bytes of Input with the last bytes currently in
-- the block.
if Input_Remaining < Block_Length then
-- Not enough for a full block.
Block (Block_Offset .. Block_Offset + Input_Remaining - 1) :=
Input (Input'First .. Input'First + Input_Remaining - 1);
Input_Offset := Input'Length;
Block_Offset := Block_Offset + Input_Remaining;
Input_Remaining := 0;
else
-- We have enough for a full block
Block (Block_Offset .. Block'Last) :=
Input (Input'First .. Input'First + Block_Length - 1);
XOF.Update_All (Ctx.XOF_Ctx, Block);
Input_Offset := Input_Offset + Block_Length;
Input_Remaining := Input_Remaining - Block_Length;
Block_Offset := 0;
end if;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and XOF.State_Of (Ctx.XOF_Ctx) = XOF.Updating
and (if Input_Remaining > 0 then Block_Offset = 0));
-- Now process as many full blocks from Input as we can.
Num_Full_Blocks := Input_Remaining / Block'Length;
if Num_Full_Blocks > 0 then
Pos := Input'First + Input_Offset;
Length := Num_Full_Blocks * Block'Length;
XOF.Update_All (Ctx.XOF_Ctx, Input (Pos .. Pos + Length - 1));
Input_Offset := Input_Offset + Length;
Input_Remaining := Input_Remaining - Length;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and (if Input_Remaining > 0 then Block_Offset = 0)
and Input_Remaining < Block'Length);
-- Store any leftover bytes in the block
if Input_Remaining > 0 then
Pos := Input'First + Input_Offset;
Block (0 .. Input_Remaining - 1) := Input (Pos .. Input'Last);
Block_Offset := Input_Remaining;
end if;
end Process_Full_Blocks;
------------
-- Init --
------------
procedure Init (Ctx : out Context;
Customization : in String;
Function_Name : in String)
is
Rate_Bytes : constant Positive := Rate / 8;
Block : Types.Byte_Array (0 .. Rate_Bytes - 1) := (others => 0);
Block_Offset : Natural;
begin
XOF.Init (Ctx.XOF_Ctx);
-- We need to make sure that the data length for each call to
-- XOF.Update_Separate is a multiple of the rate in order to keep the XOF
-- in the "Updating" state. This requires packing the encoded
-- rate, customization string, and function name into a block which is
-- the length of the rate.
--
-- +------+---------------+---------------+
-- | rate | Function_Name | Customization |
-- +------+---------------+---------------+
-- |<-------------->|
-- Rate
Block_Offset := 0;
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST (Rate_Bytes),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Function_Name'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Function_Name),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Customization'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Customization),
Block_Offset => Block_Offset);
if Block_Offset > 0 then
-- Need to add padding zeroes to leftover data
Block (Block_Offset .. Block'Last) := (others => 0);
XOF.Update_All (Ctx.XOF_Ctx, Block);
end if;
end Init;
-----------------------
-- Update_Separate --
-----------------------
procedure Update_Separate (Ctx : in out Context;
Data : in Types.Byte_Array)
is
begin
XOF.Update_Separate (Ctx.XOF_Ctx, Data);
end Update_Separate;
-----------------------
-- Extract_Separate --
-----------------------
procedure Extract_Separate (Ctx : in out Context;
Data : out Types.Byte_Array)
is
begin
XOF.Extract_Separate (Ctx.XOF_Ctx, Data);
end Extract_Separate;
end Keccak.Generic_Parallel_CSHAKE;
| true | -------------------------------------------------------------------------------
-- Copyright (c) 2019, PI:NAME:<NAME>END_PI
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
-- * The name of the copyright holder may not be used to endorse or promote
-- Products derived from this software without specific prior written
-- permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
-- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
-- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
-- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
-- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-------------------------------------------------------------------------------
with Keccak.Util; use Keccak.Util;
package body Keccak.Generic_Parallel_CSHAKE
is
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
with Global => null,
Pre => (Block_Offset < Block'Length
and Block'First = 0
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating),
Post => (Block_Offset < Block'Length
and State_Of (Ctx) = Updating);
---------------------------
-- Process_Full_Blocks --
---------------------------
procedure Process_Full_Blocks
(Ctx : in out Context;
Block : in out Types.Byte_Array;
Input : in Types.Byte_Array;
Block_Offset : in out Natural)
is
use type XOF.States;
Block_Length : constant Natural := Block'Length - Block_Offset;
Input_Remaining : Natural := Input'Length;
Input_Offset : Natural := 0;
Length : Natural;
Num_Full_Blocks : Natural;
Pos : Types.Index_Number;
begin
if Block_Offset > 0 then
-- Merge first bytes of Input with the last bytes currently in
-- the block.
if Input_Remaining < Block_Length then
-- Not enough for a full block.
Block (Block_Offset .. Block_Offset + Input_Remaining - 1) :=
Input (Input'First .. Input'First + Input_Remaining - 1);
Input_Offset := Input'Length;
Block_Offset := Block_Offset + Input_Remaining;
Input_Remaining := 0;
else
-- We have enough for a full block
Block (Block_Offset .. Block'Last) :=
Input (Input'First .. Input'First + Block_Length - 1);
XOF.Update_All (Ctx.XOF_Ctx, Block);
Input_Offset := Input_Offset + Block_Length;
Input_Remaining := Input_Remaining - Block_Length;
Block_Offset := 0;
end if;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and XOF.State_Of (Ctx.XOF_Ctx) = XOF.Updating
and (if Input_Remaining > 0 then Block_Offset = 0));
-- Now process as many full blocks from Input as we can.
Num_Full_Blocks := Input_Remaining / Block'Length;
if Num_Full_Blocks > 0 then
Pos := Input'First + Input_Offset;
Length := Num_Full_Blocks * Block'Length;
XOF.Update_All (Ctx.XOF_Ctx, Input (Pos .. Pos + Length - 1));
Input_Offset := Input_Offset + Length;
Input_Remaining := Input_Remaining - Length;
end if;
pragma Assert_And_Cut
(Input_Offset + Input_Remaining = Input'Length
and Block_Offset < Block'Length
and Block'Length = Rate / 8
and State_Of (Ctx) = Updating
and (if Input_Remaining > 0 then Block_Offset = 0)
and Input_Remaining < Block'Length);
-- Store any leftover bytes in the block
if Input_Remaining > 0 then
Pos := Input'First + Input_Offset;
Block (0 .. Input_Remaining - 1) := Input (Pos .. Input'Last);
Block_Offset := Input_Remaining;
end if;
end Process_Full_Blocks;
------------
-- Init --
------------
procedure Init (Ctx : out Context;
Customization : in String;
Function_Name : in String)
is
Rate_Bytes : constant Positive := Rate / 8;
Block : Types.Byte_Array (0 .. Rate_Bytes - 1) := (others => 0);
Block_Offset : Natural;
begin
XOF.Init (Ctx.XOF_Ctx);
-- We need to make sure that the data length for each call to
-- XOF.Update_Separate is a multiple of the rate in order to keep the XOF
-- in the "Updating" state. This requires packing the encoded
-- rate, customization string, and function name into a block which is
-- the length of the rate.
--
-- +------+---------------+---------------+
-- | rate | Function_Name | Customization |
-- +------+---------------+---------------+
-- |<-------------->|
-- Rate
Block_Offset := 0;
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST (Rate_Bytes),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Function_Name'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Function_Name),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => Left_Encode_NIST_Bit_Length (Customization'Length),
Block_Offset => Block_Offset);
Process_Full_Blocks
(Ctx => Ctx,
Block => Block,
Input => To_Byte_Array (Customization),
Block_Offset => Block_Offset);
if Block_Offset > 0 then
-- Need to add padding zeroes to leftover data
Block (Block_Offset .. Block'Last) := (others => 0);
XOF.Update_All (Ctx.XOF_Ctx, Block);
end if;
end Init;
-----------------------
-- Update_Separate --
-----------------------
procedure Update_Separate (Ctx : in out Context;
Data : in Types.Byte_Array)
is
begin
XOF.Update_Separate (Ctx.XOF_Ctx, Data);
end Update_Separate;
-----------------------
-- Extract_Separate --
-----------------------
procedure Extract_Separate (Ctx : in out Context;
Data : out Types.Byte_Array)
is
begin
XOF.Extract_Separate (Ctx.XOF_Ctx, Data);
end Extract_Separate;
end Keccak.Generic_Parallel_CSHAKE;
|
[
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998562932014465,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999315738677979,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/slim-messages-vers.ads | reznikmm/slimp | 0 | -- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Slim.Messages.vers is
type Vers_Message is new Message with private;
not overriding procedure Set_Version
(Self : in out Vers_Message;
Value : League.Strings.Universal_String);
private
subtype Byte is Ada.Streams.Stream_Element;
type Vers_Message is new Message with record
Version : League.Strings.Universal_String;
end record;
overriding function Read
(Data : not null access
League.Stream_Element_Vectors.Stream_Element_Vector)
return Vers_Message;
overriding procedure Write
(Self : Vers_Message;
Tag : out Message_Tag;
Data : out League.Stream_Element_Vectors.Stream_Element_Vector);
overriding procedure Visit
(Self : not null access Vers_Message;
Visiter : in out Slim.Message_Visiters.Visiter'Class);
end Slim.Messages.vers;
| 27775 | -- Copyright (c) 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Slim.Messages.vers is
type Vers_Message is new Message with private;
not overriding procedure Set_Version
(Self : in out Vers_Message;
Value : League.Strings.Universal_String);
private
subtype Byte is Ada.Streams.Stream_Element;
type Vers_Message is new Message with record
Version : League.Strings.Universal_String;
end record;
overriding function Read
(Data : not null access
League.Stream_Element_Vectors.Stream_Element_Vector)
return Vers_Message;
overriding procedure Write
(Self : Vers_Message;
Tag : out Message_Tag;
Data : out League.Stream_Element_Vectors.Stream_Element_Vector);
overriding procedure Visit
(Self : not null access Vers_Message;
Visiter : in out Slim.Message_Visiters.Visiter'Class);
end Slim.Messages.vers;
| true | -- Copyright (c) 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
with League.Strings;
package Slim.Messages.vers is
type Vers_Message is new Message with private;
not overriding procedure Set_Version
(Self : in out Vers_Message;
Value : League.Strings.Universal_String);
private
subtype Byte is Ada.Streams.Stream_Element;
type Vers_Message is new Message with record
Version : League.Strings.Universal_String;
end record;
overriding function Read
(Data : not null access
League.Stream_Element_Vectors.Stream_Element_Vector)
return Vers_Message;
overriding procedure Write
(Self : Vers_Message;
Tag : out Message_Tag;
Data : out League.Stream_Element_Vectors.Stream_Element_Vector);
overriding procedure Visit
(Self : not null access Vers_Message;
Visiter : in out Slim.Message_Visiters.Visiter'Class);
end Slim.Messages.vers;
|
[
{
"context": "-------------------------------------\n-- Copyright Miletus 2015\n-- Permission is hereby granted, free of cha",
"end": 243,
"score": 0.9966737627983093,
"start": 236,
"tag": "NAME",
"value": "Miletus"
}
] | Milesian_calendar.ads | Louis-Aime/Milesian_calendar_Ada | 0 | -- Package Milesian_calendar
-- Definitions and basic operation on the Milesian calendar
-- with respect to Julian Day defined in Julian package.
----------------------------------------------------------------------------
-- Copyright Miletus 2015
-- Permission is hereby granted, free of charge, to any person obtaining
-- a copy of this software and associated documentation files (the
-- "Software"), to deal in the Software without restriction, including
-- without limitation the rights to use, copy, modify, merge, publish,
-- distribute, sublicense, and/or sell copies of the Software, and to
-- permit persons to whom the Software is furnished to do so, subject to
-- the following conditions:
-- 1. The above copyright notice and this permission notice shall be included
-- in all copies or substantial portions of the Software.
-- 2. Changes with respect to any former version shall be documented.
--
-- The software is provided "as is", without warranty of any kind,
-- express of implied, including but not limited to the warranties of
-- merchantability, fitness for a particular purpose and noninfringement.
-- In no event shall the authors of copyright holders be liable for any
-- claim, damages or other liability, whether in an action of contract,
-- tort or otherwise, arising from, out of or in connection with the software
-- or the use or other dealings in the software.
-- Inquiries: www.calendriermilesien.org
-------------------------------------------------------------------------------
with Scaliger; use Scaliger;
-- Defines Julian_Day and General date (i.e. Day 1..31, Month 1..12, Year).
package Milesian_calendar is
Type Milesian_date is new General_date;
-- the function names are similar to names of conversion functions in php
function JD_to_Milesian (jd : Julian_Day) return Milesian_date ;
-- given an integer Julian day, compute the corresponding Milesian date
function Milesian_to_JD (md : Milesian_date) return Julian_Day ;
-- given a date in Milesian, compute the Julian day
end Milesian_calendar;
| 17835 | -- Package Milesian_calendar
-- Definitions and basic operation on the Milesian calendar
-- with respect to Julian Day defined in Julian package.
----------------------------------------------------------------------------
-- Copyright <NAME> 2015
-- Permission is hereby granted, free of charge, to any person obtaining
-- a copy of this software and associated documentation files (the
-- "Software"), to deal in the Software without restriction, including
-- without limitation the rights to use, copy, modify, merge, publish,
-- distribute, sublicense, and/or sell copies of the Software, and to
-- permit persons to whom the Software is furnished to do so, subject to
-- the following conditions:
-- 1. The above copyright notice and this permission notice shall be included
-- in all copies or substantial portions of the Software.
-- 2. Changes with respect to any former version shall be documented.
--
-- The software is provided "as is", without warranty of any kind,
-- express of implied, including but not limited to the warranties of
-- merchantability, fitness for a particular purpose and noninfringement.
-- In no event shall the authors of copyright holders be liable for any
-- claim, damages or other liability, whether in an action of contract,
-- tort or otherwise, arising from, out of or in connection with the software
-- or the use or other dealings in the software.
-- Inquiries: www.calendriermilesien.org
-------------------------------------------------------------------------------
with Scaliger; use Scaliger;
-- Defines Julian_Day and General date (i.e. Day 1..31, Month 1..12, Year).
package Milesian_calendar is
Type Milesian_date is new General_date;
-- the function names are similar to names of conversion functions in php
function JD_to_Milesian (jd : Julian_Day) return Milesian_date ;
-- given an integer Julian day, compute the corresponding Milesian date
function Milesian_to_JD (md : Milesian_date) return Julian_Day ;
-- given a date in Milesian, compute the Julian day
end Milesian_calendar;
| true | -- Package Milesian_calendar
-- Definitions and basic operation on the Milesian calendar
-- with respect to Julian Day defined in Julian package.
----------------------------------------------------------------------------
-- Copyright PI:NAME:<NAME>END_PI 2015
-- Permission is hereby granted, free of charge, to any person obtaining
-- a copy of this software and associated documentation files (the
-- "Software"), to deal in the Software without restriction, including
-- without limitation the rights to use, copy, modify, merge, publish,
-- distribute, sublicense, and/or sell copies of the Software, and to
-- permit persons to whom the Software is furnished to do so, subject to
-- the following conditions:
-- 1. The above copyright notice and this permission notice shall be included
-- in all copies or substantial portions of the Software.
-- 2. Changes with respect to any former version shall be documented.
--
-- The software is provided "as is", without warranty of any kind,
-- express of implied, including but not limited to the warranties of
-- merchantability, fitness for a particular purpose and noninfringement.
-- In no event shall the authors of copyright holders be liable for any
-- claim, damages or other liability, whether in an action of contract,
-- tort or otherwise, arising from, out of or in connection with the software
-- or the use or other dealings in the software.
-- Inquiries: www.calendriermilesien.org
-------------------------------------------------------------------------------
with Scaliger; use Scaliger;
-- Defines Julian_Day and General date (i.e. Day 1..31, Month 1..12, Year).
package Milesian_calendar is
Type Milesian_date is new General_date;
-- the function names are similar to names of conversion functions in php
function JD_to_Milesian (jd : Julian_Day) return Milesian_date ;
-- given an integer Julian day, compute the corresponding Milesian date
function Milesian_to_JD (md : Milesian_date) return Julian_Day ;
-- given a date in Milesian, compute the Julian day
end Milesian_calendar;
|
[
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 43,
"score": 0.9998573660850525,
"start": 33,
"tag": "NAME",
"value": "Max Reznik"
},
{
"context": "-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n------------",
"end": 63,
"score": 0.9999300241470337,
"start": 45,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/nodes/program-nodes-membership_tests.adb | reznikmm/gela | 0 | -- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Membership_Tests is
function Create
(Expression : not null Program.Elements.Expressions.Expression_Access;
Not_Token : Program.Lexical_Elements.Lexical_Element_Access;
In_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
Choices : not null Program.Element_Vectors.Element_Vector_Access)
return Membership_Test is
begin
return Result : Membership_Test :=
(Expression => Expression, Not_Token => Not_Token,
In_Token => In_Token, Choices => Choices, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Expression : not null Program.Elements.Expressions
.Expression_Access;
Choices : not null Program.Element_Vectors
.Element_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False;
Has_Not : Boolean := False)
return Implicit_Membership_Test is
begin
return Result : Implicit_Membership_Test :=
(Expression => Expression, Choices => Choices,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Has_Not => Has_Not,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Expression
(Self : Base_Membership_Test)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Expression;
end Expression;
overriding function Choices
(Self : Base_Membership_Test)
return not null Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Choices;
end Choices;
overriding function Not_Token
(Self : Membership_Test)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Not_Token;
end Not_Token;
overriding function In_Token
(Self : Membership_Test)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.In_Token;
end In_Token;
overriding function Has_Not (Self : Membership_Test) return Boolean is
begin
return Self.Not_Token.Assigned;
end Has_Not;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
overriding function Has_Not
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Has_Not;
end Has_Not;
procedure Initialize (Self : in out Base_Membership_Test'Class) is
begin
Set_Enclosing_Element (Self.Expression, Self'Unchecked_Access);
for Item in Self.Choices.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Membership_Test
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Membership_Test;
overriding function Is_Expression
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Expression;
overriding procedure Visit
(Self : not null access Base_Membership_Test;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Membership_Test (Self);
end Visit;
overriding function To_Membership_Test_Text
(Self : in out Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
begin
return Self'Unchecked_Access;
end To_Membership_Test_Text;
overriding function To_Membership_Test_Text
(Self : in out Implicit_Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Membership_Test_Text;
end Program.Nodes.Membership_Tests;
| 14679 | -- SPDX-FileCopyrightText: 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Membership_Tests is
function Create
(Expression : not null Program.Elements.Expressions.Expression_Access;
Not_Token : Program.Lexical_Elements.Lexical_Element_Access;
In_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
Choices : not null Program.Element_Vectors.Element_Vector_Access)
return Membership_Test is
begin
return Result : Membership_Test :=
(Expression => Expression, Not_Token => Not_Token,
In_Token => In_Token, Choices => Choices, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Expression : not null Program.Elements.Expressions
.Expression_Access;
Choices : not null Program.Element_Vectors
.Element_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False;
Has_Not : Boolean := False)
return Implicit_Membership_Test is
begin
return Result : Implicit_Membership_Test :=
(Expression => Expression, Choices => Choices,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Has_Not => Has_Not,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Expression
(Self : Base_Membership_Test)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Expression;
end Expression;
overriding function Choices
(Self : Base_Membership_Test)
return not null Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Choices;
end Choices;
overriding function Not_Token
(Self : Membership_Test)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Not_Token;
end Not_Token;
overriding function In_Token
(Self : Membership_Test)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.In_Token;
end In_Token;
overriding function Has_Not (Self : Membership_Test) return Boolean is
begin
return Self.Not_Token.Assigned;
end Has_Not;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
overriding function Has_Not
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Has_Not;
end Has_Not;
procedure Initialize (Self : in out Base_Membership_Test'Class) is
begin
Set_Enclosing_Element (Self.Expression, Self'Unchecked_Access);
for Item in Self.Choices.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Membership_Test
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Membership_Test;
overriding function Is_Expression
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Expression;
overriding procedure Visit
(Self : not null access Base_Membership_Test;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Membership_Test (Self);
end Visit;
overriding function To_Membership_Test_Text
(Self : in out Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
begin
return Self'Unchecked_Access;
end To_Membership_Test_Text;
overriding function To_Membership_Test_Text
(Self : in out Implicit_Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Membership_Test_Text;
end Program.Nodes.Membership_Tests;
| true | -- SPDX-FileCopyrightText: 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Membership_Tests is
function Create
(Expression : not null Program.Elements.Expressions.Expression_Access;
Not_Token : Program.Lexical_Elements.Lexical_Element_Access;
In_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
Choices : not null Program.Element_Vectors.Element_Vector_Access)
return Membership_Test is
begin
return Result : Membership_Test :=
(Expression => Expression, Not_Token => Not_Token,
In_Token => In_Token, Choices => Choices, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Expression : not null Program.Elements.Expressions
.Expression_Access;
Choices : not null Program.Element_Vectors
.Element_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False;
Has_Not : Boolean := False)
return Implicit_Membership_Test is
begin
return Result : Implicit_Membership_Test :=
(Expression => Expression, Choices => Choices,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Has_Not => Has_Not,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Expression
(Self : Base_Membership_Test)
return not null Program.Elements.Expressions.Expression_Access is
begin
return Self.Expression;
end Expression;
overriding function Choices
(Self : Base_Membership_Test)
return not null Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Choices;
end Choices;
overriding function Not_Token
(Self : Membership_Test)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Not_Token;
end Not_Token;
overriding function In_Token
(Self : Membership_Test)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.In_Token;
end In_Token;
overriding function Has_Not (Self : Membership_Test) return Boolean is
begin
return Self.Not_Token.Assigned;
end Has_Not;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
overriding function Has_Not
(Self : Implicit_Membership_Test)
return Boolean is
begin
return Self.Has_Not;
end Has_Not;
procedure Initialize (Self : in out Base_Membership_Test'Class) is
begin
Set_Enclosing_Element (Self.Expression, Self'Unchecked_Access);
for Item in Self.Choices.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Membership_Test
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Membership_Test;
overriding function Is_Expression
(Self : Base_Membership_Test)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Expression;
overriding procedure Visit
(Self : not null access Base_Membership_Test;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Membership_Test (Self);
end Visit;
overriding function To_Membership_Test_Text
(Self : in out Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
begin
return Self'Unchecked_Access;
end To_Membership_Test_Text;
overriding function To_Membership_Test_Text
(Self : in out Implicit_Membership_Test)
return Program.Elements.Membership_Tests.Membership_Test_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Membership_Test_Text;
end Program.Nodes.Membership_Tests;
|
[
{
"context": "--\n-- Copyright (C) 2021 Jeremy Grosser <jeremy@synack.me>\n--\n-- SPDX-License-Identifier",
"end": 40,
"score": 0.9998400807380676,
"start": 26,
"tag": "NAME",
"value": "Jeremy Grosser"
},
{
"context": "--\n-- Copyright (C) 2021 Jeremy Grosser <jeremy@synack.me>\n--\n-- SPDX-License-Identifier: BSD-3-Clause\n--\n",
"end": 58,
"score": 0.9999332427978516,
"start": 42,
"tag": "EMAIL",
"value": "jeremy@synack.me"
}
] | rp2040_drivers/piezo.adb | JeremyGrosser/sensors | 1 | --
-- Copyright (C) 2021 Jeremy Grosser <jeremy@synack.me>
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with RP.Device;
with RP; use RP;
package body Piezo is
procedure Beep
(This : Beeper;
Duration : Milliseconds := 1_000;
Frequency : Hertz := 440;
Count : Positive := 1)
is
use RP.GPIO;
use RP.PWM;
Period : constant := 10_000;
Half : constant := Period / 2;
begin
if This.Point_A /= null then
Configure (This.Point_A.all, Output, Floating, RP.GPIO.PWM);
end if;
if This.Point_B /= null then
Configure (This.Point_B.all, Output, Floating, RP.GPIO.PWM);
end if;
Set_Mode (This.Slice, Free_Running);
Set_Frequency (This.Slice, Frequency * Period);
Set_Interval (This.Slice, Period);
Set_Invert (This.Slice,
Channel_A => False,
Channel_B => True);
Set_Duty_Cycle (This.Slice, 0, 0);
Enable (This.Slice);
for I in 1 .. Count loop
Set_Duty_Cycle (This.Slice, Half, Half);
RP.Device.Timer.Delay_Milliseconds (Duration);
Set_Duty_Cycle (This.Slice, 0, 0);
if I /= Count then
RP.Device.Timer.Delay_Milliseconds (Duration);
end if;
end loop;
end Beep;
end Piezo;
| 26871 | --
-- Copyright (C) 2021 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with RP.Device;
with RP; use RP;
package body Piezo is
procedure Beep
(This : Beeper;
Duration : Milliseconds := 1_000;
Frequency : Hertz := 440;
Count : Positive := 1)
is
use RP.GPIO;
use RP.PWM;
Period : constant := 10_000;
Half : constant := Period / 2;
begin
if This.Point_A /= null then
Configure (This.Point_A.all, Output, Floating, RP.GPIO.PWM);
end if;
if This.Point_B /= null then
Configure (This.Point_B.all, Output, Floating, RP.GPIO.PWM);
end if;
Set_Mode (This.Slice, Free_Running);
Set_Frequency (This.Slice, Frequency * Period);
Set_Interval (This.Slice, Period);
Set_Invert (This.Slice,
Channel_A => False,
Channel_B => True);
Set_Duty_Cycle (This.Slice, 0, 0);
Enable (This.Slice);
for I in 1 .. Count loop
Set_Duty_Cycle (This.Slice, Half, Half);
RP.Device.Timer.Delay_Milliseconds (Duration);
Set_Duty_Cycle (This.Slice, 0, 0);
if I /= Count then
RP.Device.Timer.Delay_Milliseconds (Duration);
end if;
end loop;
end Beep;
end Piezo;
| true | --
-- Copyright (C) 2021 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with RP.Device;
with RP; use RP;
package body Piezo is
procedure Beep
(This : Beeper;
Duration : Milliseconds := 1_000;
Frequency : Hertz := 440;
Count : Positive := 1)
is
use RP.GPIO;
use RP.PWM;
Period : constant := 10_000;
Half : constant := Period / 2;
begin
if This.Point_A /= null then
Configure (This.Point_A.all, Output, Floating, RP.GPIO.PWM);
end if;
if This.Point_B /= null then
Configure (This.Point_B.all, Output, Floating, RP.GPIO.PWM);
end if;
Set_Mode (This.Slice, Free_Running);
Set_Frequency (This.Slice, Frequency * Period);
Set_Interval (This.Slice, Period);
Set_Invert (This.Slice,
Channel_A => False,
Channel_B => True);
Set_Duty_Cycle (This.Slice, 0, 0);
Enable (This.Slice);
for I in 1 .. Count loop
Set_Duty_Cycle (This.Slice, Half, Half);
RP.Device.Timer.Delay_Milliseconds (Duration);
Set_Duty_Cycle (This.Slice, 0, 0);
if I /= Count then
RP.Device.Timer.Delay_Milliseconds (Duration);
end if;
end loop;
end Beep;
end Piezo;
|
[
{
"context": "\";\n SCARON_NAME : aliased constant String := \"Scaron\";\n SIGMA_NAME : aliased constant String := \"",
"end": 2663,
"score": 0.9689173102378845,
"start": 2657,
"tag": "NAME",
"value": "Scaron"
},
{
"context": "\";\n N210_NAME : aliased constant String := \"scaron\";\n SDOT_NAME : aliased constant String := \"",
"end": 11669,
"score": 0.8083436489105225,
"start": 11663,
"tag": "NAME",
"value": "scaron"
}
] | src/wiki-parsers-html-entities.ads | jquorning/ada-wiki | 18 | -- Generated by gen-ada-entities.pl latin1.ent symbol.ent special.ent
private package Wiki.Parsers.Html.Entities is
pragma Preelaborate;
AELIG_NAME : aliased constant String := "AElig";
AACUTE_NAME : aliased constant String := "Aacute";
ACIRC_NAME : aliased constant String := "Acirc";
AGRAVE_NAME : aliased constant String := "Agrave";
ALPHA_NAME : aliased constant String := "Alpha";
ARING_NAME : aliased constant String := "Aring";
ATILDE_NAME : aliased constant String := "Atilde";
AUML_NAME : aliased constant String := "Auml";
BETA_NAME : aliased constant String := "Beta";
CCEDIL_NAME : aliased constant String := "Ccedil";
CHI_NAME : aliased constant String := "Chi";
DAGGER_NAME : aliased constant String := "Dagger";
DELTA_NAME : aliased constant String := "Delta";
ETH_NAME : aliased constant String := "ETH";
EACUTE_NAME : aliased constant String := "Eacute";
ECIRC_NAME : aliased constant String := "Ecirc";
EGRAVE_NAME : aliased constant String := "Egrave";
EPSILON_NAME : aliased constant String := "Epsilon";
ETA_NAME : aliased constant String := "Eta";
EUML_NAME : aliased constant String := "Euml";
GAMMA_NAME : aliased constant String := "Gamma";
IACUTE_NAME : aliased constant String := "Iacute";
ICIRC_NAME : aliased constant String := "Icirc";
IGRAVE_NAME : aliased constant String := "Igrave";
IOTA_NAME : aliased constant String := "Iota";
IUML_NAME : aliased constant String := "Iuml";
KAPPA_NAME : aliased constant String := "Kappa";
LAMBDA_NAME : aliased constant String := "Lambda";
MU_NAME : aliased constant String := "Mu";
NTILDE_NAME : aliased constant String := "Ntilde";
NU_NAME : aliased constant String := "Nu";
OELIG_NAME : aliased constant String := "OElig";
OACUTE_NAME : aliased constant String := "Oacute";
OCIRC_NAME : aliased constant String := "Ocirc";
OGRAVE_NAME : aliased constant String := "Ograve";
OMEGA_NAME : aliased constant String := "Omega";
OMICRON_NAME : aliased constant String := "Omicron";
OSLASH_NAME : aliased constant String := "Oslash";
OTILDE_NAME : aliased constant String := "Otilde";
OUML_NAME : aliased constant String := "Ouml";
PHI_NAME : aliased constant String := "Phi";
PI_NAME : aliased constant String := "Pi";
PRIME_NAME : aliased constant String := "Prime";
PSI_NAME : aliased constant String := "Psi";
RHO_NAME : aliased constant String := "Rho";
SCARON_NAME : aliased constant String := "Scaron";
SIGMA_NAME : aliased constant String := "Sigma";
THORN_NAME : aliased constant String := "THORN";
TAU_NAME : aliased constant String := "Tau";
THETA_NAME : aliased constant String := "Theta";
UACUTE_NAME : aliased constant String := "Uacute";
UCIRC_NAME : aliased constant String := "Ucirc";
UGRAVE_NAME : aliased constant String := "Ugrave";
UPSILON_NAME : aliased constant String := "Upsilon";
UUML_NAME : aliased constant String := "Uuml";
XI_NAME : aliased constant String := "Xi";
YACUTE_NAME : aliased constant String := "Yacute";
YUML_NAME : aliased constant String := "Yuml";
ZETA_NAME : aliased constant String := "Zeta";
N59_NAME : aliased constant String := "aacute";
N60_NAME : aliased constant String := "acirc";
ACUTE_NAME : aliased constant String := "acute";
N62_NAME : aliased constant String := "aelig";
N63_NAME : aliased constant String := "agrave";
ALEFSYM_NAME : aliased constant String := "alefsym";
N65_NAME : aliased constant String := "alpha";
AMP_NAME : aliased constant String := "amp";
AND_NAME : aliased constant String := "and";
ANG_NAME : aliased constant String := "ang";
APOS_NAME : aliased constant String := "apos";
N70_NAME : aliased constant String := "aring";
ASYMP_NAME : aliased constant String := "asymp";
N72_NAME : aliased constant String := "atilde";
N73_NAME : aliased constant String := "auml";
BDQUO_NAME : aliased constant String := "bdquo";
N75_NAME : aliased constant String := "beta";
BRVBAR_NAME : aliased constant String := "brvbar";
BULL_NAME : aliased constant String := "bull";
CAP_NAME : aliased constant String := "cap";
N79_NAME : aliased constant String := "ccedil";
CEDIL_NAME : aliased constant String := "cedil";
CENT_NAME : aliased constant String := "cent";
N82_NAME : aliased constant String := "chi";
CIRC_NAME : aliased constant String := "circ";
CLUBS_NAME : aliased constant String := "clubs";
CONG_NAME : aliased constant String := "cong";
COPY_NAME : aliased constant String := "copy";
CRARR_NAME : aliased constant String := "crarr";
CUP_NAME : aliased constant String := "cup";
CURREN_NAME : aliased constant String := "curren";
DARR_NAME : aliased constant String := "dArr";
N91_NAME : aliased constant String := "dagger";
N92_NAME : aliased constant String := "darr";
DEG_NAME : aliased constant String := "deg";
N94_NAME : aliased constant String := "delta";
DIAMS_NAME : aliased constant String := "diams";
DIVIDE_NAME : aliased constant String := "divide";
N97_NAME : aliased constant String := "eacute";
N98_NAME : aliased constant String := "ecirc";
N99_NAME : aliased constant String := "egrave";
EMPTY_NAME : aliased constant String := "empty";
EMSP_NAME : aliased constant String := "emsp";
ENSP_NAME : aliased constant String := "ensp";
N103_NAME : aliased constant String := "epsilon";
EQUIV_NAME : aliased constant String := "equiv";
N105_NAME : aliased constant String := "eta";
N106_NAME : aliased constant String := "eth";
N107_NAME : aliased constant String := "euml";
EURO_NAME : aliased constant String := "euro";
EXIST_NAME : aliased constant String := "exist";
FNOF_NAME : aliased constant String := "fnof";
FORALL_NAME : aliased constant String := "forall";
FRAC12_NAME : aliased constant String := "frac12";
FRAC14_NAME : aliased constant String := "frac14";
FRAC34_NAME : aliased constant String := "frac34";
FRASL_NAME : aliased constant String := "frasl";
N116_NAME : aliased constant String := "gamma";
GE_NAME : aliased constant String := "ge";
GT_NAME : aliased constant String := "gt";
HARR_NAME : aliased constant String := "hArr";
N120_NAME : aliased constant String := "harr";
HEARTS_NAME : aliased constant String := "hearts";
HELLIP_NAME : aliased constant String := "hellip";
N123_NAME : aliased constant String := "iacute";
N124_NAME : aliased constant String := "icirc";
IEXCL_NAME : aliased constant String := "iexcl";
N126_NAME : aliased constant String := "igrave";
IMAGE_NAME : aliased constant String := "image";
INFIN_NAME : aliased constant String := "infin";
INT_NAME : aliased constant String := "int";
N130_NAME : aliased constant String := "iota";
IQUEST_NAME : aliased constant String := "iquest";
ISIN_NAME : aliased constant String := "isin";
N133_NAME : aliased constant String := "iuml";
N134_NAME : aliased constant String := "kappa";
LARR_NAME : aliased constant String := "lArr";
N136_NAME : aliased constant String := "lambda";
LANG_NAME : aliased constant String := "lang";
LAQUO_NAME : aliased constant String := "laquo";
N139_NAME : aliased constant String := "larr";
LCEIL_NAME : aliased constant String := "lceil";
LDQUO_NAME : aliased constant String := "ldquo";
LE_NAME : aliased constant String := "le";
LFLOOR_NAME : aliased constant String := "lfloor";
LOWAST_NAME : aliased constant String := "lowast";
LOZ_NAME : aliased constant String := "loz";
LRM_NAME : aliased constant String := "lrm";
LSAQUO_NAME : aliased constant String := "lsaquo";
LSQUO_NAME : aliased constant String := "lsquo";
LT_NAME : aliased constant String := "lt";
MACR_NAME : aliased constant String := "macr";
MDASH_NAME : aliased constant String := "mdash";
MICRO_NAME : aliased constant String := "micro";
MIDDOT_NAME : aliased constant String := "middot";
MINUS_NAME : aliased constant String := "minus";
N155_NAME : aliased constant String := "mu";
NABLA_NAME : aliased constant String := "nabla";
NBSP_NAME : aliased constant String := "nbsp";
NDASH_NAME : aliased constant String := "ndash";
NE_NAME : aliased constant String := "ne";
NI_NAME : aliased constant String := "ni";
NOT_NAME : aliased constant String := "not";
NOTIN_NAME : aliased constant String := "notin";
NSUB_NAME : aliased constant String := "nsub";
N164_NAME : aliased constant String := "ntilde";
N165_NAME : aliased constant String := "nu";
N166_NAME : aliased constant String := "oacute";
N167_NAME : aliased constant String := "ocirc";
N168_NAME : aliased constant String := "oelig";
N169_NAME : aliased constant String := "ograve";
OLINE_NAME : aliased constant String := "oline";
N171_NAME : aliased constant String := "omega";
N172_NAME : aliased constant String := "omicron";
OPLUS_NAME : aliased constant String := "oplus";
OR_NAME : aliased constant String := "or";
ORDF_NAME : aliased constant String := "ordf";
ORDM_NAME : aliased constant String := "ordm";
N177_NAME : aliased constant String := "oslash";
N178_NAME : aliased constant String := "otilde";
OTIMES_NAME : aliased constant String := "otimes";
N180_NAME : aliased constant String := "ouml";
PARA_NAME : aliased constant String := "para";
PART_NAME : aliased constant String := "part";
PERMIL_NAME : aliased constant String := "permil";
PERP_NAME : aliased constant String := "perp";
N185_NAME : aliased constant String := "phi";
N186_NAME : aliased constant String := "pi";
PIV_NAME : aliased constant String := "piv";
PLUSMN_NAME : aliased constant String := "plusmn";
POUND_NAME : aliased constant String := "pound";
N190_NAME : aliased constant String := "prime";
PROD_NAME : aliased constant String := "prod";
PROP_NAME : aliased constant String := "prop";
N193_NAME : aliased constant String := "psi";
QUOT_NAME : aliased constant String := "quot";
RARR_NAME : aliased constant String := "rArr";
RADIC_NAME : aliased constant String := "radic";
RANG_NAME : aliased constant String := "rang";
RAQUO_NAME : aliased constant String := "raquo";
N199_NAME : aliased constant String := "rarr";
RCEIL_NAME : aliased constant String := "rceil";
RDQUO_NAME : aliased constant String := "rdquo";
REAL_NAME : aliased constant String := "real";
REG_NAME : aliased constant String := "reg";
RFLOOR_NAME : aliased constant String := "rfloor";
N205_NAME : aliased constant String := "rho";
RLM_NAME : aliased constant String := "rlm";
RSAQUO_NAME : aliased constant String := "rsaquo";
RSQUO_NAME : aliased constant String := "rsquo";
SBQUO_NAME : aliased constant String := "sbquo";
N210_NAME : aliased constant String := "scaron";
SDOT_NAME : aliased constant String := "sdot";
SECT_NAME : aliased constant String := "sect";
SHY_NAME : aliased constant String := "shy";
N214_NAME : aliased constant String := "sigma";
SIGMAF_NAME : aliased constant String := "sigmaf";
SIM_NAME : aliased constant String := "sim";
SPADES_NAME : aliased constant String := "spades";
SUB_NAME : aliased constant String := "sub";
SUBE_NAME : aliased constant String := "sube";
SUM_NAME : aliased constant String := "sum";
SUP_NAME : aliased constant String := "sup";
SUP1_NAME : aliased constant String := "sup1";
SUP2_NAME : aliased constant String := "sup2";
SUP3_NAME : aliased constant String := "sup3";
SUPE_NAME : aliased constant String := "supe";
SZLIG_NAME : aliased constant String := "szlig";
N227_NAME : aliased constant String := "tau";
THERE4_NAME : aliased constant String := "there4";
N229_NAME : aliased constant String := "theta";
THETASYM_NAME : aliased constant String := "thetasym";
THINSP_NAME : aliased constant String := "thinsp";
N232_NAME : aliased constant String := "thorn";
TILDE_NAME : aliased constant String := "tilde";
TIMES_NAME : aliased constant String := "times";
TRADE_NAME : aliased constant String := "trade";
UARR_NAME : aliased constant String := "uArr";
N237_NAME : aliased constant String := "uacute";
N238_NAME : aliased constant String := "uarr";
N239_NAME : aliased constant String := "ucirc";
N240_NAME : aliased constant String := "ugrave";
UML_NAME : aliased constant String := "uml";
UPSIH_NAME : aliased constant String := "upsih";
N243_NAME : aliased constant String := "upsilon";
N244_NAME : aliased constant String := "uuml";
WEIERP_NAME : aliased constant String := "weierp";
N246_NAME : aliased constant String := "xi";
N247_NAME : aliased constant String := "yacute";
YEN_NAME : aliased constant String := "yen";
N249_NAME : aliased constant String := "yuml";
N250_NAME : aliased constant String := "zeta";
ZWJ_NAME : aliased constant String := "zwj";
ZWNJ_NAME : aliased constant String := "zwnj";
type String_Access is access constant String;
type Keyword_Array is array (Positive range 1 .. 253) of String_Access;
type Char_Array is array (Positive range 1 .. 253) of Wide_Wide_Character;
Keywords : constant Keyword_Array := (
AELIG_NAME'Access,
AACUTE_NAME'Access,
ACIRC_NAME'Access,
AGRAVE_NAME'Access,
ALPHA_NAME'Access,
ARING_NAME'Access,
ATILDE_NAME'Access,
AUML_NAME'Access,
BETA_NAME'Access,
CCEDIL_NAME'Access,
CHI_NAME'Access,
DAGGER_NAME'Access,
DELTA_NAME'Access,
ETH_NAME'Access,
EACUTE_NAME'Access,
ECIRC_NAME'Access,
EGRAVE_NAME'Access,
EPSILON_NAME'Access,
ETA_NAME'Access,
EUML_NAME'Access,
GAMMA_NAME'Access,
IACUTE_NAME'Access,
ICIRC_NAME'Access,
IGRAVE_NAME'Access,
IOTA_NAME'Access,
IUML_NAME'Access,
KAPPA_NAME'Access,
LAMBDA_NAME'Access,
MU_NAME'Access,
NTILDE_NAME'Access,
NU_NAME'Access,
OELIG_NAME'Access,
OACUTE_NAME'Access,
OCIRC_NAME'Access,
OGRAVE_NAME'Access,
OMEGA_NAME'Access,
OMICRON_NAME'Access,
OSLASH_NAME'Access,
OTILDE_NAME'Access,
OUML_NAME'Access,
PHI_NAME'Access,
PI_NAME'Access,
PRIME_NAME'Access,
PSI_NAME'Access,
RHO_NAME'Access,
SCARON_NAME'Access,
SIGMA_NAME'Access,
THORN_NAME'Access,
TAU_NAME'Access,
THETA_NAME'Access,
UACUTE_NAME'Access,
UCIRC_NAME'Access,
UGRAVE_NAME'Access,
UPSILON_NAME'Access,
UUML_NAME'Access,
XI_NAME'Access,
YACUTE_NAME'Access,
YUML_NAME'Access,
ZETA_NAME'Access,
N59_NAME'Access,
N60_NAME'Access,
ACUTE_NAME'Access,
N62_NAME'Access,
N63_NAME'Access,
ALEFSYM_NAME'Access,
N65_NAME'Access,
AMP_NAME'Access,
AND_NAME'Access,
ANG_NAME'Access,
APOS_NAME'Access,
N70_NAME'Access,
ASYMP_NAME'Access,
N72_NAME'Access,
N73_NAME'Access,
BDQUO_NAME'Access,
N75_NAME'Access,
BRVBAR_NAME'Access,
BULL_NAME'Access,
CAP_NAME'Access,
N79_NAME'Access,
CEDIL_NAME'Access,
CENT_NAME'Access,
N82_NAME'Access,
CIRC_NAME'Access,
CLUBS_NAME'Access,
CONG_NAME'Access,
COPY_NAME'Access,
CRARR_NAME'Access,
CUP_NAME'Access,
CURREN_NAME'Access,
DARR_NAME'Access,
N91_NAME'Access,
N92_NAME'Access,
DEG_NAME'Access,
N94_NAME'Access,
DIAMS_NAME'Access,
DIVIDE_NAME'Access,
N97_NAME'Access,
N98_NAME'Access,
N99_NAME'Access,
EMPTY_NAME'Access,
EMSP_NAME'Access,
ENSP_NAME'Access,
N103_NAME'Access,
EQUIV_NAME'Access,
N105_NAME'Access,
N106_NAME'Access,
N107_NAME'Access,
EURO_NAME'Access,
EXIST_NAME'Access,
FNOF_NAME'Access,
FORALL_NAME'Access,
FRAC12_NAME'Access,
FRAC14_NAME'Access,
FRAC34_NAME'Access,
FRASL_NAME'Access,
N116_NAME'Access,
GE_NAME'Access,
GT_NAME'Access,
HARR_NAME'Access,
N120_NAME'Access,
HEARTS_NAME'Access,
HELLIP_NAME'Access,
N123_NAME'Access,
N124_NAME'Access,
IEXCL_NAME'Access,
N126_NAME'Access,
IMAGE_NAME'Access,
INFIN_NAME'Access,
INT_NAME'Access,
N130_NAME'Access,
IQUEST_NAME'Access,
ISIN_NAME'Access,
N133_NAME'Access,
N134_NAME'Access,
LARR_NAME'Access,
N136_NAME'Access,
LANG_NAME'Access,
LAQUO_NAME'Access,
N139_NAME'Access,
LCEIL_NAME'Access,
LDQUO_NAME'Access,
LE_NAME'Access,
LFLOOR_NAME'Access,
LOWAST_NAME'Access,
LOZ_NAME'Access,
LRM_NAME'Access,
LSAQUO_NAME'Access,
LSQUO_NAME'Access,
LT_NAME'Access,
MACR_NAME'Access,
MDASH_NAME'Access,
MICRO_NAME'Access,
MIDDOT_NAME'Access,
MINUS_NAME'Access,
N155_NAME'Access,
NABLA_NAME'Access,
NBSP_NAME'Access,
NDASH_NAME'Access,
NE_NAME'Access,
NI_NAME'Access,
NOT_NAME'Access,
NOTIN_NAME'Access,
NSUB_NAME'Access,
N164_NAME'Access,
N165_NAME'Access,
N166_NAME'Access,
N167_NAME'Access,
N168_NAME'Access,
N169_NAME'Access,
OLINE_NAME'Access,
N171_NAME'Access,
N172_NAME'Access,
OPLUS_NAME'Access,
OR_NAME'Access,
ORDF_NAME'Access,
ORDM_NAME'Access,
N177_NAME'Access,
N178_NAME'Access,
OTIMES_NAME'Access,
N180_NAME'Access,
PARA_NAME'Access,
PART_NAME'Access,
PERMIL_NAME'Access,
PERP_NAME'Access,
N185_NAME'Access,
N186_NAME'Access,
PIV_NAME'Access,
PLUSMN_NAME'Access,
POUND_NAME'Access,
N190_NAME'Access,
PROD_NAME'Access,
PROP_NAME'Access,
N193_NAME'Access,
QUOT_NAME'Access,
RARR_NAME'Access,
RADIC_NAME'Access,
RANG_NAME'Access,
RAQUO_NAME'Access,
N199_NAME'Access,
RCEIL_NAME'Access,
RDQUO_NAME'Access,
REAL_NAME'Access,
REG_NAME'Access,
RFLOOR_NAME'Access,
N205_NAME'Access,
RLM_NAME'Access,
RSAQUO_NAME'Access,
RSQUO_NAME'Access,
SBQUO_NAME'Access,
N210_NAME'Access,
SDOT_NAME'Access,
SECT_NAME'Access,
SHY_NAME'Access,
N214_NAME'Access,
SIGMAF_NAME'Access,
SIM_NAME'Access,
SPADES_NAME'Access,
SUB_NAME'Access,
SUBE_NAME'Access,
SUM_NAME'Access,
SUP_NAME'Access,
SUP1_NAME'Access,
SUP2_NAME'Access,
SUP3_NAME'Access,
SUPE_NAME'Access,
SZLIG_NAME'Access,
N227_NAME'Access,
THERE4_NAME'Access,
N229_NAME'Access,
THETASYM_NAME'Access,
THINSP_NAME'Access,
N232_NAME'Access,
TILDE_NAME'Access,
TIMES_NAME'Access,
TRADE_NAME'Access,
UARR_NAME'Access,
N237_NAME'Access,
N238_NAME'Access,
N239_NAME'Access,
N240_NAME'Access,
UML_NAME'Access,
UPSIH_NAME'Access,
N243_NAME'Access,
N244_NAME'Access,
WEIERP_NAME'Access,
N246_NAME'Access,
N247_NAME'Access,
YEN_NAME'Access,
N249_NAME'Access,
N250_NAME'Access,
ZWJ_NAME'Access,
ZWNJ_NAME'Access);
Mapping : constant Char_Array := (
Wide_Wide_Character'Val (198),
Wide_Wide_Character'Val (193),
Wide_Wide_Character'Val (194),
Wide_Wide_Character'Val (192),
Wide_Wide_Character'Val (913),
Wide_Wide_Character'Val (197),
Wide_Wide_Character'Val (195),
Wide_Wide_Character'Val (196),
Wide_Wide_Character'Val (914),
Wide_Wide_Character'Val (199),
Wide_Wide_Character'Val (935),
Wide_Wide_Character'Val (8225),
Wide_Wide_Character'Val (916),
Wide_Wide_Character'Val (208),
Wide_Wide_Character'Val (201),
Wide_Wide_Character'Val (202),
Wide_Wide_Character'Val (200),
Wide_Wide_Character'Val (917),
Wide_Wide_Character'Val (919),
Wide_Wide_Character'Val (203),
Wide_Wide_Character'Val (915),
Wide_Wide_Character'Val (205),
Wide_Wide_Character'Val (206),
Wide_Wide_Character'Val (204),
Wide_Wide_Character'Val (921),
Wide_Wide_Character'Val (207),
Wide_Wide_Character'Val (922),
Wide_Wide_Character'Val (923),
Wide_Wide_Character'Val (924),
Wide_Wide_Character'Val (209),
Wide_Wide_Character'Val (925),
Wide_Wide_Character'Val (338),
Wide_Wide_Character'Val (211),
Wide_Wide_Character'Val (212),
Wide_Wide_Character'Val (210),
Wide_Wide_Character'Val (937),
Wide_Wide_Character'Val (927),
Wide_Wide_Character'Val (216),
Wide_Wide_Character'Val (213),
Wide_Wide_Character'Val (214),
Wide_Wide_Character'Val (934),
Wide_Wide_Character'Val (928),
Wide_Wide_Character'Val (8243),
Wide_Wide_Character'Val (936),
Wide_Wide_Character'Val (929),
Wide_Wide_Character'Val (352),
Wide_Wide_Character'Val (931),
Wide_Wide_Character'Val (222),
Wide_Wide_Character'Val (932),
Wide_Wide_Character'Val (920),
Wide_Wide_Character'Val (218),
Wide_Wide_Character'Val (219),
Wide_Wide_Character'Val (217),
Wide_Wide_Character'Val (933),
Wide_Wide_Character'Val (220),
Wide_Wide_Character'Val (926),
Wide_Wide_Character'Val (221),
Wide_Wide_Character'Val (376),
Wide_Wide_Character'Val (918),
Wide_Wide_Character'Val (225),
Wide_Wide_Character'Val (226),
Wide_Wide_Character'Val (180),
Wide_Wide_Character'Val (230),
Wide_Wide_Character'Val (224),
Wide_Wide_Character'Val (8501),
Wide_Wide_Character'Val (945),
Wide_Wide_Character'Val (38),
Wide_Wide_Character'Val (8743),
Wide_Wide_Character'Val (8736),
Wide_Wide_Character'Val (39),
Wide_Wide_Character'Val (229),
Wide_Wide_Character'Val (8776),
Wide_Wide_Character'Val (227),
Wide_Wide_Character'Val (228),
Wide_Wide_Character'Val (8222),
Wide_Wide_Character'Val (946),
Wide_Wide_Character'Val (166),
Wide_Wide_Character'Val (8226),
Wide_Wide_Character'Val (8745),
Wide_Wide_Character'Val (231),
Wide_Wide_Character'Val (184),
Wide_Wide_Character'Val (162),
Wide_Wide_Character'Val (967),
Wide_Wide_Character'Val (710),
Wide_Wide_Character'Val (9827),
Wide_Wide_Character'Val (8773),
Wide_Wide_Character'Val (169),
Wide_Wide_Character'Val (8629),
Wide_Wide_Character'Val (8746),
Wide_Wide_Character'Val (164),
Wide_Wide_Character'Val (8659),
Wide_Wide_Character'Val (8224),
Wide_Wide_Character'Val (8595),
Wide_Wide_Character'Val (176),
Wide_Wide_Character'Val (948),
Wide_Wide_Character'Val (9830),
Wide_Wide_Character'Val (247),
Wide_Wide_Character'Val (233),
Wide_Wide_Character'Val (234),
Wide_Wide_Character'Val (232),
Wide_Wide_Character'Val (8709),
Wide_Wide_Character'Val (8195),
Wide_Wide_Character'Val (8194),
Wide_Wide_Character'Val (949),
Wide_Wide_Character'Val (8801),
Wide_Wide_Character'Val (951),
Wide_Wide_Character'Val (240),
Wide_Wide_Character'Val (235),
Wide_Wide_Character'Val (8364),
Wide_Wide_Character'Val (8707),
Wide_Wide_Character'Val (402),
Wide_Wide_Character'Val (8704),
Wide_Wide_Character'Val (189),
Wide_Wide_Character'Val (188),
Wide_Wide_Character'Val (190),
Wide_Wide_Character'Val (8260),
Wide_Wide_Character'Val (947),
Wide_Wide_Character'Val (8805),
Wide_Wide_Character'Val (62),
Wide_Wide_Character'Val (8660),
Wide_Wide_Character'Val (8596),
Wide_Wide_Character'Val (9829),
Wide_Wide_Character'Val (8230),
Wide_Wide_Character'Val (237),
Wide_Wide_Character'Val (238),
Wide_Wide_Character'Val (161),
Wide_Wide_Character'Val (236),
Wide_Wide_Character'Val (8465),
Wide_Wide_Character'Val (8734),
Wide_Wide_Character'Val (8747),
Wide_Wide_Character'Val (953),
Wide_Wide_Character'Val (191),
Wide_Wide_Character'Val (8712),
Wide_Wide_Character'Val (239),
Wide_Wide_Character'Val (954),
Wide_Wide_Character'Val (8656),
Wide_Wide_Character'Val (955),
Wide_Wide_Character'Val (9001),
Wide_Wide_Character'Val (171),
Wide_Wide_Character'Val (8592),
Wide_Wide_Character'Val (8968),
Wide_Wide_Character'Val (8220),
Wide_Wide_Character'Val (8804),
Wide_Wide_Character'Val (8970),
Wide_Wide_Character'Val (8727),
Wide_Wide_Character'Val (9674),
Wide_Wide_Character'Val (8206),
Wide_Wide_Character'Val (8249),
Wide_Wide_Character'Val (8216),
Wide_Wide_Character'Val (60),
Wide_Wide_Character'Val (175),
Wide_Wide_Character'Val (8212),
Wide_Wide_Character'Val (181),
Wide_Wide_Character'Val (183),
Wide_Wide_Character'Val (8722),
Wide_Wide_Character'Val (956),
Wide_Wide_Character'Val (8711),
Wide_Wide_Character'Val (160),
Wide_Wide_Character'Val (8211),
Wide_Wide_Character'Val (8800),
Wide_Wide_Character'Val (8715),
Wide_Wide_Character'Val (172),
Wide_Wide_Character'Val (8713),
Wide_Wide_Character'Val (8836),
Wide_Wide_Character'Val (241),
Wide_Wide_Character'Val (957),
Wide_Wide_Character'Val (243),
Wide_Wide_Character'Val (244),
Wide_Wide_Character'Val (339),
Wide_Wide_Character'Val (242),
Wide_Wide_Character'Val (8254),
Wide_Wide_Character'Val (969),
Wide_Wide_Character'Val (959),
Wide_Wide_Character'Val (8853),
Wide_Wide_Character'Val (8744),
Wide_Wide_Character'Val (170),
Wide_Wide_Character'Val (186),
Wide_Wide_Character'Val (248),
Wide_Wide_Character'Val (245),
Wide_Wide_Character'Val (8855),
Wide_Wide_Character'Val (246),
Wide_Wide_Character'Val (182),
Wide_Wide_Character'Val (8706),
Wide_Wide_Character'Val (8240),
Wide_Wide_Character'Val (8869),
Wide_Wide_Character'Val (966),
Wide_Wide_Character'Val (960),
Wide_Wide_Character'Val (982),
Wide_Wide_Character'Val (177),
Wide_Wide_Character'Val (163),
Wide_Wide_Character'Val (8242),
Wide_Wide_Character'Val (8719),
Wide_Wide_Character'Val (8733),
Wide_Wide_Character'Val (968),
Wide_Wide_Character'Val (34),
Wide_Wide_Character'Val (8658),
Wide_Wide_Character'Val (8730),
Wide_Wide_Character'Val (9002),
Wide_Wide_Character'Val (187),
Wide_Wide_Character'Val (8594),
Wide_Wide_Character'Val (8969),
Wide_Wide_Character'Val (8221),
Wide_Wide_Character'Val (8476),
Wide_Wide_Character'Val (174),
Wide_Wide_Character'Val (8971),
Wide_Wide_Character'Val (961),
Wide_Wide_Character'Val (8207),
Wide_Wide_Character'Val (8250),
Wide_Wide_Character'Val (8217),
Wide_Wide_Character'Val (8218),
Wide_Wide_Character'Val (353),
Wide_Wide_Character'Val (8901),
Wide_Wide_Character'Val (167),
Wide_Wide_Character'Val (173),
Wide_Wide_Character'Val (963),
Wide_Wide_Character'Val (962),
Wide_Wide_Character'Val (8764),
Wide_Wide_Character'Val (9824),
Wide_Wide_Character'Val (8834),
Wide_Wide_Character'Val (8838),
Wide_Wide_Character'Val (8721),
Wide_Wide_Character'Val (8835),
Wide_Wide_Character'Val (185),
Wide_Wide_Character'Val (178),
Wide_Wide_Character'Val (179),
Wide_Wide_Character'Val (8839),
Wide_Wide_Character'Val (223),
Wide_Wide_Character'Val (964),
Wide_Wide_Character'Val (8756),
Wide_Wide_Character'Val (952),
Wide_Wide_Character'Val (977),
Wide_Wide_Character'Val (8201),
Wide_Wide_Character'Val (254),
Wide_Wide_Character'Val (732),
Wide_Wide_Character'Val (215),
Wide_Wide_Character'Val (8482),
Wide_Wide_Character'Val (8657),
Wide_Wide_Character'Val (250),
Wide_Wide_Character'Val (8593),
Wide_Wide_Character'Val (251),
Wide_Wide_Character'Val (249),
Wide_Wide_Character'Val (168),
Wide_Wide_Character'Val (978),
Wide_Wide_Character'Val (965),
Wide_Wide_Character'Val (252),
Wide_Wide_Character'Val (8472),
Wide_Wide_Character'Val (958),
Wide_Wide_Character'Val (253),
Wide_Wide_Character'Val (165),
Wide_Wide_Character'Val (255),
Wide_Wide_Character'Val (950),
Wide_Wide_Character'Val (8205),
Wide_Wide_Character'Val (8204));
end Wiki.Parsers.Html.Entities;
| 11338 | -- Generated by gen-ada-entities.pl latin1.ent symbol.ent special.ent
private package Wiki.Parsers.Html.Entities is
pragma Preelaborate;
AELIG_NAME : aliased constant String := "AElig";
AACUTE_NAME : aliased constant String := "Aacute";
ACIRC_NAME : aliased constant String := "Acirc";
AGRAVE_NAME : aliased constant String := "Agrave";
ALPHA_NAME : aliased constant String := "Alpha";
ARING_NAME : aliased constant String := "Aring";
ATILDE_NAME : aliased constant String := "Atilde";
AUML_NAME : aliased constant String := "Auml";
BETA_NAME : aliased constant String := "Beta";
CCEDIL_NAME : aliased constant String := "Ccedil";
CHI_NAME : aliased constant String := "Chi";
DAGGER_NAME : aliased constant String := "Dagger";
DELTA_NAME : aliased constant String := "Delta";
ETH_NAME : aliased constant String := "ETH";
EACUTE_NAME : aliased constant String := "Eacute";
ECIRC_NAME : aliased constant String := "Ecirc";
EGRAVE_NAME : aliased constant String := "Egrave";
EPSILON_NAME : aliased constant String := "Epsilon";
ETA_NAME : aliased constant String := "Eta";
EUML_NAME : aliased constant String := "Euml";
GAMMA_NAME : aliased constant String := "Gamma";
IACUTE_NAME : aliased constant String := "Iacute";
ICIRC_NAME : aliased constant String := "Icirc";
IGRAVE_NAME : aliased constant String := "Igrave";
IOTA_NAME : aliased constant String := "Iota";
IUML_NAME : aliased constant String := "Iuml";
KAPPA_NAME : aliased constant String := "Kappa";
LAMBDA_NAME : aliased constant String := "Lambda";
MU_NAME : aliased constant String := "Mu";
NTILDE_NAME : aliased constant String := "Ntilde";
NU_NAME : aliased constant String := "Nu";
OELIG_NAME : aliased constant String := "OElig";
OACUTE_NAME : aliased constant String := "Oacute";
OCIRC_NAME : aliased constant String := "Ocirc";
OGRAVE_NAME : aliased constant String := "Ograve";
OMEGA_NAME : aliased constant String := "Omega";
OMICRON_NAME : aliased constant String := "Omicron";
OSLASH_NAME : aliased constant String := "Oslash";
OTILDE_NAME : aliased constant String := "Otilde";
OUML_NAME : aliased constant String := "Ouml";
PHI_NAME : aliased constant String := "Phi";
PI_NAME : aliased constant String := "Pi";
PRIME_NAME : aliased constant String := "Prime";
PSI_NAME : aliased constant String := "Psi";
RHO_NAME : aliased constant String := "Rho";
SCARON_NAME : aliased constant String := "<NAME>";
SIGMA_NAME : aliased constant String := "Sigma";
THORN_NAME : aliased constant String := "THORN";
TAU_NAME : aliased constant String := "Tau";
THETA_NAME : aliased constant String := "Theta";
UACUTE_NAME : aliased constant String := "Uacute";
UCIRC_NAME : aliased constant String := "Ucirc";
UGRAVE_NAME : aliased constant String := "Ugrave";
UPSILON_NAME : aliased constant String := "Upsilon";
UUML_NAME : aliased constant String := "Uuml";
XI_NAME : aliased constant String := "Xi";
YACUTE_NAME : aliased constant String := "Yacute";
YUML_NAME : aliased constant String := "Yuml";
ZETA_NAME : aliased constant String := "Zeta";
N59_NAME : aliased constant String := "aacute";
N60_NAME : aliased constant String := "acirc";
ACUTE_NAME : aliased constant String := "acute";
N62_NAME : aliased constant String := "aelig";
N63_NAME : aliased constant String := "agrave";
ALEFSYM_NAME : aliased constant String := "alefsym";
N65_NAME : aliased constant String := "alpha";
AMP_NAME : aliased constant String := "amp";
AND_NAME : aliased constant String := "and";
ANG_NAME : aliased constant String := "ang";
APOS_NAME : aliased constant String := "apos";
N70_NAME : aliased constant String := "aring";
ASYMP_NAME : aliased constant String := "asymp";
N72_NAME : aliased constant String := "atilde";
N73_NAME : aliased constant String := "auml";
BDQUO_NAME : aliased constant String := "bdquo";
N75_NAME : aliased constant String := "beta";
BRVBAR_NAME : aliased constant String := "brvbar";
BULL_NAME : aliased constant String := "bull";
CAP_NAME : aliased constant String := "cap";
N79_NAME : aliased constant String := "ccedil";
CEDIL_NAME : aliased constant String := "cedil";
CENT_NAME : aliased constant String := "cent";
N82_NAME : aliased constant String := "chi";
CIRC_NAME : aliased constant String := "circ";
CLUBS_NAME : aliased constant String := "clubs";
CONG_NAME : aliased constant String := "cong";
COPY_NAME : aliased constant String := "copy";
CRARR_NAME : aliased constant String := "crarr";
CUP_NAME : aliased constant String := "cup";
CURREN_NAME : aliased constant String := "curren";
DARR_NAME : aliased constant String := "dArr";
N91_NAME : aliased constant String := "dagger";
N92_NAME : aliased constant String := "darr";
DEG_NAME : aliased constant String := "deg";
N94_NAME : aliased constant String := "delta";
DIAMS_NAME : aliased constant String := "diams";
DIVIDE_NAME : aliased constant String := "divide";
N97_NAME : aliased constant String := "eacute";
N98_NAME : aliased constant String := "ecirc";
N99_NAME : aliased constant String := "egrave";
EMPTY_NAME : aliased constant String := "empty";
EMSP_NAME : aliased constant String := "emsp";
ENSP_NAME : aliased constant String := "ensp";
N103_NAME : aliased constant String := "epsilon";
EQUIV_NAME : aliased constant String := "equiv";
N105_NAME : aliased constant String := "eta";
N106_NAME : aliased constant String := "eth";
N107_NAME : aliased constant String := "euml";
EURO_NAME : aliased constant String := "euro";
EXIST_NAME : aliased constant String := "exist";
FNOF_NAME : aliased constant String := "fnof";
FORALL_NAME : aliased constant String := "forall";
FRAC12_NAME : aliased constant String := "frac12";
FRAC14_NAME : aliased constant String := "frac14";
FRAC34_NAME : aliased constant String := "frac34";
FRASL_NAME : aliased constant String := "frasl";
N116_NAME : aliased constant String := "gamma";
GE_NAME : aliased constant String := "ge";
GT_NAME : aliased constant String := "gt";
HARR_NAME : aliased constant String := "hArr";
N120_NAME : aliased constant String := "harr";
HEARTS_NAME : aliased constant String := "hearts";
HELLIP_NAME : aliased constant String := "hellip";
N123_NAME : aliased constant String := "iacute";
N124_NAME : aliased constant String := "icirc";
IEXCL_NAME : aliased constant String := "iexcl";
N126_NAME : aliased constant String := "igrave";
IMAGE_NAME : aliased constant String := "image";
INFIN_NAME : aliased constant String := "infin";
INT_NAME : aliased constant String := "int";
N130_NAME : aliased constant String := "iota";
IQUEST_NAME : aliased constant String := "iquest";
ISIN_NAME : aliased constant String := "isin";
N133_NAME : aliased constant String := "iuml";
N134_NAME : aliased constant String := "kappa";
LARR_NAME : aliased constant String := "lArr";
N136_NAME : aliased constant String := "lambda";
LANG_NAME : aliased constant String := "lang";
LAQUO_NAME : aliased constant String := "laquo";
N139_NAME : aliased constant String := "larr";
LCEIL_NAME : aliased constant String := "lceil";
LDQUO_NAME : aliased constant String := "ldquo";
LE_NAME : aliased constant String := "le";
LFLOOR_NAME : aliased constant String := "lfloor";
LOWAST_NAME : aliased constant String := "lowast";
LOZ_NAME : aliased constant String := "loz";
LRM_NAME : aliased constant String := "lrm";
LSAQUO_NAME : aliased constant String := "lsaquo";
LSQUO_NAME : aliased constant String := "lsquo";
LT_NAME : aliased constant String := "lt";
MACR_NAME : aliased constant String := "macr";
MDASH_NAME : aliased constant String := "mdash";
MICRO_NAME : aliased constant String := "micro";
MIDDOT_NAME : aliased constant String := "middot";
MINUS_NAME : aliased constant String := "minus";
N155_NAME : aliased constant String := "mu";
NABLA_NAME : aliased constant String := "nabla";
NBSP_NAME : aliased constant String := "nbsp";
NDASH_NAME : aliased constant String := "ndash";
NE_NAME : aliased constant String := "ne";
NI_NAME : aliased constant String := "ni";
NOT_NAME : aliased constant String := "not";
NOTIN_NAME : aliased constant String := "notin";
NSUB_NAME : aliased constant String := "nsub";
N164_NAME : aliased constant String := "ntilde";
N165_NAME : aliased constant String := "nu";
N166_NAME : aliased constant String := "oacute";
N167_NAME : aliased constant String := "ocirc";
N168_NAME : aliased constant String := "oelig";
N169_NAME : aliased constant String := "ograve";
OLINE_NAME : aliased constant String := "oline";
N171_NAME : aliased constant String := "omega";
N172_NAME : aliased constant String := "omicron";
OPLUS_NAME : aliased constant String := "oplus";
OR_NAME : aliased constant String := "or";
ORDF_NAME : aliased constant String := "ordf";
ORDM_NAME : aliased constant String := "ordm";
N177_NAME : aliased constant String := "oslash";
N178_NAME : aliased constant String := "otilde";
OTIMES_NAME : aliased constant String := "otimes";
N180_NAME : aliased constant String := "ouml";
PARA_NAME : aliased constant String := "para";
PART_NAME : aliased constant String := "part";
PERMIL_NAME : aliased constant String := "permil";
PERP_NAME : aliased constant String := "perp";
N185_NAME : aliased constant String := "phi";
N186_NAME : aliased constant String := "pi";
PIV_NAME : aliased constant String := "piv";
PLUSMN_NAME : aliased constant String := "plusmn";
POUND_NAME : aliased constant String := "pound";
N190_NAME : aliased constant String := "prime";
PROD_NAME : aliased constant String := "prod";
PROP_NAME : aliased constant String := "prop";
N193_NAME : aliased constant String := "psi";
QUOT_NAME : aliased constant String := "quot";
RARR_NAME : aliased constant String := "rArr";
RADIC_NAME : aliased constant String := "radic";
RANG_NAME : aliased constant String := "rang";
RAQUO_NAME : aliased constant String := "raquo";
N199_NAME : aliased constant String := "rarr";
RCEIL_NAME : aliased constant String := "rceil";
RDQUO_NAME : aliased constant String := "rdquo";
REAL_NAME : aliased constant String := "real";
REG_NAME : aliased constant String := "reg";
RFLOOR_NAME : aliased constant String := "rfloor";
N205_NAME : aliased constant String := "rho";
RLM_NAME : aliased constant String := "rlm";
RSAQUO_NAME : aliased constant String := "rsaquo";
RSQUO_NAME : aliased constant String := "rsquo";
SBQUO_NAME : aliased constant String := "sbquo";
N210_NAME : aliased constant String := "<NAME>";
SDOT_NAME : aliased constant String := "sdot";
SECT_NAME : aliased constant String := "sect";
SHY_NAME : aliased constant String := "shy";
N214_NAME : aliased constant String := "sigma";
SIGMAF_NAME : aliased constant String := "sigmaf";
SIM_NAME : aliased constant String := "sim";
SPADES_NAME : aliased constant String := "spades";
SUB_NAME : aliased constant String := "sub";
SUBE_NAME : aliased constant String := "sube";
SUM_NAME : aliased constant String := "sum";
SUP_NAME : aliased constant String := "sup";
SUP1_NAME : aliased constant String := "sup1";
SUP2_NAME : aliased constant String := "sup2";
SUP3_NAME : aliased constant String := "sup3";
SUPE_NAME : aliased constant String := "supe";
SZLIG_NAME : aliased constant String := "szlig";
N227_NAME : aliased constant String := "tau";
THERE4_NAME : aliased constant String := "there4";
N229_NAME : aliased constant String := "theta";
THETASYM_NAME : aliased constant String := "thetasym";
THINSP_NAME : aliased constant String := "thinsp";
N232_NAME : aliased constant String := "thorn";
TILDE_NAME : aliased constant String := "tilde";
TIMES_NAME : aliased constant String := "times";
TRADE_NAME : aliased constant String := "trade";
UARR_NAME : aliased constant String := "uArr";
N237_NAME : aliased constant String := "uacute";
N238_NAME : aliased constant String := "uarr";
N239_NAME : aliased constant String := "ucirc";
N240_NAME : aliased constant String := "ugrave";
UML_NAME : aliased constant String := "uml";
UPSIH_NAME : aliased constant String := "upsih";
N243_NAME : aliased constant String := "upsilon";
N244_NAME : aliased constant String := "uuml";
WEIERP_NAME : aliased constant String := "weierp";
N246_NAME : aliased constant String := "xi";
N247_NAME : aliased constant String := "yacute";
YEN_NAME : aliased constant String := "yen";
N249_NAME : aliased constant String := "yuml";
N250_NAME : aliased constant String := "zeta";
ZWJ_NAME : aliased constant String := "zwj";
ZWNJ_NAME : aliased constant String := "zwnj";
type String_Access is access constant String;
type Keyword_Array is array (Positive range 1 .. 253) of String_Access;
type Char_Array is array (Positive range 1 .. 253) of Wide_Wide_Character;
Keywords : constant Keyword_Array := (
AELIG_NAME'Access,
AACUTE_NAME'Access,
ACIRC_NAME'Access,
AGRAVE_NAME'Access,
ALPHA_NAME'Access,
ARING_NAME'Access,
ATILDE_NAME'Access,
AUML_NAME'Access,
BETA_NAME'Access,
CCEDIL_NAME'Access,
CHI_NAME'Access,
DAGGER_NAME'Access,
DELTA_NAME'Access,
ETH_NAME'Access,
EACUTE_NAME'Access,
ECIRC_NAME'Access,
EGRAVE_NAME'Access,
EPSILON_NAME'Access,
ETA_NAME'Access,
EUML_NAME'Access,
GAMMA_NAME'Access,
IACUTE_NAME'Access,
ICIRC_NAME'Access,
IGRAVE_NAME'Access,
IOTA_NAME'Access,
IUML_NAME'Access,
KAPPA_NAME'Access,
LAMBDA_NAME'Access,
MU_NAME'Access,
NTILDE_NAME'Access,
NU_NAME'Access,
OELIG_NAME'Access,
OACUTE_NAME'Access,
OCIRC_NAME'Access,
OGRAVE_NAME'Access,
OMEGA_NAME'Access,
OMICRON_NAME'Access,
OSLASH_NAME'Access,
OTILDE_NAME'Access,
OUML_NAME'Access,
PHI_NAME'Access,
PI_NAME'Access,
PRIME_NAME'Access,
PSI_NAME'Access,
RHO_NAME'Access,
SCARON_NAME'Access,
SIGMA_NAME'Access,
THORN_NAME'Access,
TAU_NAME'Access,
THETA_NAME'Access,
UACUTE_NAME'Access,
UCIRC_NAME'Access,
UGRAVE_NAME'Access,
UPSILON_NAME'Access,
UUML_NAME'Access,
XI_NAME'Access,
YACUTE_NAME'Access,
YUML_NAME'Access,
ZETA_NAME'Access,
N59_NAME'Access,
N60_NAME'Access,
ACUTE_NAME'Access,
N62_NAME'Access,
N63_NAME'Access,
ALEFSYM_NAME'Access,
N65_NAME'Access,
AMP_NAME'Access,
AND_NAME'Access,
ANG_NAME'Access,
APOS_NAME'Access,
N70_NAME'Access,
ASYMP_NAME'Access,
N72_NAME'Access,
N73_NAME'Access,
BDQUO_NAME'Access,
N75_NAME'Access,
BRVBAR_NAME'Access,
BULL_NAME'Access,
CAP_NAME'Access,
N79_NAME'Access,
CEDIL_NAME'Access,
CENT_NAME'Access,
N82_NAME'Access,
CIRC_NAME'Access,
CLUBS_NAME'Access,
CONG_NAME'Access,
COPY_NAME'Access,
CRARR_NAME'Access,
CUP_NAME'Access,
CURREN_NAME'Access,
DARR_NAME'Access,
N91_NAME'Access,
N92_NAME'Access,
DEG_NAME'Access,
N94_NAME'Access,
DIAMS_NAME'Access,
DIVIDE_NAME'Access,
N97_NAME'Access,
N98_NAME'Access,
N99_NAME'Access,
EMPTY_NAME'Access,
EMSP_NAME'Access,
ENSP_NAME'Access,
N103_NAME'Access,
EQUIV_NAME'Access,
N105_NAME'Access,
N106_NAME'Access,
N107_NAME'Access,
EURO_NAME'Access,
EXIST_NAME'Access,
FNOF_NAME'Access,
FORALL_NAME'Access,
FRAC12_NAME'Access,
FRAC14_NAME'Access,
FRAC34_NAME'Access,
FRASL_NAME'Access,
N116_NAME'Access,
GE_NAME'Access,
GT_NAME'Access,
HARR_NAME'Access,
N120_NAME'Access,
HEARTS_NAME'Access,
HELLIP_NAME'Access,
N123_NAME'Access,
N124_NAME'Access,
IEXCL_NAME'Access,
N126_NAME'Access,
IMAGE_NAME'Access,
INFIN_NAME'Access,
INT_NAME'Access,
N130_NAME'Access,
IQUEST_NAME'Access,
ISIN_NAME'Access,
N133_NAME'Access,
N134_NAME'Access,
LARR_NAME'Access,
N136_NAME'Access,
LANG_NAME'Access,
LAQUO_NAME'Access,
N139_NAME'Access,
LCEIL_NAME'Access,
LDQUO_NAME'Access,
LE_NAME'Access,
LFLOOR_NAME'Access,
LOWAST_NAME'Access,
LOZ_NAME'Access,
LRM_NAME'Access,
LSAQUO_NAME'Access,
LSQUO_NAME'Access,
LT_NAME'Access,
MACR_NAME'Access,
MDASH_NAME'Access,
MICRO_NAME'Access,
MIDDOT_NAME'Access,
MINUS_NAME'Access,
N155_NAME'Access,
NABLA_NAME'Access,
NBSP_NAME'Access,
NDASH_NAME'Access,
NE_NAME'Access,
NI_NAME'Access,
NOT_NAME'Access,
NOTIN_NAME'Access,
NSUB_NAME'Access,
N164_NAME'Access,
N165_NAME'Access,
N166_NAME'Access,
N167_NAME'Access,
N168_NAME'Access,
N169_NAME'Access,
OLINE_NAME'Access,
N171_NAME'Access,
N172_NAME'Access,
OPLUS_NAME'Access,
OR_NAME'Access,
ORDF_NAME'Access,
ORDM_NAME'Access,
N177_NAME'Access,
N178_NAME'Access,
OTIMES_NAME'Access,
N180_NAME'Access,
PARA_NAME'Access,
PART_NAME'Access,
PERMIL_NAME'Access,
PERP_NAME'Access,
N185_NAME'Access,
N186_NAME'Access,
PIV_NAME'Access,
PLUSMN_NAME'Access,
POUND_NAME'Access,
N190_NAME'Access,
PROD_NAME'Access,
PROP_NAME'Access,
N193_NAME'Access,
QUOT_NAME'Access,
RARR_NAME'Access,
RADIC_NAME'Access,
RANG_NAME'Access,
RAQUO_NAME'Access,
N199_NAME'Access,
RCEIL_NAME'Access,
RDQUO_NAME'Access,
REAL_NAME'Access,
REG_NAME'Access,
RFLOOR_NAME'Access,
N205_NAME'Access,
RLM_NAME'Access,
RSAQUO_NAME'Access,
RSQUO_NAME'Access,
SBQUO_NAME'Access,
N210_NAME'Access,
SDOT_NAME'Access,
SECT_NAME'Access,
SHY_NAME'Access,
N214_NAME'Access,
SIGMAF_NAME'Access,
SIM_NAME'Access,
SPADES_NAME'Access,
SUB_NAME'Access,
SUBE_NAME'Access,
SUM_NAME'Access,
SUP_NAME'Access,
SUP1_NAME'Access,
SUP2_NAME'Access,
SUP3_NAME'Access,
SUPE_NAME'Access,
SZLIG_NAME'Access,
N227_NAME'Access,
THERE4_NAME'Access,
N229_NAME'Access,
THETASYM_NAME'Access,
THINSP_NAME'Access,
N232_NAME'Access,
TILDE_NAME'Access,
TIMES_NAME'Access,
TRADE_NAME'Access,
UARR_NAME'Access,
N237_NAME'Access,
N238_NAME'Access,
N239_NAME'Access,
N240_NAME'Access,
UML_NAME'Access,
UPSIH_NAME'Access,
N243_NAME'Access,
N244_NAME'Access,
WEIERP_NAME'Access,
N246_NAME'Access,
N247_NAME'Access,
YEN_NAME'Access,
N249_NAME'Access,
N250_NAME'Access,
ZWJ_NAME'Access,
ZWNJ_NAME'Access);
Mapping : constant Char_Array := (
Wide_Wide_Character'Val (198),
Wide_Wide_Character'Val (193),
Wide_Wide_Character'Val (194),
Wide_Wide_Character'Val (192),
Wide_Wide_Character'Val (913),
Wide_Wide_Character'Val (197),
Wide_Wide_Character'Val (195),
Wide_Wide_Character'Val (196),
Wide_Wide_Character'Val (914),
Wide_Wide_Character'Val (199),
Wide_Wide_Character'Val (935),
Wide_Wide_Character'Val (8225),
Wide_Wide_Character'Val (916),
Wide_Wide_Character'Val (208),
Wide_Wide_Character'Val (201),
Wide_Wide_Character'Val (202),
Wide_Wide_Character'Val (200),
Wide_Wide_Character'Val (917),
Wide_Wide_Character'Val (919),
Wide_Wide_Character'Val (203),
Wide_Wide_Character'Val (915),
Wide_Wide_Character'Val (205),
Wide_Wide_Character'Val (206),
Wide_Wide_Character'Val (204),
Wide_Wide_Character'Val (921),
Wide_Wide_Character'Val (207),
Wide_Wide_Character'Val (922),
Wide_Wide_Character'Val (923),
Wide_Wide_Character'Val (924),
Wide_Wide_Character'Val (209),
Wide_Wide_Character'Val (925),
Wide_Wide_Character'Val (338),
Wide_Wide_Character'Val (211),
Wide_Wide_Character'Val (212),
Wide_Wide_Character'Val (210),
Wide_Wide_Character'Val (937),
Wide_Wide_Character'Val (927),
Wide_Wide_Character'Val (216),
Wide_Wide_Character'Val (213),
Wide_Wide_Character'Val (214),
Wide_Wide_Character'Val (934),
Wide_Wide_Character'Val (928),
Wide_Wide_Character'Val (8243),
Wide_Wide_Character'Val (936),
Wide_Wide_Character'Val (929),
Wide_Wide_Character'Val (352),
Wide_Wide_Character'Val (931),
Wide_Wide_Character'Val (222),
Wide_Wide_Character'Val (932),
Wide_Wide_Character'Val (920),
Wide_Wide_Character'Val (218),
Wide_Wide_Character'Val (219),
Wide_Wide_Character'Val (217),
Wide_Wide_Character'Val (933),
Wide_Wide_Character'Val (220),
Wide_Wide_Character'Val (926),
Wide_Wide_Character'Val (221),
Wide_Wide_Character'Val (376),
Wide_Wide_Character'Val (918),
Wide_Wide_Character'Val (225),
Wide_Wide_Character'Val (226),
Wide_Wide_Character'Val (180),
Wide_Wide_Character'Val (230),
Wide_Wide_Character'Val (224),
Wide_Wide_Character'Val (8501),
Wide_Wide_Character'Val (945),
Wide_Wide_Character'Val (38),
Wide_Wide_Character'Val (8743),
Wide_Wide_Character'Val (8736),
Wide_Wide_Character'Val (39),
Wide_Wide_Character'Val (229),
Wide_Wide_Character'Val (8776),
Wide_Wide_Character'Val (227),
Wide_Wide_Character'Val (228),
Wide_Wide_Character'Val (8222),
Wide_Wide_Character'Val (946),
Wide_Wide_Character'Val (166),
Wide_Wide_Character'Val (8226),
Wide_Wide_Character'Val (8745),
Wide_Wide_Character'Val (231),
Wide_Wide_Character'Val (184),
Wide_Wide_Character'Val (162),
Wide_Wide_Character'Val (967),
Wide_Wide_Character'Val (710),
Wide_Wide_Character'Val (9827),
Wide_Wide_Character'Val (8773),
Wide_Wide_Character'Val (169),
Wide_Wide_Character'Val (8629),
Wide_Wide_Character'Val (8746),
Wide_Wide_Character'Val (164),
Wide_Wide_Character'Val (8659),
Wide_Wide_Character'Val (8224),
Wide_Wide_Character'Val (8595),
Wide_Wide_Character'Val (176),
Wide_Wide_Character'Val (948),
Wide_Wide_Character'Val (9830),
Wide_Wide_Character'Val (247),
Wide_Wide_Character'Val (233),
Wide_Wide_Character'Val (234),
Wide_Wide_Character'Val (232),
Wide_Wide_Character'Val (8709),
Wide_Wide_Character'Val (8195),
Wide_Wide_Character'Val (8194),
Wide_Wide_Character'Val (949),
Wide_Wide_Character'Val (8801),
Wide_Wide_Character'Val (951),
Wide_Wide_Character'Val (240),
Wide_Wide_Character'Val (235),
Wide_Wide_Character'Val (8364),
Wide_Wide_Character'Val (8707),
Wide_Wide_Character'Val (402),
Wide_Wide_Character'Val (8704),
Wide_Wide_Character'Val (189),
Wide_Wide_Character'Val (188),
Wide_Wide_Character'Val (190),
Wide_Wide_Character'Val (8260),
Wide_Wide_Character'Val (947),
Wide_Wide_Character'Val (8805),
Wide_Wide_Character'Val (62),
Wide_Wide_Character'Val (8660),
Wide_Wide_Character'Val (8596),
Wide_Wide_Character'Val (9829),
Wide_Wide_Character'Val (8230),
Wide_Wide_Character'Val (237),
Wide_Wide_Character'Val (238),
Wide_Wide_Character'Val (161),
Wide_Wide_Character'Val (236),
Wide_Wide_Character'Val (8465),
Wide_Wide_Character'Val (8734),
Wide_Wide_Character'Val (8747),
Wide_Wide_Character'Val (953),
Wide_Wide_Character'Val (191),
Wide_Wide_Character'Val (8712),
Wide_Wide_Character'Val (239),
Wide_Wide_Character'Val (954),
Wide_Wide_Character'Val (8656),
Wide_Wide_Character'Val (955),
Wide_Wide_Character'Val (9001),
Wide_Wide_Character'Val (171),
Wide_Wide_Character'Val (8592),
Wide_Wide_Character'Val (8968),
Wide_Wide_Character'Val (8220),
Wide_Wide_Character'Val (8804),
Wide_Wide_Character'Val (8970),
Wide_Wide_Character'Val (8727),
Wide_Wide_Character'Val (9674),
Wide_Wide_Character'Val (8206),
Wide_Wide_Character'Val (8249),
Wide_Wide_Character'Val (8216),
Wide_Wide_Character'Val (60),
Wide_Wide_Character'Val (175),
Wide_Wide_Character'Val (8212),
Wide_Wide_Character'Val (181),
Wide_Wide_Character'Val (183),
Wide_Wide_Character'Val (8722),
Wide_Wide_Character'Val (956),
Wide_Wide_Character'Val (8711),
Wide_Wide_Character'Val (160),
Wide_Wide_Character'Val (8211),
Wide_Wide_Character'Val (8800),
Wide_Wide_Character'Val (8715),
Wide_Wide_Character'Val (172),
Wide_Wide_Character'Val (8713),
Wide_Wide_Character'Val (8836),
Wide_Wide_Character'Val (241),
Wide_Wide_Character'Val (957),
Wide_Wide_Character'Val (243),
Wide_Wide_Character'Val (244),
Wide_Wide_Character'Val (339),
Wide_Wide_Character'Val (242),
Wide_Wide_Character'Val (8254),
Wide_Wide_Character'Val (969),
Wide_Wide_Character'Val (959),
Wide_Wide_Character'Val (8853),
Wide_Wide_Character'Val (8744),
Wide_Wide_Character'Val (170),
Wide_Wide_Character'Val (186),
Wide_Wide_Character'Val (248),
Wide_Wide_Character'Val (245),
Wide_Wide_Character'Val (8855),
Wide_Wide_Character'Val (246),
Wide_Wide_Character'Val (182),
Wide_Wide_Character'Val (8706),
Wide_Wide_Character'Val (8240),
Wide_Wide_Character'Val (8869),
Wide_Wide_Character'Val (966),
Wide_Wide_Character'Val (960),
Wide_Wide_Character'Val (982),
Wide_Wide_Character'Val (177),
Wide_Wide_Character'Val (163),
Wide_Wide_Character'Val (8242),
Wide_Wide_Character'Val (8719),
Wide_Wide_Character'Val (8733),
Wide_Wide_Character'Val (968),
Wide_Wide_Character'Val (34),
Wide_Wide_Character'Val (8658),
Wide_Wide_Character'Val (8730),
Wide_Wide_Character'Val (9002),
Wide_Wide_Character'Val (187),
Wide_Wide_Character'Val (8594),
Wide_Wide_Character'Val (8969),
Wide_Wide_Character'Val (8221),
Wide_Wide_Character'Val (8476),
Wide_Wide_Character'Val (174),
Wide_Wide_Character'Val (8971),
Wide_Wide_Character'Val (961),
Wide_Wide_Character'Val (8207),
Wide_Wide_Character'Val (8250),
Wide_Wide_Character'Val (8217),
Wide_Wide_Character'Val (8218),
Wide_Wide_Character'Val (353),
Wide_Wide_Character'Val (8901),
Wide_Wide_Character'Val (167),
Wide_Wide_Character'Val (173),
Wide_Wide_Character'Val (963),
Wide_Wide_Character'Val (962),
Wide_Wide_Character'Val (8764),
Wide_Wide_Character'Val (9824),
Wide_Wide_Character'Val (8834),
Wide_Wide_Character'Val (8838),
Wide_Wide_Character'Val (8721),
Wide_Wide_Character'Val (8835),
Wide_Wide_Character'Val (185),
Wide_Wide_Character'Val (178),
Wide_Wide_Character'Val (179),
Wide_Wide_Character'Val (8839),
Wide_Wide_Character'Val (223),
Wide_Wide_Character'Val (964),
Wide_Wide_Character'Val (8756),
Wide_Wide_Character'Val (952),
Wide_Wide_Character'Val (977),
Wide_Wide_Character'Val (8201),
Wide_Wide_Character'Val (254),
Wide_Wide_Character'Val (732),
Wide_Wide_Character'Val (215),
Wide_Wide_Character'Val (8482),
Wide_Wide_Character'Val (8657),
Wide_Wide_Character'Val (250),
Wide_Wide_Character'Val (8593),
Wide_Wide_Character'Val (251),
Wide_Wide_Character'Val (249),
Wide_Wide_Character'Val (168),
Wide_Wide_Character'Val (978),
Wide_Wide_Character'Val (965),
Wide_Wide_Character'Val (252),
Wide_Wide_Character'Val (8472),
Wide_Wide_Character'Val (958),
Wide_Wide_Character'Val (253),
Wide_Wide_Character'Val (165),
Wide_Wide_Character'Val (255),
Wide_Wide_Character'Val (950),
Wide_Wide_Character'Val (8205),
Wide_Wide_Character'Val (8204));
end Wiki.Parsers.Html.Entities;
| true | -- Generated by gen-ada-entities.pl latin1.ent symbol.ent special.ent
private package Wiki.Parsers.Html.Entities is
pragma Preelaborate;
AELIG_NAME : aliased constant String := "AElig";
AACUTE_NAME : aliased constant String := "Aacute";
ACIRC_NAME : aliased constant String := "Acirc";
AGRAVE_NAME : aliased constant String := "Agrave";
ALPHA_NAME : aliased constant String := "Alpha";
ARING_NAME : aliased constant String := "Aring";
ATILDE_NAME : aliased constant String := "Atilde";
AUML_NAME : aliased constant String := "Auml";
BETA_NAME : aliased constant String := "Beta";
CCEDIL_NAME : aliased constant String := "Ccedil";
CHI_NAME : aliased constant String := "Chi";
DAGGER_NAME : aliased constant String := "Dagger";
DELTA_NAME : aliased constant String := "Delta";
ETH_NAME : aliased constant String := "ETH";
EACUTE_NAME : aliased constant String := "Eacute";
ECIRC_NAME : aliased constant String := "Ecirc";
EGRAVE_NAME : aliased constant String := "Egrave";
EPSILON_NAME : aliased constant String := "Epsilon";
ETA_NAME : aliased constant String := "Eta";
EUML_NAME : aliased constant String := "Euml";
GAMMA_NAME : aliased constant String := "Gamma";
IACUTE_NAME : aliased constant String := "Iacute";
ICIRC_NAME : aliased constant String := "Icirc";
IGRAVE_NAME : aliased constant String := "Igrave";
IOTA_NAME : aliased constant String := "Iota";
IUML_NAME : aliased constant String := "Iuml";
KAPPA_NAME : aliased constant String := "Kappa";
LAMBDA_NAME : aliased constant String := "Lambda";
MU_NAME : aliased constant String := "Mu";
NTILDE_NAME : aliased constant String := "Ntilde";
NU_NAME : aliased constant String := "Nu";
OELIG_NAME : aliased constant String := "OElig";
OACUTE_NAME : aliased constant String := "Oacute";
OCIRC_NAME : aliased constant String := "Ocirc";
OGRAVE_NAME : aliased constant String := "Ograve";
OMEGA_NAME : aliased constant String := "Omega";
OMICRON_NAME : aliased constant String := "Omicron";
OSLASH_NAME : aliased constant String := "Oslash";
OTILDE_NAME : aliased constant String := "Otilde";
OUML_NAME : aliased constant String := "Ouml";
PHI_NAME : aliased constant String := "Phi";
PI_NAME : aliased constant String := "Pi";
PRIME_NAME : aliased constant String := "Prime";
PSI_NAME : aliased constant String := "Psi";
RHO_NAME : aliased constant String := "Rho";
SCARON_NAME : aliased constant String := "PI:NAME:<NAME>END_PI";
SIGMA_NAME : aliased constant String := "Sigma";
THORN_NAME : aliased constant String := "THORN";
TAU_NAME : aliased constant String := "Tau";
THETA_NAME : aliased constant String := "Theta";
UACUTE_NAME : aliased constant String := "Uacute";
UCIRC_NAME : aliased constant String := "Ucirc";
UGRAVE_NAME : aliased constant String := "Ugrave";
UPSILON_NAME : aliased constant String := "Upsilon";
UUML_NAME : aliased constant String := "Uuml";
XI_NAME : aliased constant String := "Xi";
YACUTE_NAME : aliased constant String := "Yacute";
YUML_NAME : aliased constant String := "Yuml";
ZETA_NAME : aliased constant String := "Zeta";
N59_NAME : aliased constant String := "aacute";
N60_NAME : aliased constant String := "acirc";
ACUTE_NAME : aliased constant String := "acute";
N62_NAME : aliased constant String := "aelig";
N63_NAME : aliased constant String := "agrave";
ALEFSYM_NAME : aliased constant String := "alefsym";
N65_NAME : aliased constant String := "alpha";
AMP_NAME : aliased constant String := "amp";
AND_NAME : aliased constant String := "and";
ANG_NAME : aliased constant String := "ang";
APOS_NAME : aliased constant String := "apos";
N70_NAME : aliased constant String := "aring";
ASYMP_NAME : aliased constant String := "asymp";
N72_NAME : aliased constant String := "atilde";
N73_NAME : aliased constant String := "auml";
BDQUO_NAME : aliased constant String := "bdquo";
N75_NAME : aliased constant String := "beta";
BRVBAR_NAME : aliased constant String := "brvbar";
BULL_NAME : aliased constant String := "bull";
CAP_NAME : aliased constant String := "cap";
N79_NAME : aliased constant String := "ccedil";
CEDIL_NAME : aliased constant String := "cedil";
CENT_NAME : aliased constant String := "cent";
N82_NAME : aliased constant String := "chi";
CIRC_NAME : aliased constant String := "circ";
CLUBS_NAME : aliased constant String := "clubs";
CONG_NAME : aliased constant String := "cong";
COPY_NAME : aliased constant String := "copy";
CRARR_NAME : aliased constant String := "crarr";
CUP_NAME : aliased constant String := "cup";
CURREN_NAME : aliased constant String := "curren";
DARR_NAME : aliased constant String := "dArr";
N91_NAME : aliased constant String := "dagger";
N92_NAME : aliased constant String := "darr";
DEG_NAME : aliased constant String := "deg";
N94_NAME : aliased constant String := "delta";
DIAMS_NAME : aliased constant String := "diams";
DIVIDE_NAME : aliased constant String := "divide";
N97_NAME : aliased constant String := "eacute";
N98_NAME : aliased constant String := "ecirc";
N99_NAME : aliased constant String := "egrave";
EMPTY_NAME : aliased constant String := "empty";
EMSP_NAME : aliased constant String := "emsp";
ENSP_NAME : aliased constant String := "ensp";
N103_NAME : aliased constant String := "epsilon";
EQUIV_NAME : aliased constant String := "equiv";
N105_NAME : aliased constant String := "eta";
N106_NAME : aliased constant String := "eth";
N107_NAME : aliased constant String := "euml";
EURO_NAME : aliased constant String := "euro";
EXIST_NAME : aliased constant String := "exist";
FNOF_NAME : aliased constant String := "fnof";
FORALL_NAME : aliased constant String := "forall";
FRAC12_NAME : aliased constant String := "frac12";
FRAC14_NAME : aliased constant String := "frac14";
FRAC34_NAME : aliased constant String := "frac34";
FRASL_NAME : aliased constant String := "frasl";
N116_NAME : aliased constant String := "gamma";
GE_NAME : aliased constant String := "ge";
GT_NAME : aliased constant String := "gt";
HARR_NAME : aliased constant String := "hArr";
N120_NAME : aliased constant String := "harr";
HEARTS_NAME : aliased constant String := "hearts";
HELLIP_NAME : aliased constant String := "hellip";
N123_NAME : aliased constant String := "iacute";
N124_NAME : aliased constant String := "icirc";
IEXCL_NAME : aliased constant String := "iexcl";
N126_NAME : aliased constant String := "igrave";
IMAGE_NAME : aliased constant String := "image";
INFIN_NAME : aliased constant String := "infin";
INT_NAME : aliased constant String := "int";
N130_NAME : aliased constant String := "iota";
IQUEST_NAME : aliased constant String := "iquest";
ISIN_NAME : aliased constant String := "isin";
N133_NAME : aliased constant String := "iuml";
N134_NAME : aliased constant String := "kappa";
LARR_NAME : aliased constant String := "lArr";
N136_NAME : aliased constant String := "lambda";
LANG_NAME : aliased constant String := "lang";
LAQUO_NAME : aliased constant String := "laquo";
N139_NAME : aliased constant String := "larr";
LCEIL_NAME : aliased constant String := "lceil";
LDQUO_NAME : aliased constant String := "ldquo";
LE_NAME : aliased constant String := "le";
LFLOOR_NAME : aliased constant String := "lfloor";
LOWAST_NAME : aliased constant String := "lowast";
LOZ_NAME : aliased constant String := "loz";
LRM_NAME : aliased constant String := "lrm";
LSAQUO_NAME : aliased constant String := "lsaquo";
LSQUO_NAME : aliased constant String := "lsquo";
LT_NAME : aliased constant String := "lt";
MACR_NAME : aliased constant String := "macr";
MDASH_NAME : aliased constant String := "mdash";
MICRO_NAME : aliased constant String := "micro";
MIDDOT_NAME : aliased constant String := "middot";
MINUS_NAME : aliased constant String := "minus";
N155_NAME : aliased constant String := "mu";
NABLA_NAME : aliased constant String := "nabla";
NBSP_NAME : aliased constant String := "nbsp";
NDASH_NAME : aliased constant String := "ndash";
NE_NAME : aliased constant String := "ne";
NI_NAME : aliased constant String := "ni";
NOT_NAME : aliased constant String := "not";
NOTIN_NAME : aliased constant String := "notin";
NSUB_NAME : aliased constant String := "nsub";
N164_NAME : aliased constant String := "ntilde";
N165_NAME : aliased constant String := "nu";
N166_NAME : aliased constant String := "oacute";
N167_NAME : aliased constant String := "ocirc";
N168_NAME : aliased constant String := "oelig";
N169_NAME : aliased constant String := "ograve";
OLINE_NAME : aliased constant String := "oline";
N171_NAME : aliased constant String := "omega";
N172_NAME : aliased constant String := "omicron";
OPLUS_NAME : aliased constant String := "oplus";
OR_NAME : aliased constant String := "or";
ORDF_NAME : aliased constant String := "ordf";
ORDM_NAME : aliased constant String := "ordm";
N177_NAME : aliased constant String := "oslash";
N178_NAME : aliased constant String := "otilde";
OTIMES_NAME : aliased constant String := "otimes";
N180_NAME : aliased constant String := "ouml";
PARA_NAME : aliased constant String := "para";
PART_NAME : aliased constant String := "part";
PERMIL_NAME : aliased constant String := "permil";
PERP_NAME : aliased constant String := "perp";
N185_NAME : aliased constant String := "phi";
N186_NAME : aliased constant String := "pi";
PIV_NAME : aliased constant String := "piv";
PLUSMN_NAME : aliased constant String := "plusmn";
POUND_NAME : aliased constant String := "pound";
N190_NAME : aliased constant String := "prime";
PROD_NAME : aliased constant String := "prod";
PROP_NAME : aliased constant String := "prop";
N193_NAME : aliased constant String := "psi";
QUOT_NAME : aliased constant String := "quot";
RARR_NAME : aliased constant String := "rArr";
RADIC_NAME : aliased constant String := "radic";
RANG_NAME : aliased constant String := "rang";
RAQUO_NAME : aliased constant String := "raquo";
N199_NAME : aliased constant String := "rarr";
RCEIL_NAME : aliased constant String := "rceil";
RDQUO_NAME : aliased constant String := "rdquo";
REAL_NAME : aliased constant String := "real";
REG_NAME : aliased constant String := "reg";
RFLOOR_NAME : aliased constant String := "rfloor";
N205_NAME : aliased constant String := "rho";
RLM_NAME : aliased constant String := "rlm";
RSAQUO_NAME : aliased constant String := "rsaquo";
RSQUO_NAME : aliased constant String := "rsquo";
SBQUO_NAME : aliased constant String := "sbquo";
N210_NAME : aliased constant String := "PI:NAME:<NAME>END_PI";
SDOT_NAME : aliased constant String := "sdot";
SECT_NAME : aliased constant String := "sect";
SHY_NAME : aliased constant String := "shy";
N214_NAME : aliased constant String := "sigma";
SIGMAF_NAME : aliased constant String := "sigmaf";
SIM_NAME : aliased constant String := "sim";
SPADES_NAME : aliased constant String := "spades";
SUB_NAME : aliased constant String := "sub";
SUBE_NAME : aliased constant String := "sube";
SUM_NAME : aliased constant String := "sum";
SUP_NAME : aliased constant String := "sup";
SUP1_NAME : aliased constant String := "sup1";
SUP2_NAME : aliased constant String := "sup2";
SUP3_NAME : aliased constant String := "sup3";
SUPE_NAME : aliased constant String := "supe";
SZLIG_NAME : aliased constant String := "szlig";
N227_NAME : aliased constant String := "tau";
THERE4_NAME : aliased constant String := "there4";
N229_NAME : aliased constant String := "theta";
THETASYM_NAME : aliased constant String := "thetasym";
THINSP_NAME : aliased constant String := "thinsp";
N232_NAME : aliased constant String := "thorn";
TILDE_NAME : aliased constant String := "tilde";
TIMES_NAME : aliased constant String := "times";
TRADE_NAME : aliased constant String := "trade";
UARR_NAME : aliased constant String := "uArr";
N237_NAME : aliased constant String := "uacute";
N238_NAME : aliased constant String := "uarr";
N239_NAME : aliased constant String := "ucirc";
N240_NAME : aliased constant String := "ugrave";
UML_NAME : aliased constant String := "uml";
UPSIH_NAME : aliased constant String := "upsih";
N243_NAME : aliased constant String := "upsilon";
N244_NAME : aliased constant String := "uuml";
WEIERP_NAME : aliased constant String := "weierp";
N246_NAME : aliased constant String := "xi";
N247_NAME : aliased constant String := "yacute";
YEN_NAME : aliased constant String := "yen";
N249_NAME : aliased constant String := "yuml";
N250_NAME : aliased constant String := "zeta";
ZWJ_NAME : aliased constant String := "zwj";
ZWNJ_NAME : aliased constant String := "zwnj";
type String_Access is access constant String;
type Keyword_Array is array (Positive range 1 .. 253) of String_Access;
type Char_Array is array (Positive range 1 .. 253) of Wide_Wide_Character;
Keywords : constant Keyword_Array := (
AELIG_NAME'Access,
AACUTE_NAME'Access,
ACIRC_NAME'Access,
AGRAVE_NAME'Access,
ALPHA_NAME'Access,
ARING_NAME'Access,
ATILDE_NAME'Access,
AUML_NAME'Access,
BETA_NAME'Access,
CCEDIL_NAME'Access,
CHI_NAME'Access,
DAGGER_NAME'Access,
DELTA_NAME'Access,
ETH_NAME'Access,
EACUTE_NAME'Access,
ECIRC_NAME'Access,
EGRAVE_NAME'Access,
EPSILON_NAME'Access,
ETA_NAME'Access,
EUML_NAME'Access,
GAMMA_NAME'Access,
IACUTE_NAME'Access,
ICIRC_NAME'Access,
IGRAVE_NAME'Access,
IOTA_NAME'Access,
IUML_NAME'Access,
KAPPA_NAME'Access,
LAMBDA_NAME'Access,
MU_NAME'Access,
NTILDE_NAME'Access,
NU_NAME'Access,
OELIG_NAME'Access,
OACUTE_NAME'Access,
OCIRC_NAME'Access,
OGRAVE_NAME'Access,
OMEGA_NAME'Access,
OMICRON_NAME'Access,
OSLASH_NAME'Access,
OTILDE_NAME'Access,
OUML_NAME'Access,
PHI_NAME'Access,
PI_NAME'Access,
PRIME_NAME'Access,
PSI_NAME'Access,
RHO_NAME'Access,
SCARON_NAME'Access,
SIGMA_NAME'Access,
THORN_NAME'Access,
TAU_NAME'Access,
THETA_NAME'Access,
UACUTE_NAME'Access,
UCIRC_NAME'Access,
UGRAVE_NAME'Access,
UPSILON_NAME'Access,
UUML_NAME'Access,
XI_NAME'Access,
YACUTE_NAME'Access,
YUML_NAME'Access,
ZETA_NAME'Access,
N59_NAME'Access,
N60_NAME'Access,
ACUTE_NAME'Access,
N62_NAME'Access,
N63_NAME'Access,
ALEFSYM_NAME'Access,
N65_NAME'Access,
AMP_NAME'Access,
AND_NAME'Access,
ANG_NAME'Access,
APOS_NAME'Access,
N70_NAME'Access,
ASYMP_NAME'Access,
N72_NAME'Access,
N73_NAME'Access,
BDQUO_NAME'Access,
N75_NAME'Access,
BRVBAR_NAME'Access,
BULL_NAME'Access,
CAP_NAME'Access,
N79_NAME'Access,
CEDIL_NAME'Access,
CENT_NAME'Access,
N82_NAME'Access,
CIRC_NAME'Access,
CLUBS_NAME'Access,
CONG_NAME'Access,
COPY_NAME'Access,
CRARR_NAME'Access,
CUP_NAME'Access,
CURREN_NAME'Access,
DARR_NAME'Access,
N91_NAME'Access,
N92_NAME'Access,
DEG_NAME'Access,
N94_NAME'Access,
DIAMS_NAME'Access,
DIVIDE_NAME'Access,
N97_NAME'Access,
N98_NAME'Access,
N99_NAME'Access,
EMPTY_NAME'Access,
EMSP_NAME'Access,
ENSP_NAME'Access,
N103_NAME'Access,
EQUIV_NAME'Access,
N105_NAME'Access,
N106_NAME'Access,
N107_NAME'Access,
EURO_NAME'Access,
EXIST_NAME'Access,
FNOF_NAME'Access,
FORALL_NAME'Access,
FRAC12_NAME'Access,
FRAC14_NAME'Access,
FRAC34_NAME'Access,
FRASL_NAME'Access,
N116_NAME'Access,
GE_NAME'Access,
GT_NAME'Access,
HARR_NAME'Access,
N120_NAME'Access,
HEARTS_NAME'Access,
HELLIP_NAME'Access,
N123_NAME'Access,
N124_NAME'Access,
IEXCL_NAME'Access,
N126_NAME'Access,
IMAGE_NAME'Access,
INFIN_NAME'Access,
INT_NAME'Access,
N130_NAME'Access,
IQUEST_NAME'Access,
ISIN_NAME'Access,
N133_NAME'Access,
N134_NAME'Access,
LARR_NAME'Access,
N136_NAME'Access,
LANG_NAME'Access,
LAQUO_NAME'Access,
N139_NAME'Access,
LCEIL_NAME'Access,
LDQUO_NAME'Access,
LE_NAME'Access,
LFLOOR_NAME'Access,
LOWAST_NAME'Access,
LOZ_NAME'Access,
LRM_NAME'Access,
LSAQUO_NAME'Access,
LSQUO_NAME'Access,
LT_NAME'Access,
MACR_NAME'Access,
MDASH_NAME'Access,
MICRO_NAME'Access,
MIDDOT_NAME'Access,
MINUS_NAME'Access,
N155_NAME'Access,
NABLA_NAME'Access,
NBSP_NAME'Access,
NDASH_NAME'Access,
NE_NAME'Access,
NI_NAME'Access,
NOT_NAME'Access,
NOTIN_NAME'Access,
NSUB_NAME'Access,
N164_NAME'Access,
N165_NAME'Access,
N166_NAME'Access,
N167_NAME'Access,
N168_NAME'Access,
N169_NAME'Access,
OLINE_NAME'Access,
N171_NAME'Access,
N172_NAME'Access,
OPLUS_NAME'Access,
OR_NAME'Access,
ORDF_NAME'Access,
ORDM_NAME'Access,
N177_NAME'Access,
N178_NAME'Access,
OTIMES_NAME'Access,
N180_NAME'Access,
PARA_NAME'Access,
PART_NAME'Access,
PERMIL_NAME'Access,
PERP_NAME'Access,
N185_NAME'Access,
N186_NAME'Access,
PIV_NAME'Access,
PLUSMN_NAME'Access,
POUND_NAME'Access,
N190_NAME'Access,
PROD_NAME'Access,
PROP_NAME'Access,
N193_NAME'Access,
QUOT_NAME'Access,
RARR_NAME'Access,
RADIC_NAME'Access,
RANG_NAME'Access,
RAQUO_NAME'Access,
N199_NAME'Access,
RCEIL_NAME'Access,
RDQUO_NAME'Access,
REAL_NAME'Access,
REG_NAME'Access,
RFLOOR_NAME'Access,
N205_NAME'Access,
RLM_NAME'Access,
RSAQUO_NAME'Access,
RSQUO_NAME'Access,
SBQUO_NAME'Access,
N210_NAME'Access,
SDOT_NAME'Access,
SECT_NAME'Access,
SHY_NAME'Access,
N214_NAME'Access,
SIGMAF_NAME'Access,
SIM_NAME'Access,
SPADES_NAME'Access,
SUB_NAME'Access,
SUBE_NAME'Access,
SUM_NAME'Access,
SUP_NAME'Access,
SUP1_NAME'Access,
SUP2_NAME'Access,
SUP3_NAME'Access,
SUPE_NAME'Access,
SZLIG_NAME'Access,
N227_NAME'Access,
THERE4_NAME'Access,
N229_NAME'Access,
THETASYM_NAME'Access,
THINSP_NAME'Access,
N232_NAME'Access,
TILDE_NAME'Access,
TIMES_NAME'Access,
TRADE_NAME'Access,
UARR_NAME'Access,
N237_NAME'Access,
N238_NAME'Access,
N239_NAME'Access,
N240_NAME'Access,
UML_NAME'Access,
UPSIH_NAME'Access,
N243_NAME'Access,
N244_NAME'Access,
WEIERP_NAME'Access,
N246_NAME'Access,
N247_NAME'Access,
YEN_NAME'Access,
N249_NAME'Access,
N250_NAME'Access,
ZWJ_NAME'Access,
ZWNJ_NAME'Access);
Mapping : constant Char_Array := (
Wide_Wide_Character'Val (198),
Wide_Wide_Character'Val (193),
Wide_Wide_Character'Val (194),
Wide_Wide_Character'Val (192),
Wide_Wide_Character'Val (913),
Wide_Wide_Character'Val (197),
Wide_Wide_Character'Val (195),
Wide_Wide_Character'Val (196),
Wide_Wide_Character'Val (914),
Wide_Wide_Character'Val (199),
Wide_Wide_Character'Val (935),
Wide_Wide_Character'Val (8225),
Wide_Wide_Character'Val (916),
Wide_Wide_Character'Val (208),
Wide_Wide_Character'Val (201),
Wide_Wide_Character'Val (202),
Wide_Wide_Character'Val (200),
Wide_Wide_Character'Val (917),
Wide_Wide_Character'Val (919),
Wide_Wide_Character'Val (203),
Wide_Wide_Character'Val (915),
Wide_Wide_Character'Val (205),
Wide_Wide_Character'Val (206),
Wide_Wide_Character'Val (204),
Wide_Wide_Character'Val (921),
Wide_Wide_Character'Val (207),
Wide_Wide_Character'Val (922),
Wide_Wide_Character'Val (923),
Wide_Wide_Character'Val (924),
Wide_Wide_Character'Val (209),
Wide_Wide_Character'Val (925),
Wide_Wide_Character'Val (338),
Wide_Wide_Character'Val (211),
Wide_Wide_Character'Val (212),
Wide_Wide_Character'Val (210),
Wide_Wide_Character'Val (937),
Wide_Wide_Character'Val (927),
Wide_Wide_Character'Val (216),
Wide_Wide_Character'Val (213),
Wide_Wide_Character'Val (214),
Wide_Wide_Character'Val (934),
Wide_Wide_Character'Val (928),
Wide_Wide_Character'Val (8243),
Wide_Wide_Character'Val (936),
Wide_Wide_Character'Val (929),
Wide_Wide_Character'Val (352),
Wide_Wide_Character'Val (931),
Wide_Wide_Character'Val (222),
Wide_Wide_Character'Val (932),
Wide_Wide_Character'Val (920),
Wide_Wide_Character'Val (218),
Wide_Wide_Character'Val (219),
Wide_Wide_Character'Val (217),
Wide_Wide_Character'Val (933),
Wide_Wide_Character'Val (220),
Wide_Wide_Character'Val (926),
Wide_Wide_Character'Val (221),
Wide_Wide_Character'Val (376),
Wide_Wide_Character'Val (918),
Wide_Wide_Character'Val (225),
Wide_Wide_Character'Val (226),
Wide_Wide_Character'Val (180),
Wide_Wide_Character'Val (230),
Wide_Wide_Character'Val (224),
Wide_Wide_Character'Val (8501),
Wide_Wide_Character'Val (945),
Wide_Wide_Character'Val (38),
Wide_Wide_Character'Val (8743),
Wide_Wide_Character'Val (8736),
Wide_Wide_Character'Val (39),
Wide_Wide_Character'Val (229),
Wide_Wide_Character'Val (8776),
Wide_Wide_Character'Val (227),
Wide_Wide_Character'Val (228),
Wide_Wide_Character'Val (8222),
Wide_Wide_Character'Val (946),
Wide_Wide_Character'Val (166),
Wide_Wide_Character'Val (8226),
Wide_Wide_Character'Val (8745),
Wide_Wide_Character'Val (231),
Wide_Wide_Character'Val (184),
Wide_Wide_Character'Val (162),
Wide_Wide_Character'Val (967),
Wide_Wide_Character'Val (710),
Wide_Wide_Character'Val (9827),
Wide_Wide_Character'Val (8773),
Wide_Wide_Character'Val (169),
Wide_Wide_Character'Val (8629),
Wide_Wide_Character'Val (8746),
Wide_Wide_Character'Val (164),
Wide_Wide_Character'Val (8659),
Wide_Wide_Character'Val (8224),
Wide_Wide_Character'Val (8595),
Wide_Wide_Character'Val (176),
Wide_Wide_Character'Val (948),
Wide_Wide_Character'Val (9830),
Wide_Wide_Character'Val (247),
Wide_Wide_Character'Val (233),
Wide_Wide_Character'Val (234),
Wide_Wide_Character'Val (232),
Wide_Wide_Character'Val (8709),
Wide_Wide_Character'Val (8195),
Wide_Wide_Character'Val (8194),
Wide_Wide_Character'Val (949),
Wide_Wide_Character'Val (8801),
Wide_Wide_Character'Val (951),
Wide_Wide_Character'Val (240),
Wide_Wide_Character'Val (235),
Wide_Wide_Character'Val (8364),
Wide_Wide_Character'Val (8707),
Wide_Wide_Character'Val (402),
Wide_Wide_Character'Val (8704),
Wide_Wide_Character'Val (189),
Wide_Wide_Character'Val (188),
Wide_Wide_Character'Val (190),
Wide_Wide_Character'Val (8260),
Wide_Wide_Character'Val (947),
Wide_Wide_Character'Val (8805),
Wide_Wide_Character'Val (62),
Wide_Wide_Character'Val (8660),
Wide_Wide_Character'Val (8596),
Wide_Wide_Character'Val (9829),
Wide_Wide_Character'Val (8230),
Wide_Wide_Character'Val (237),
Wide_Wide_Character'Val (238),
Wide_Wide_Character'Val (161),
Wide_Wide_Character'Val (236),
Wide_Wide_Character'Val (8465),
Wide_Wide_Character'Val (8734),
Wide_Wide_Character'Val (8747),
Wide_Wide_Character'Val (953),
Wide_Wide_Character'Val (191),
Wide_Wide_Character'Val (8712),
Wide_Wide_Character'Val (239),
Wide_Wide_Character'Val (954),
Wide_Wide_Character'Val (8656),
Wide_Wide_Character'Val (955),
Wide_Wide_Character'Val (9001),
Wide_Wide_Character'Val (171),
Wide_Wide_Character'Val (8592),
Wide_Wide_Character'Val (8968),
Wide_Wide_Character'Val (8220),
Wide_Wide_Character'Val (8804),
Wide_Wide_Character'Val (8970),
Wide_Wide_Character'Val (8727),
Wide_Wide_Character'Val (9674),
Wide_Wide_Character'Val (8206),
Wide_Wide_Character'Val (8249),
Wide_Wide_Character'Val (8216),
Wide_Wide_Character'Val (60),
Wide_Wide_Character'Val (175),
Wide_Wide_Character'Val (8212),
Wide_Wide_Character'Val (181),
Wide_Wide_Character'Val (183),
Wide_Wide_Character'Val (8722),
Wide_Wide_Character'Val (956),
Wide_Wide_Character'Val (8711),
Wide_Wide_Character'Val (160),
Wide_Wide_Character'Val (8211),
Wide_Wide_Character'Val (8800),
Wide_Wide_Character'Val (8715),
Wide_Wide_Character'Val (172),
Wide_Wide_Character'Val (8713),
Wide_Wide_Character'Val (8836),
Wide_Wide_Character'Val (241),
Wide_Wide_Character'Val (957),
Wide_Wide_Character'Val (243),
Wide_Wide_Character'Val (244),
Wide_Wide_Character'Val (339),
Wide_Wide_Character'Val (242),
Wide_Wide_Character'Val (8254),
Wide_Wide_Character'Val (969),
Wide_Wide_Character'Val (959),
Wide_Wide_Character'Val (8853),
Wide_Wide_Character'Val (8744),
Wide_Wide_Character'Val (170),
Wide_Wide_Character'Val (186),
Wide_Wide_Character'Val (248),
Wide_Wide_Character'Val (245),
Wide_Wide_Character'Val (8855),
Wide_Wide_Character'Val (246),
Wide_Wide_Character'Val (182),
Wide_Wide_Character'Val (8706),
Wide_Wide_Character'Val (8240),
Wide_Wide_Character'Val (8869),
Wide_Wide_Character'Val (966),
Wide_Wide_Character'Val (960),
Wide_Wide_Character'Val (982),
Wide_Wide_Character'Val (177),
Wide_Wide_Character'Val (163),
Wide_Wide_Character'Val (8242),
Wide_Wide_Character'Val (8719),
Wide_Wide_Character'Val (8733),
Wide_Wide_Character'Val (968),
Wide_Wide_Character'Val (34),
Wide_Wide_Character'Val (8658),
Wide_Wide_Character'Val (8730),
Wide_Wide_Character'Val (9002),
Wide_Wide_Character'Val (187),
Wide_Wide_Character'Val (8594),
Wide_Wide_Character'Val (8969),
Wide_Wide_Character'Val (8221),
Wide_Wide_Character'Val (8476),
Wide_Wide_Character'Val (174),
Wide_Wide_Character'Val (8971),
Wide_Wide_Character'Val (961),
Wide_Wide_Character'Val (8207),
Wide_Wide_Character'Val (8250),
Wide_Wide_Character'Val (8217),
Wide_Wide_Character'Val (8218),
Wide_Wide_Character'Val (353),
Wide_Wide_Character'Val (8901),
Wide_Wide_Character'Val (167),
Wide_Wide_Character'Val (173),
Wide_Wide_Character'Val (963),
Wide_Wide_Character'Val (962),
Wide_Wide_Character'Val (8764),
Wide_Wide_Character'Val (9824),
Wide_Wide_Character'Val (8834),
Wide_Wide_Character'Val (8838),
Wide_Wide_Character'Val (8721),
Wide_Wide_Character'Val (8835),
Wide_Wide_Character'Val (185),
Wide_Wide_Character'Val (178),
Wide_Wide_Character'Val (179),
Wide_Wide_Character'Val (8839),
Wide_Wide_Character'Val (223),
Wide_Wide_Character'Val (964),
Wide_Wide_Character'Val (8756),
Wide_Wide_Character'Val (952),
Wide_Wide_Character'Val (977),
Wide_Wide_Character'Val (8201),
Wide_Wide_Character'Val (254),
Wide_Wide_Character'Val (732),
Wide_Wide_Character'Val (215),
Wide_Wide_Character'Val (8482),
Wide_Wide_Character'Val (8657),
Wide_Wide_Character'Val (250),
Wide_Wide_Character'Val (8593),
Wide_Wide_Character'Val (251),
Wide_Wide_Character'Val (249),
Wide_Wide_Character'Val (168),
Wide_Wide_Character'Val (978),
Wide_Wide_Character'Val (965),
Wide_Wide_Character'Val (252),
Wide_Wide_Character'Val (8472),
Wide_Wide_Character'Val (958),
Wide_Wide_Character'Val (253),
Wide_Wide_Character'Val (165),
Wide_Wide_Character'Val (255),
Wide_Wide_Character'Val (950),
Wide_Wide_Character'Val (8205),
Wide_Wide_Character'Val (8204));
end Wiki.Parsers.Html.Entities;
|
[
{
"context": "\n-- source at http://pastebin.com/ZhgRacMr\n--\n-- Baldrick on #ada provided an implementation of Murmur3.\n--",
"end": 132,
"score": 0.9803127646446228,
"start": 124,
"tag": "NAME",
"value": "Baldrick"
},
{
"context": "enience functions.\n--\n-- license: asked on #ada (Baldrick, 2014-04-07): public domain\n\nwith Ada.Unchecked_C",
"end": 294,
"score": 0.9210233092308044,
"start": 286,
"tag": "NAME",
"value": "Baldrick"
}
] | benchmark/hashing.adb | skill-lang/skillAdaTestSuite | 1 | -- MURMUR3
--
-- taken from http://commons.ada.cx/Deterministic_Hashing
-- source at http://pastebin.com/ZhgRacMr
--
-- Baldrick on #ada provided an implementation of Murmur3.
-- Generic_Murmur3 is the core logic, the rest are convenience functions.
--
-- license: asked on #ada (Baldrick, 2014-04-07): public domain
with Ada.Unchecked_Conversion;
package body Hashing is
use Ada.Containers;
use System.Storage_Elements;
use System;
-- The hashes are all implemented using the storage array hash.
pragma Assert (Storage_Element'Size = 8);
-- We assume that a Storage_Element is essentially the same as an octet.
pragma Assert (Hash_Type'Size = 32);
-- Currently we only support hashing to a 32 bit value.
pragma Assert (Default_Bit_Order = Low_Order_First);
-- Currently we only support little-endian machines. The implementation may
-- actually be OK for big-endian machines too, but this needs to be checked.
function Rotate_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Rotate_Left);
function Shift_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Left);
function Shift_Right (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Right);
---------------------
-- Generic_Murmur3 --
---------------------
generic
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type;
pragma Inline (Generic_Murmur3);
-- This is MurmurHash3_x86_32. Making this generic is a trick that gives
-- us a way of forcing the compiler to inline the code into any generics
-- that use it.
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type is
pragma Suppress (All_Checks);
subtype Store4 is Storage_Array (1 .. 4);
function FMix32 (H : Hash_Type) return Hash_Type;
pragma Inline (FMix32);
-- Finalization mix - force all bits of a hash block to avalanche.
function FMix32 (H : Hash_Type) return Hash_Type is
R : Hash_Type := H;
begin
R := R xor Shift_Right (R, 16);
R := R * 16#85ebca6b#;
R := R xor Shift_Right (R, 13);
R := R * 16#c2b2ae35#;
R := R xor Shift_Right (R, 16);
return R;
end FMix32;
function Get_Block_32 is new Ada.Unchecked_Conversion
(Store4,
Hash_Type);
C1 : constant Hash_Type := 16#cc9e2d51#;
C2 : constant Hash_Type := 16#1b873593#;
NBlocks : constant Storage_Count := S'Length / 4;
H1 : Hash_Type := Seed;
begin
-- Body.
for I in 0 .. NBlocks - 1 loop
declare
Offset : constant Storage_Count := 4 * I;
First : constant Storage_Offset := S'First + Offset;
Last : constant Storage_Offset := First + 3;
K1 : Hash_Type := Get_Block_32 (S (First .. Last));
begin
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
H1 := Rotate_Left (H1, 13);
H1 := H1 * 5 + 16#e6546b64#;
end;
end loop;
-- Tail.
declare
Offset : constant Storage_Count := 4 * NBlocks;
Left : constant Storage_Count := S'Length - Offset;
Base : constant Storage_Offset := S'First + Offset;
K1 : Hash_Type := 0;
begin
if Left >= 3 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 2)), 16);
end if;
if Left >= 2 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 1)), 8);
end if;
if Left >= 1 then
K1 := K1 xor Storage_Element'Pos (S (Base));
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
end if;
end;
-- Finalization.
H1 := H1 xor S'Length;
H1 := FMix32 (H1);
return H1;
end Generic_Murmur3;
-------------
-- Murmur3 --
-------------
function Murmur3 is new Generic_Murmur3;
----------
-- Hash --
----------
function Hash
(S : Storage_Array;
Seed : Hash_Type)
return Hash_Type renames
Murmur3;
function Hash (A : Address; Seed : Hash_Type) return Hash_Type is
subtype St is Storage_Array (1 .. Address'Object_Size / 8);
function To_Storage is new Ada.Unchecked_Conversion (Address, St);
begin
return Hash (To_Storage (A), Seed);
end Hash;
----------------------------
-- Anonymous_Pointer_Hash --
----------------------------
function Anonymous_Pointer_Hash (
Pointer : access constant Any_Type;
Seed : Hash_Type
) return Hash_Type
is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Anonymous_Pointer_Hash;
----------------------
-- All_Pointer_Hash --
----------------------
function All_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end All_Pointer_Hash;
---------------------------
-- Constant_Pointer_Hash --
---------------------------
function Constant_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Constant_Pointer_Hash;
-------------------
-- Discrete_Hash --
-------------------
function Discrete_Hash (
Value : T;
Seed : Hash_Type
) return Hash_Type is
-- The problem here is that a T might not fill up a byte (or an integer
-- number of bytes) - think of Boolean. To solve this, we create a null-
-- initialized storage area on the stack that is large enough to store a
-- T to. We then store Value to it, and hash the storage.
subtype St_Type is Storage_Array (1 .. T'Object_Size / 8);
St : aliased St_Type := (others => 0);
-- The null-initialized storage.
-- To store Value to St, we take a pointer to St, change it into a
-- pointer to type T, and store Value through it.
type St_Pointer is access all St_Type;
for St_Pointer'Storage_Size use 0;
type T_Pointer is access all T;
for T_Pointer'Storage_Size use 0;
function To_T is new Ada.Unchecked_Conversion (St_Pointer, T_Pointer);
function M3 is new Generic_Murmur3;
-- Instantiate our own copy of Murmur3 to make sure it gets inlined, as
-- this leads to many simplifications due to the length of the storage
-- being known.
begin
-- Store Value to the storage area.
To_T (St'Access).all := Value;
-- Hash the storage area.
return M3 (St, Seed);
end Discrete_Hash;
------------------
-- Pointer_Hash --
------------------
function Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Pointer_Hash;
end Hashing;
| 13463 | -- MURMUR3
--
-- taken from http://commons.ada.cx/Deterministic_Hashing
-- source at http://pastebin.com/ZhgRacMr
--
-- <NAME> on #ada provided an implementation of Murmur3.
-- Generic_Murmur3 is the core logic, the rest are convenience functions.
--
-- license: asked on #ada (<NAME>, 2014-04-07): public domain
with Ada.Unchecked_Conversion;
package body Hashing is
use Ada.Containers;
use System.Storage_Elements;
use System;
-- The hashes are all implemented using the storage array hash.
pragma Assert (Storage_Element'Size = 8);
-- We assume that a Storage_Element is essentially the same as an octet.
pragma Assert (Hash_Type'Size = 32);
-- Currently we only support hashing to a 32 bit value.
pragma Assert (Default_Bit_Order = Low_Order_First);
-- Currently we only support little-endian machines. The implementation may
-- actually be OK for big-endian machines too, but this needs to be checked.
function Rotate_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Rotate_Left);
function Shift_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Left);
function Shift_Right (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Right);
---------------------
-- Generic_Murmur3 --
---------------------
generic
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type;
pragma Inline (Generic_Murmur3);
-- This is MurmurHash3_x86_32. Making this generic is a trick that gives
-- us a way of forcing the compiler to inline the code into any generics
-- that use it.
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type is
pragma Suppress (All_Checks);
subtype Store4 is Storage_Array (1 .. 4);
function FMix32 (H : Hash_Type) return Hash_Type;
pragma Inline (FMix32);
-- Finalization mix - force all bits of a hash block to avalanche.
function FMix32 (H : Hash_Type) return Hash_Type is
R : Hash_Type := H;
begin
R := R xor Shift_Right (R, 16);
R := R * 16#85ebca6b#;
R := R xor Shift_Right (R, 13);
R := R * 16#c2b2ae35#;
R := R xor Shift_Right (R, 16);
return R;
end FMix32;
function Get_Block_32 is new Ada.Unchecked_Conversion
(Store4,
Hash_Type);
C1 : constant Hash_Type := 16#cc9e2d51#;
C2 : constant Hash_Type := 16#1b873593#;
NBlocks : constant Storage_Count := S'Length / 4;
H1 : Hash_Type := Seed;
begin
-- Body.
for I in 0 .. NBlocks - 1 loop
declare
Offset : constant Storage_Count := 4 * I;
First : constant Storage_Offset := S'First + Offset;
Last : constant Storage_Offset := First + 3;
K1 : Hash_Type := Get_Block_32 (S (First .. Last));
begin
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
H1 := Rotate_Left (H1, 13);
H1 := H1 * 5 + 16#e6546b64#;
end;
end loop;
-- Tail.
declare
Offset : constant Storage_Count := 4 * NBlocks;
Left : constant Storage_Count := S'Length - Offset;
Base : constant Storage_Offset := S'First + Offset;
K1 : Hash_Type := 0;
begin
if Left >= 3 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 2)), 16);
end if;
if Left >= 2 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 1)), 8);
end if;
if Left >= 1 then
K1 := K1 xor Storage_Element'Pos (S (Base));
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
end if;
end;
-- Finalization.
H1 := H1 xor S'Length;
H1 := FMix32 (H1);
return H1;
end Generic_Murmur3;
-------------
-- Murmur3 --
-------------
function Murmur3 is new Generic_Murmur3;
----------
-- Hash --
----------
function Hash
(S : Storage_Array;
Seed : Hash_Type)
return Hash_Type renames
Murmur3;
function Hash (A : Address; Seed : Hash_Type) return Hash_Type is
subtype St is Storage_Array (1 .. Address'Object_Size / 8);
function To_Storage is new Ada.Unchecked_Conversion (Address, St);
begin
return Hash (To_Storage (A), Seed);
end Hash;
----------------------------
-- Anonymous_Pointer_Hash --
----------------------------
function Anonymous_Pointer_Hash (
Pointer : access constant Any_Type;
Seed : Hash_Type
) return Hash_Type
is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Anonymous_Pointer_Hash;
----------------------
-- All_Pointer_Hash --
----------------------
function All_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end All_Pointer_Hash;
---------------------------
-- Constant_Pointer_Hash --
---------------------------
function Constant_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Constant_Pointer_Hash;
-------------------
-- Discrete_Hash --
-------------------
function Discrete_Hash (
Value : T;
Seed : Hash_Type
) return Hash_Type is
-- The problem here is that a T might not fill up a byte (or an integer
-- number of bytes) - think of Boolean. To solve this, we create a null-
-- initialized storage area on the stack that is large enough to store a
-- T to. We then store Value to it, and hash the storage.
subtype St_Type is Storage_Array (1 .. T'Object_Size / 8);
St : aliased St_Type := (others => 0);
-- The null-initialized storage.
-- To store Value to St, we take a pointer to St, change it into a
-- pointer to type T, and store Value through it.
type St_Pointer is access all St_Type;
for St_Pointer'Storage_Size use 0;
type T_Pointer is access all T;
for T_Pointer'Storage_Size use 0;
function To_T is new Ada.Unchecked_Conversion (St_Pointer, T_Pointer);
function M3 is new Generic_Murmur3;
-- Instantiate our own copy of Murmur3 to make sure it gets inlined, as
-- this leads to many simplifications due to the length of the storage
-- being known.
begin
-- Store Value to the storage area.
To_T (St'Access).all := Value;
-- Hash the storage area.
return M3 (St, Seed);
end Discrete_Hash;
------------------
-- Pointer_Hash --
------------------
function Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Pointer_Hash;
end Hashing;
| true | -- MURMUR3
--
-- taken from http://commons.ada.cx/Deterministic_Hashing
-- source at http://pastebin.com/ZhgRacMr
--
-- PI:NAME:<NAME>END_PI on #ada provided an implementation of Murmur3.
-- Generic_Murmur3 is the core logic, the rest are convenience functions.
--
-- license: asked on #ada (PI:NAME:<NAME>END_PI, 2014-04-07): public domain
with Ada.Unchecked_Conversion;
package body Hashing is
use Ada.Containers;
use System.Storage_Elements;
use System;
-- The hashes are all implemented using the storage array hash.
pragma Assert (Storage_Element'Size = 8);
-- We assume that a Storage_Element is essentially the same as an octet.
pragma Assert (Hash_Type'Size = 32);
-- Currently we only support hashing to a 32 bit value.
pragma Assert (Default_Bit_Order = Low_Order_First);
-- Currently we only support little-endian machines. The implementation may
-- actually be OK for big-endian machines too, but this needs to be checked.
function Rotate_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Rotate_Left);
function Shift_Left (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Left);
function Shift_Right (V : Hash_Type; N : Natural) return Hash_Type;
pragma Import (Intrinsic, Shift_Right);
---------------------
-- Generic_Murmur3 --
---------------------
generic
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type;
pragma Inline (Generic_Murmur3);
-- This is MurmurHash3_x86_32. Making this generic is a trick that gives
-- us a way of forcing the compiler to inline the code into any generics
-- that use it.
function Generic_Murmur3 (S : Storage_Array; Seed : Hash_Type) return Hash_Type is
pragma Suppress (All_Checks);
subtype Store4 is Storage_Array (1 .. 4);
function FMix32 (H : Hash_Type) return Hash_Type;
pragma Inline (FMix32);
-- Finalization mix - force all bits of a hash block to avalanche.
function FMix32 (H : Hash_Type) return Hash_Type is
R : Hash_Type := H;
begin
R := R xor Shift_Right (R, 16);
R := R * 16#85ebca6b#;
R := R xor Shift_Right (R, 13);
R := R * 16#c2b2ae35#;
R := R xor Shift_Right (R, 16);
return R;
end FMix32;
function Get_Block_32 is new Ada.Unchecked_Conversion
(Store4,
Hash_Type);
C1 : constant Hash_Type := 16#cc9e2d51#;
C2 : constant Hash_Type := 16#1b873593#;
NBlocks : constant Storage_Count := S'Length / 4;
H1 : Hash_Type := Seed;
begin
-- Body.
for I in 0 .. NBlocks - 1 loop
declare
Offset : constant Storage_Count := 4 * I;
First : constant Storage_Offset := S'First + Offset;
Last : constant Storage_Offset := First + 3;
K1 : Hash_Type := Get_Block_32 (S (First .. Last));
begin
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
H1 := Rotate_Left (H1, 13);
H1 := H1 * 5 + 16#e6546b64#;
end;
end loop;
-- Tail.
declare
Offset : constant Storage_Count := 4 * NBlocks;
Left : constant Storage_Count := S'Length - Offset;
Base : constant Storage_Offset := S'First + Offset;
K1 : Hash_Type := 0;
begin
if Left >= 3 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 2)), 16);
end if;
if Left >= 2 then
K1 := K1 xor Shift_Left (Storage_Element'Pos (S (Base + 1)), 8);
end if;
if Left >= 1 then
K1 := K1 xor Storage_Element'Pos (S (Base));
K1 := K1 * C1;
K1 := Rotate_Left (K1, 15);
K1 := K1 * C2;
H1 := H1 xor K1;
end if;
end;
-- Finalization.
H1 := H1 xor S'Length;
H1 := FMix32 (H1);
return H1;
end Generic_Murmur3;
-------------
-- Murmur3 --
-------------
function Murmur3 is new Generic_Murmur3;
----------
-- Hash --
----------
function Hash
(S : Storage_Array;
Seed : Hash_Type)
return Hash_Type renames
Murmur3;
function Hash (A : Address; Seed : Hash_Type) return Hash_Type is
subtype St is Storage_Array (1 .. Address'Object_Size / 8);
function To_Storage is new Ada.Unchecked_Conversion (Address, St);
begin
return Hash (To_Storage (A), Seed);
end Hash;
----------------------------
-- Anonymous_Pointer_Hash --
----------------------------
function Anonymous_Pointer_Hash (
Pointer : access constant Any_Type;
Seed : Hash_Type
) return Hash_Type
is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Anonymous_Pointer_Hash;
----------------------
-- All_Pointer_Hash --
----------------------
function All_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end All_Pointer_Hash;
---------------------------
-- Constant_Pointer_Hash --
---------------------------
function Constant_Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Constant_Pointer_Hash;
-------------------
-- Discrete_Hash --
-------------------
function Discrete_Hash (
Value : T;
Seed : Hash_Type
) return Hash_Type is
-- The problem here is that a T might not fill up a byte (or an integer
-- number of bytes) - think of Boolean. To solve this, we create a null-
-- initialized storage area on the stack that is large enough to store a
-- T to. We then store Value to it, and hash the storage.
subtype St_Type is Storage_Array (1 .. T'Object_Size / 8);
St : aliased St_Type := (others => 0);
-- The null-initialized storage.
-- To store Value to St, we take a pointer to St, change it into a
-- pointer to type T, and store Value through it.
type St_Pointer is access all St_Type;
for St_Pointer'Storage_Size use 0;
type T_Pointer is access all T;
for T_Pointer'Storage_Size use 0;
function To_T is new Ada.Unchecked_Conversion (St_Pointer, T_Pointer);
function M3 is new Generic_Murmur3;
-- Instantiate our own copy of Murmur3 to make sure it gets inlined, as
-- this leads to many simplifications due to the length of the storage
-- being known.
begin
-- Store Value to the storage area.
To_T (St'Access).all := Value;
-- Hash the storage area.
return M3 (St, Seed);
end Discrete_Hash;
------------------
-- Pointer_Hash --
------------------
function Pointer_Hash (
Pointer : Any_Access;
Seed : Hash_Type
) return Hash_Type is
Addr : Address;
begin
if Pointer = null then
Addr := Null_Address;
else
Addr := Pointer.all'Address;
end if;
return Hash (Addr, Seed);
end Pointer_Hash;
end Hashing;
|
[
{
"context": "-- Copyright 2017 Jeff Foley. All rights reserved.\n-- Use of this source code ",
"end": 28,
"score": 0.9998558163642883,
"start": 18,
"tag": "NAME",
"value": "Jeff Foley"
}
] | resources/scripts/archive/archiveit.ads | devkw/Amass | 0 | -- Copyright 2017 Jeff Foley. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
name = "ArchiveIt"
type = "archive"
function start()
setratelimit(1)
end
function vertical(ctx, domain)
crawl(ctx, buildurl(domain))
end
function resolved(ctx, name)
crawl(ctx, buildurl(name))
end
function buildurl(domain)
return "https://wayback.archive-it.org/all/" .. os.date("%Y") .. "/" .. domain
end
| 8625 | -- Copyright 2017 <NAME>. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
name = "ArchiveIt"
type = "archive"
function start()
setratelimit(1)
end
function vertical(ctx, domain)
crawl(ctx, buildurl(domain))
end
function resolved(ctx, name)
crawl(ctx, buildurl(name))
end
function buildurl(domain)
return "https://wayback.archive-it.org/all/" .. os.date("%Y") .. "/" .. domain
end
| true | -- Copyright 2017 PI:NAME:<NAME>END_PI. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
name = "ArchiveIt"
type = "archive"
function start()
setratelimit(1)
end
function vertical(ctx, domain)
crawl(ctx, buildurl(domain))
end
function resolved(ctx, name)
crawl(ctx, buildurl(name))
end
function buildurl(domain)
return "https://wayback.archive-it.org/all/" .. os.date("%Y") .. "/" .. domain
end
|
[
{
"context": "-------\n-- Copyright (C) 2020 by Heisenbug Ltd. (gh+owm@heisenbug.eu)\n--\n-- This work is free. You can redistribute i",
"end": 142,
"score": 0.9999216794967651,
"start": 123,
"tag": "EMAIL",
"value": "gh+owm@heisenbug.eu"
}
] | src/open_weather_map-api-service.ads | Jellix/open_weather_map_api | 1 | --------------------------------------------------------------------------------
-- Copyright (C) 2020 by Heisenbug Ltd. (gh+owm@heisenbug.eu)
--
-- This work is free. You can redistribute it and/or modify it under the
-- terms of the Do What The Fuck You Want To Public License, Version 2,
-- as published by Sam Hocevar. See the LICENSE file for more details.
--------------------------------------------------------------------------------
pragma License (Unrestricted);
with Open_Weather_Map.API.Query;
private with AWS.Parameters;
--------------------------------------------------------------------------------
--% @summary
--% Open_Weather_Map.API.Query
--
--% @description
--% Provides the abstract tagged type from which every concrete implementation
--% of a specific API query object shall be derived.
--------------------------------------------------------------------------------
private package Open_Weather_Map.API.Service is
-----------------------------------------------------------------------------
-- Extended context type for API queries, and its primitive operations.
--
-- This type actually "knows" something about the API, and is the type all
-- API query types shall derive from.
-----------------------------------------------------------------------------
type T is abstract new Query.T with private;
-----------------------------------------------------------------------------
-- Initialize
-----------------------------------------------------------------------------
procedure Initialize
(Self : out T;
Configuration : in GNATCOLL.JSON.JSON_Value;
Connection : not null Client.T_Access;
Max_Cache_Interval : in Ada.Real_Time.Time_Span := Default_Cache_Interval;
For_API_Service : in API_Services);
--% Sets up the context (and namely the proper URL for API calls) given the
--% service name for the actual API.
--
--% @param Self
--% The object to be initialized.
--
--% @param Configuration
--% JSON value containing configuration data.
--
--% @param Connection
--% The HTTP connection to be used for the query object. If this value is
--% null, a new connection will be created.
--
--% @param Max_Cache_Interval
--% Span of time a previous value will be stored before a new value will be
--% requested from the server.
--
--% @param For_API_Service
--% The API service for which this query instance shall be initialized for.
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span with
Inline => True;
--% Returns a previously set Cache_Interval for this Context.
--
--% @param Self
--% The object the cache interval shall be returned from.
--
--% @return
--% The preset cache interval for object Self.
-----------------------------------------------------------------------------
-- Set_Cache_Interval
-----------------------------------------------------------------------------
procedure Set_Cache_Interval
(Self : in out T;
Max_Cache_Interval : in Ada.Real_Time.Time_Span);
--% Set a new cache interval for the object.
--
--% @param Self
--% The object for which a new cache interval shall be set.
--
--% @param Max_Cache_Interval
--% The new cache interval to be set.
--
-- Once a value has been retrieved from the server, a new request will not
-- be sent if the new request happens within Cache_Interval. This supports
-- both rate limiting on queries as well as speed optimization to not
-- retrieve new values that seldom change over time, anyway.
--
-- The update interval on openweathermap.org seems to be about 10 minutes,
-- but that doesn't even mean, there's a new measurement (in fact, this can
-- take hours).
-----------------------------------------------------------------------------
-- Service_URI
-----------------------------------------------------------------------------
function Service_URI (This : in T) return String;
--% Returns the URI for the context specific API (including parameters etc.).
--
--% @param This
--% The object the Service URI shall be retrieved from.
--
--% @return
--% The query specific service URI for the object.
-- For security reasons, the API key parameter is not included here, only
-- the query specific parameters.
-----------------------------------------------------------------------------
-- Decode_Response
-----------------------------------------------------------------------------
function Decode_Response
(Self : in T;
Root : in GNATCOLL.JSON.JSON_Value) return Data_Set is abstract;
--% Decodes the Response and returns the context specific Data_Set.
-- Called from within Query() with the received JSON data.
-- This subroutine must be overridden by the concrete API context
-- implementations to cater for the differences of the services' responses.
--
--% @param Self
--% The concerned object.
--
--% @param Root
--% The root object of the JSON tree received from the server.
--
--% @return
--% The Data_Set extracted from the JSON value given in Root.
-----------------------------------------------------------------------------
-- Perform_Query
-----------------------------------------------------------------------------
overriding procedure Perform_Query (Self : in out T;
Current : in out Data_Set);
--% Operation to fire and evaluate a query as defined by the actual type of
--% Self.
--
--% @param Self
--% The query object for which a query shall be sent.
--
--% @param Current
--% The data set to be updated.
private
type T is abstract new Query.T with
record
Server_Connection : Client.T_Access;
--% @field Server_Connection
--% The HTTP client connection used to communicate with the server.
Cache_Interval : Ada.Real_Time.Time_Span;
--% @field Cache_Interval
--% The span of time previously acquired values will be cached before a
--% new query is sent to the server.
Key : API_Key;
--% @field Key
--% The (secret) API key used to authenticate queries.
Service : API_Services;
--% @field Service
--% The API service for this query.
Parameters : AWS.Parameters.List;
--% @field Parameters
--% API specific query parameters.
end record;
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span is
(Self.Cache_Interval);
end Open_Weather_Map.API.Service;
| 8865 | --------------------------------------------------------------------------------
-- Copyright (C) 2020 by Heisenbug Ltd. (<EMAIL>)
--
-- This work is free. You can redistribute it and/or modify it under the
-- terms of the Do What The Fuck You Want To Public License, Version 2,
-- as published by Sam Hocevar. See the LICENSE file for more details.
--------------------------------------------------------------------------------
pragma License (Unrestricted);
with Open_Weather_Map.API.Query;
private with AWS.Parameters;
--------------------------------------------------------------------------------
--% @summary
--% Open_Weather_Map.API.Query
--
--% @description
--% Provides the abstract tagged type from which every concrete implementation
--% of a specific API query object shall be derived.
--------------------------------------------------------------------------------
private package Open_Weather_Map.API.Service is
-----------------------------------------------------------------------------
-- Extended context type for API queries, and its primitive operations.
--
-- This type actually "knows" something about the API, and is the type all
-- API query types shall derive from.
-----------------------------------------------------------------------------
type T is abstract new Query.T with private;
-----------------------------------------------------------------------------
-- Initialize
-----------------------------------------------------------------------------
procedure Initialize
(Self : out T;
Configuration : in GNATCOLL.JSON.JSON_Value;
Connection : not null Client.T_Access;
Max_Cache_Interval : in Ada.Real_Time.Time_Span := Default_Cache_Interval;
For_API_Service : in API_Services);
--% Sets up the context (and namely the proper URL for API calls) given the
--% service name for the actual API.
--
--% @param Self
--% The object to be initialized.
--
--% @param Configuration
--% JSON value containing configuration data.
--
--% @param Connection
--% The HTTP connection to be used for the query object. If this value is
--% null, a new connection will be created.
--
--% @param Max_Cache_Interval
--% Span of time a previous value will be stored before a new value will be
--% requested from the server.
--
--% @param For_API_Service
--% The API service for which this query instance shall be initialized for.
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span with
Inline => True;
--% Returns a previously set Cache_Interval for this Context.
--
--% @param Self
--% The object the cache interval shall be returned from.
--
--% @return
--% The preset cache interval for object Self.
-----------------------------------------------------------------------------
-- Set_Cache_Interval
-----------------------------------------------------------------------------
procedure Set_Cache_Interval
(Self : in out T;
Max_Cache_Interval : in Ada.Real_Time.Time_Span);
--% Set a new cache interval for the object.
--
--% @param Self
--% The object for which a new cache interval shall be set.
--
--% @param Max_Cache_Interval
--% The new cache interval to be set.
--
-- Once a value has been retrieved from the server, a new request will not
-- be sent if the new request happens within Cache_Interval. This supports
-- both rate limiting on queries as well as speed optimization to not
-- retrieve new values that seldom change over time, anyway.
--
-- The update interval on openweathermap.org seems to be about 10 minutes,
-- but that doesn't even mean, there's a new measurement (in fact, this can
-- take hours).
-----------------------------------------------------------------------------
-- Service_URI
-----------------------------------------------------------------------------
function Service_URI (This : in T) return String;
--% Returns the URI for the context specific API (including parameters etc.).
--
--% @param This
--% The object the Service URI shall be retrieved from.
--
--% @return
--% The query specific service URI for the object.
-- For security reasons, the API key parameter is not included here, only
-- the query specific parameters.
-----------------------------------------------------------------------------
-- Decode_Response
-----------------------------------------------------------------------------
function Decode_Response
(Self : in T;
Root : in GNATCOLL.JSON.JSON_Value) return Data_Set is abstract;
--% Decodes the Response and returns the context specific Data_Set.
-- Called from within Query() with the received JSON data.
-- This subroutine must be overridden by the concrete API context
-- implementations to cater for the differences of the services' responses.
--
--% @param Self
--% The concerned object.
--
--% @param Root
--% The root object of the JSON tree received from the server.
--
--% @return
--% The Data_Set extracted from the JSON value given in Root.
-----------------------------------------------------------------------------
-- Perform_Query
-----------------------------------------------------------------------------
overriding procedure Perform_Query (Self : in out T;
Current : in out Data_Set);
--% Operation to fire and evaluate a query as defined by the actual type of
--% Self.
--
--% @param Self
--% The query object for which a query shall be sent.
--
--% @param Current
--% The data set to be updated.
private
type T is abstract new Query.T with
record
Server_Connection : Client.T_Access;
--% @field Server_Connection
--% The HTTP client connection used to communicate with the server.
Cache_Interval : Ada.Real_Time.Time_Span;
--% @field Cache_Interval
--% The span of time previously acquired values will be cached before a
--% new query is sent to the server.
Key : API_Key;
--% @field Key
--% The (secret) API key used to authenticate queries.
Service : API_Services;
--% @field Service
--% The API service for this query.
Parameters : AWS.Parameters.List;
--% @field Parameters
--% API specific query parameters.
end record;
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span is
(Self.Cache_Interval);
end Open_Weather_Map.API.Service;
| true | --------------------------------------------------------------------------------
-- Copyright (C) 2020 by Heisenbug Ltd. (PI:EMAIL:<EMAIL>END_PI)
--
-- This work is free. You can redistribute it and/or modify it under the
-- terms of the Do What The Fuck You Want To Public License, Version 2,
-- as published by Sam Hocevar. See the LICENSE file for more details.
--------------------------------------------------------------------------------
pragma License (Unrestricted);
with Open_Weather_Map.API.Query;
private with AWS.Parameters;
--------------------------------------------------------------------------------
--% @summary
--% Open_Weather_Map.API.Query
--
--% @description
--% Provides the abstract tagged type from which every concrete implementation
--% of a specific API query object shall be derived.
--------------------------------------------------------------------------------
private package Open_Weather_Map.API.Service is
-----------------------------------------------------------------------------
-- Extended context type for API queries, and its primitive operations.
--
-- This type actually "knows" something about the API, and is the type all
-- API query types shall derive from.
-----------------------------------------------------------------------------
type T is abstract new Query.T with private;
-----------------------------------------------------------------------------
-- Initialize
-----------------------------------------------------------------------------
procedure Initialize
(Self : out T;
Configuration : in GNATCOLL.JSON.JSON_Value;
Connection : not null Client.T_Access;
Max_Cache_Interval : in Ada.Real_Time.Time_Span := Default_Cache_Interval;
For_API_Service : in API_Services);
--% Sets up the context (and namely the proper URL for API calls) given the
--% service name for the actual API.
--
--% @param Self
--% The object to be initialized.
--
--% @param Configuration
--% JSON value containing configuration data.
--
--% @param Connection
--% The HTTP connection to be used for the query object. If this value is
--% null, a new connection will be created.
--
--% @param Max_Cache_Interval
--% Span of time a previous value will be stored before a new value will be
--% requested from the server.
--
--% @param For_API_Service
--% The API service for which this query instance shall be initialized for.
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span with
Inline => True;
--% Returns a previously set Cache_Interval for this Context.
--
--% @param Self
--% The object the cache interval shall be returned from.
--
--% @return
--% The preset cache interval for object Self.
-----------------------------------------------------------------------------
-- Set_Cache_Interval
-----------------------------------------------------------------------------
procedure Set_Cache_Interval
(Self : in out T;
Max_Cache_Interval : in Ada.Real_Time.Time_Span);
--% Set a new cache interval for the object.
--
--% @param Self
--% The object for which a new cache interval shall be set.
--
--% @param Max_Cache_Interval
--% The new cache interval to be set.
--
-- Once a value has been retrieved from the server, a new request will not
-- be sent if the new request happens within Cache_Interval. This supports
-- both rate limiting on queries as well as speed optimization to not
-- retrieve new values that seldom change over time, anyway.
--
-- The update interval on openweathermap.org seems to be about 10 minutes,
-- but that doesn't even mean, there's a new measurement (in fact, this can
-- take hours).
-----------------------------------------------------------------------------
-- Service_URI
-----------------------------------------------------------------------------
function Service_URI (This : in T) return String;
--% Returns the URI for the context specific API (including parameters etc.).
--
--% @param This
--% The object the Service URI shall be retrieved from.
--
--% @return
--% The query specific service URI for the object.
-- For security reasons, the API key parameter is not included here, only
-- the query specific parameters.
-----------------------------------------------------------------------------
-- Decode_Response
-----------------------------------------------------------------------------
function Decode_Response
(Self : in T;
Root : in GNATCOLL.JSON.JSON_Value) return Data_Set is abstract;
--% Decodes the Response and returns the context specific Data_Set.
-- Called from within Query() with the received JSON data.
-- This subroutine must be overridden by the concrete API context
-- implementations to cater for the differences of the services' responses.
--
--% @param Self
--% The concerned object.
--
--% @param Root
--% The root object of the JSON tree received from the server.
--
--% @return
--% The Data_Set extracted from the JSON value given in Root.
-----------------------------------------------------------------------------
-- Perform_Query
-----------------------------------------------------------------------------
overriding procedure Perform_Query (Self : in out T;
Current : in out Data_Set);
--% Operation to fire and evaluate a query as defined by the actual type of
--% Self.
--
--% @param Self
--% The query object for which a query shall be sent.
--
--% @param Current
--% The data set to be updated.
private
type T is abstract new Query.T with
record
Server_Connection : Client.T_Access;
--% @field Server_Connection
--% The HTTP client connection used to communicate with the server.
Cache_Interval : Ada.Real_Time.Time_Span;
--% @field Cache_Interval
--% The span of time previously acquired values will be cached before a
--% new query is sent to the server.
Key : API_Key;
--% @field Key
--% The (secret) API key used to authenticate queries.
Service : API_Services;
--% @field Service
--% The API service for this query.
Parameters : AWS.Parameters.List;
--% @field Parameters
--% API specific query parameters.
end record;
-----------------------------------------------------------------------------
-- Cache_Interval
-----------------------------------------------------------------------------
function Cache_Interval (Self : in T) return Ada.Real_Time.Time_Span is
(Self.Cache_Interval);
end Open_Weather_Map.API.Service;
|
[
{
"context": "ts -- Tests for keystore IO\n-- Copyright (C) 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 157,
"score": 0.9998704791069031,
"start": 142,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2019 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 188,
"score": 0.9998782277107239,
"start": 173,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "9 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 215,
"score": 0.9999272227287292,
"start": 190,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | regtests/keystore-coverage.adb | My-Colaborations/ada-keystore | 25 | -----------------------------------------------------------------------
-- keystore-io-tests -- Tests for keystore IO
-- Copyright (C) 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Test_Caller;
with Keystore.IO.Files;
with Keystore.Buffers;
with Keystore.Passwords.GPG;
with Keystore.Repository;
with Keystore.IO.Refs;
package body Keystore.Coverage is
-- A fake type to make sure execute generated compiler code for <T>DF() operation
-- (these functions are used for deep finalization).
type Deep_Finalization_Coverage is limited record
Stream : Keystore.IO.Files.Wallet_Stream;
Context : Keystore.Passwords.GPG.Context_Type;
Config : Keystore.Wallet_Config;
Repo : Keystore.Repository.Wallet_Repository;
Ref : Keystore.IO.Refs.Stream_Ref;
Block : Keystore.Buffers.Storage_Block;
Buf : Keystore.Buffers.Data_Buffer_Type;
Storage : Keystore.Buffers.Storage_Buffer;
end record;
package Caller is new Util.Test_Caller (Test, "Keystore.Coverage");
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is
begin
Caller.Add_Test (Suite, "Test Keystore.Coverage",
Test_Deep_Coverage'Access);
end Add_Tests;
procedure Test_Deep_Coverage (T : in out Test) is
Item : Deep_Finalization_Coverage;
begin
Item.Config := Keystore.Secure_Config;
T.Assert (Item'Size > 0, "Compiler error!!!!");
end Test_Deep_Coverage;
end Keystore.Coverage;
| 8753 | -----------------------------------------------------------------------
-- keystore-io-tests -- Tests for keystore IO
-- Copyright (C) 2019 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Test_Caller;
with Keystore.IO.Files;
with Keystore.Buffers;
with Keystore.Passwords.GPG;
with Keystore.Repository;
with Keystore.IO.Refs;
package body Keystore.Coverage is
-- A fake type to make sure execute generated compiler code for <T>DF() operation
-- (these functions are used for deep finalization).
type Deep_Finalization_Coverage is limited record
Stream : Keystore.IO.Files.Wallet_Stream;
Context : Keystore.Passwords.GPG.Context_Type;
Config : Keystore.Wallet_Config;
Repo : Keystore.Repository.Wallet_Repository;
Ref : Keystore.IO.Refs.Stream_Ref;
Block : Keystore.Buffers.Storage_Block;
Buf : Keystore.Buffers.Data_Buffer_Type;
Storage : Keystore.Buffers.Storage_Buffer;
end record;
package Caller is new Util.Test_Caller (Test, "Keystore.Coverage");
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is
begin
Caller.Add_Test (Suite, "Test Keystore.Coverage",
Test_Deep_Coverage'Access);
end Add_Tests;
procedure Test_Deep_Coverage (T : in out Test) is
Item : Deep_Finalization_Coverage;
begin
Item.Config := Keystore.Secure_Config;
T.Assert (Item'Size > 0, "Compiler error!!!!");
end Test_Deep_Coverage;
end Keystore.Coverage;
| true | -----------------------------------------------------------------------
-- keystore-io-tests -- Tests for keystore IO
-- Copyright (C) 2019 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Test_Caller;
with Keystore.IO.Files;
with Keystore.Buffers;
with Keystore.Passwords.GPG;
with Keystore.Repository;
with Keystore.IO.Refs;
package body Keystore.Coverage is
-- A fake type to make sure execute generated compiler code for <T>DF() operation
-- (these functions are used for deep finalization).
type Deep_Finalization_Coverage is limited record
Stream : Keystore.IO.Files.Wallet_Stream;
Context : Keystore.Passwords.GPG.Context_Type;
Config : Keystore.Wallet_Config;
Repo : Keystore.Repository.Wallet_Repository;
Ref : Keystore.IO.Refs.Stream_Ref;
Block : Keystore.Buffers.Storage_Block;
Buf : Keystore.Buffers.Data_Buffer_Type;
Storage : Keystore.Buffers.Storage_Buffer;
end record;
package Caller is new Util.Test_Caller (Test, "Keystore.Coverage");
procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is
begin
Caller.Add_Test (Suite, "Test Keystore.Coverage",
Test_Deep_Coverage'Access);
end Add_Tests;
procedure Test_Deep_Coverage (T : in out Test) is
Item : Deep_Finalization_Coverage;
begin
Item.Config := Keystore.Secure_Config;
T.Assert (Item'Size > 0, "Compiler error!!!!");
end Test_Deep_Coverage;
end Keystore.Coverage;
|
[
{
"context": " --\n-- A = B * (MC * MD - ME * e) --\n-- Zubrych Yevheniia --\n-- IP-53 ",
"end": 146,
"score": 0.9998685121536255,
"start": 129,
"tag": "NAME",
"value": "Zubrych Yevheniia"
}
] | lab15/src/main.adb | evgenijaZ/PP-labs | 0 | -----------------------------------------
-- PRG1 --
-- A = B * (MC * MD - ME * e) --
-- Zubrych Yevheniia --
-- IP-53 --
-----------------------------------------
with Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
use Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
with Ada.Calendar; use Ada.Calendar;
procedure Main is
N : Integer := 900;
P : Integer := 4;
H : Integer := N / P;
startTime : Time;
endTime : Time;
type Vector is array (1 .. N) of Integer;
type Matrix is array (1 .. N) of Vector;
A : Vector;
MD,ME : Matrix;
protected Box is
function Copy_e return Integer;
function Copy_B return Vector;
function Copy_MC return Matrix;
procedure Input_e (x: in Integer);
procedure Input_B (x: in Integer);
procedure Input_MC (x: in Integer);
entry Wait1;
entry Wait2;
procedure Signal1;
procedure Signal2;
private
e: Integer;
B:Vector;
MC : Matrix;
F1 : Integer := 0;
F2 : Integer := 0;
end Box;
protected body Box is
function Copy_e return Integer is
begin
return e;
end Copy_e;
function Copy_B return Vector is
begin
return B;
end Copy_B;
function Copy_MC return Matrix is
begin
return MC;
end Copy_MC;
procedure Input_MC (x: in Integer)is
begin
for i in 1 .. N loop
for j in 1 .. N loop
MC(i)(j):=x;
end loop;
end loop;
end Input_MC;
procedure Input_B (x: in Integer)is
begin
for i in 1 .. N loop
B(i):=x;
end loop;
end Input_B;
procedure Input_e (x : in Integer) is
begin
e := x;
end Input_e;
entry Wait1
when F1 = 3 is
begin
null;
end;
entry Wait2
when F2 = 3 is
begin
null;
end;
procedure Signal1 is
begin
F1 := F1 + 1;
end Signal1;
procedure Signal2 is
begin
F2 := F2 + 1;
end Signal2;
end Box;
procedure Start is
task T1;
task body T1 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T1 started");
from:=1;
to:=H;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
-- Signal for other threads to finish
Box.Signal2;
Put_Line ("T1 finished");
end T1;
task T2 is
pragma Storage_Size (100000000);
end T2;
task body T2 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T2 started");
from:=H+1;
to:=2*H;
--Input B, MD
Box.Input_B(1);
for i in 1..N loop
for j in 1..N loop
MD(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Wait2;
if N <= 12 then
for i in 1 .. N loop
Put (A (i));
Put (" ");
end loop;
Put_Line ("");
end if;
Put_Line ("T2 finished");
end T2;
task T3 is
pragma Storage_Size (100000000);
end T3;
task body T3 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T3 started");
from:=2*H+1;
to:=3*H;
--Input e, MC
Box.Input_MC(1);
Box.Input_e(1);
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T3 finished");
end T3;
task T4 is
pragma Storage_Size (100000000);
end T4;
task body T4 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T4 started");
from:=3*H+1;
to:=N;
--Input ME
for i in 1..N loop
for j in 1..N loop
ME(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T4 finished");
end T4;
begin
null;
end Start;
begin
startTime := Clock;
Start;
endTime:=Clock;
Put("N: ");
Put(N);
Put_Line("");
Put("Time: ");
Put(Integer(endTime-startTime),10);
end Main;
| 1531 | -----------------------------------------
-- PRG1 --
-- A = B * (MC * MD - ME * e) --
-- <NAME> --
-- IP-53 --
-----------------------------------------
with Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
use Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
with Ada.Calendar; use Ada.Calendar;
procedure Main is
N : Integer := 900;
P : Integer := 4;
H : Integer := N / P;
startTime : Time;
endTime : Time;
type Vector is array (1 .. N) of Integer;
type Matrix is array (1 .. N) of Vector;
A : Vector;
MD,ME : Matrix;
protected Box is
function Copy_e return Integer;
function Copy_B return Vector;
function Copy_MC return Matrix;
procedure Input_e (x: in Integer);
procedure Input_B (x: in Integer);
procedure Input_MC (x: in Integer);
entry Wait1;
entry Wait2;
procedure Signal1;
procedure Signal2;
private
e: Integer;
B:Vector;
MC : Matrix;
F1 : Integer := 0;
F2 : Integer := 0;
end Box;
protected body Box is
function Copy_e return Integer is
begin
return e;
end Copy_e;
function Copy_B return Vector is
begin
return B;
end Copy_B;
function Copy_MC return Matrix is
begin
return MC;
end Copy_MC;
procedure Input_MC (x: in Integer)is
begin
for i in 1 .. N loop
for j in 1 .. N loop
MC(i)(j):=x;
end loop;
end loop;
end Input_MC;
procedure Input_B (x: in Integer)is
begin
for i in 1 .. N loop
B(i):=x;
end loop;
end Input_B;
procedure Input_e (x : in Integer) is
begin
e := x;
end Input_e;
entry Wait1
when F1 = 3 is
begin
null;
end;
entry Wait2
when F2 = 3 is
begin
null;
end;
procedure Signal1 is
begin
F1 := F1 + 1;
end Signal1;
procedure Signal2 is
begin
F2 := F2 + 1;
end Signal2;
end Box;
procedure Start is
task T1;
task body T1 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T1 started");
from:=1;
to:=H;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
-- Signal for other threads to finish
Box.Signal2;
Put_Line ("T1 finished");
end T1;
task T2 is
pragma Storage_Size (100000000);
end T2;
task body T2 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T2 started");
from:=H+1;
to:=2*H;
--Input B, MD
Box.Input_B(1);
for i in 1..N loop
for j in 1..N loop
MD(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Wait2;
if N <= 12 then
for i in 1 .. N loop
Put (A (i));
Put (" ");
end loop;
Put_Line ("");
end if;
Put_Line ("T2 finished");
end T2;
task T3 is
pragma Storage_Size (100000000);
end T3;
task body T3 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T3 started");
from:=2*H+1;
to:=3*H;
--Input e, MC
Box.Input_MC(1);
Box.Input_e(1);
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T3 finished");
end T3;
task T4 is
pragma Storage_Size (100000000);
end T4;
task body T4 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T4 started");
from:=3*H+1;
to:=N;
--Input ME
for i in 1..N loop
for j in 1..N loop
ME(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T4 finished");
end T4;
begin
null;
end Start;
begin
startTime := Clock;
Start;
endTime:=Clock;
Put("N: ");
Put(N);
Put_Line("");
Put("Time: ");
Put(Integer(endTime-startTime),10);
end Main;
| true | -----------------------------------------
-- PRG1 --
-- A = B * (MC * MD - ME * e) --
-- PI:NAME:<NAME>END_PI --
-- IP-53 --
-----------------------------------------
with Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
use Ada.Text_IO, Ada.Integer_Text_IO,
Ada.Synchronous_Task_Control;
with Ada.Calendar; use Ada.Calendar;
procedure Main is
N : Integer := 900;
P : Integer := 4;
H : Integer := N / P;
startTime : Time;
endTime : Time;
type Vector is array (1 .. N) of Integer;
type Matrix is array (1 .. N) of Vector;
A : Vector;
MD,ME : Matrix;
protected Box is
function Copy_e return Integer;
function Copy_B return Vector;
function Copy_MC return Matrix;
procedure Input_e (x: in Integer);
procedure Input_B (x: in Integer);
procedure Input_MC (x: in Integer);
entry Wait1;
entry Wait2;
procedure Signal1;
procedure Signal2;
private
e: Integer;
B:Vector;
MC : Matrix;
F1 : Integer := 0;
F2 : Integer := 0;
end Box;
protected body Box is
function Copy_e return Integer is
begin
return e;
end Copy_e;
function Copy_B return Vector is
begin
return B;
end Copy_B;
function Copy_MC return Matrix is
begin
return MC;
end Copy_MC;
procedure Input_MC (x: in Integer)is
begin
for i in 1 .. N loop
for j in 1 .. N loop
MC(i)(j):=x;
end loop;
end loop;
end Input_MC;
procedure Input_B (x: in Integer)is
begin
for i in 1 .. N loop
B(i):=x;
end loop;
end Input_B;
procedure Input_e (x : in Integer) is
begin
e := x;
end Input_e;
entry Wait1
when F1 = 3 is
begin
null;
end;
entry Wait2
when F2 = 3 is
begin
null;
end;
procedure Signal1 is
begin
F1 := F1 + 1;
end Signal1;
procedure Signal2 is
begin
F2 := F2 + 1;
end Signal2;
end Box;
procedure Start is
task T1;
task body T1 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T1 started");
from:=1;
to:=H;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
-- Signal for other threads to finish
Box.Signal2;
Put_Line ("T1 finished");
end T1;
task T2 is
pragma Storage_Size (100000000);
end T2;
task body T2 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T2 started");
from:=H+1;
to:=2*H;
--Input B, MD
Box.Input_B(1);
for i in 1..N loop
for j in 1..N loop
MD(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Wait2;
if N <= 12 then
for i in 1 .. N loop
Put (A (i));
Put (" ");
end loop;
Put_Line ("");
end if;
Put_Line ("T2 finished");
end T2;
task T3 is
pragma Storage_Size (100000000);
end T3;
task body T3 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T3 started");
from:=2*H+1;
to:=3*H;
--Input e, MC
Box.Input_MC(1);
Box.Input_e(1);
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T3 finished");
end T3;
task T4 is
pragma Storage_Size (100000000);
end T4;
task body T4 is
e : Integer;
MC : Matrix;
B : Vector;
MR:Matrix;
from, to : Integer;
begin
Put_Line ("T4 started");
from:=3*H+1;
to:=N;
--Input ME
for i in 1..N loop
for j in 1..N loop
ME(i)(j):=1;
end loop;
end loop;
-- Input is finished
Box.Signal1;
-- Wait for other threads to finish input
Box.Wait1;
-- Copy data
e:=Box.Copy_e;
B:=Box.Copy_B;
MC:=Box.Copy_MC;
--Calculate A = B * (MC * MDH - MEH * e)
for i in 1..N loop
for j in from..to loop
MR(i)(j):=0;
for k in 1..N loop
MR(i)(j):=MR(i)(j)+MC(i)(k)*MD(k)(j);
end loop;
MR(i)(j):=MR(i)(j)-ME(i)(j)*e;
end loop;
end loop;
for j in from..to loop
A(j):=0;
for k in 1..N loop
A(j):=A(j)+B(k)*MR(k)(j);
end loop;
end loop;
Box.Signal2;
Put_Line ("T4 finished");
end T4;
begin
null;
end Start;
begin
startTime := Clock;
Start;
endTime:=Clock;
Put("N: ");
Put(N);
Put_Line("");
Put("Time: ");
Put(Integer(endTime-startTime),10);
end Main;
|
[
{
"context": " --\n-- Copyright © 2012-2014, Vadim Godunko <vgodunko@gmail.com> --\n-- All rig",
"end": 829,
"score": 0.9998852610588074,
"start": 816,
"tag": "NAME",
"value": "Vadim Godunko"
},
{
"context": " --\n-- Copyright © 2012-2014, Vadim Godunko <vgodunko@gmail.com> --\n-- All rights reserved. ",
"end": 849,
"score": 0.9999324083328247,
"start": 831,
"tag": "EMAIL",
"value": "vgodunko@gmail.com"
}
] | source/sql/mysql/matreshka-internals-sql_drivers-mysql-databases.adb | svn2github/matreshka | 24 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012-2014, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Matreshka.Internals.SQL_Drivers.MySQL.Queries;
package body Matreshka.Internals.SQL_Drivers.MySQL.Databases is
use type Interfaces.C.char_array;
use type Interfaces.C.int;
UTF8_Encoding : constant Interfaces.C.char_array
:= "utf8mb4" & Interfaces.C.nul;
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class);
-- Sets error message to reported by database.
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean);
-- Internal subprogram to executre simple parameter-less and result-less
-- queries at connection initialization time.
-----------
-- Close --
-----------
overriding procedure Close (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
mysql_close (Self.Handle);
Self.Handle := null;
end if;
end Close;
------------
-- Commit --
------------
overriding procedure Commit (Self : not null access MySQL_Database) is
begin
raise Program_Error;
end Commit;
---------------------
-- Database_Handle --
---------------------
function Database_Handle
(Self : not null access constant MySQL_Database'Class)
return MYSQL_Access is
begin
return Self.Handle;
end Database_Handle;
-------------------
-- Error_Message --
-------------------
overriding function Error_Message
(Self : not null access MySQL_Database)
return League.Strings.Universal_String is
begin
return Self.Error;
end Error_Message;
-------------------
-- Execute_Query --
-------------------
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean)
is
procedure Set_MySQL_Stmt_Error;
Handle : MYSQL_STMT_Access;
C_Query : Interfaces.C.Strings.chars_ptr;
Status : Interfaces.C.int;
B_Status : my_bool;
--------------------------
-- Set_MySQL_Stmt_Error --
--------------------------
procedure Set_MySQL_Stmt_Error is
begin
Self.Error :=
League.Strings.From_UTF_8_String
(Interfaces.C.Strings.Value (mysql_stmt_error (Handle)));
Success := False;
end Set_MySQL_Stmt_Error;
begin
if not Success then
-- Return immidiately when error condition had been detected. It
-- allows to write sequence of call to Execute_Query without
-- intermediate check for error conditions.
return;
end if;
-- Allocate statement handle.
Handle := mysql_stmt_init (Self.Database_Handle);
if Handle = null then
Self.Error := League.Strings.To_Universal_String ("out of memory");
Success := False;
return;
end if;
-- Prepare statement.
C_Query := Interfaces.C.Strings.New_String (Query);
Status :=
mysql_stmt_prepare
(Handle,
C_Query,
Interfaces.C.unsigned_long
(Interfaces.C.Strings.Strlen (C_Query)));
Interfaces.C.Strings.Free (C_Query);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Execute statement.
Status := mysql_stmt_execute (Handle);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Deallocate statement.
B_Status := mysql_stmt_close (Handle);
if B_Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
end Execute_Query;
--------------
-- Finalize --
--------------
overriding procedure Finalize (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
Self.Close;
end if;
end Finalize;
----------
-- Open --
----------
overriding function Open
(Self : not null access MySQL_Database;
Options : SQL.Options.SQL_Options) return Boolean
is
Database_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("database");
Host_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("host");
Password_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("password");
Port_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("port");
Socket_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("socket");
User_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("user");
Host_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
User_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Password_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Database_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Port_Option : Interfaces.C.unsigned := 0;
Socket_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Result : MYSQL_Access;
Success : Boolean;
begin
-- Initialize handle.
Self.Handle := mysql_init (null);
if Self.Handle = null then
Self.Error :=
League.Strings.To_Universal_String
("insufficient memory to allocate a new object");
return False;
end if;
-- Set client character encoding to 'utf-8'.
if mysql_options
(Self.Handle, MYSQL_SET_CHARSET_NAME, UTF8_Encoding) /= 0
then
Self.Error :=
League.Strings.To_Universal_String ("unknown option");
return False;
end if;
-- Prepare options.
if Options.Is_Set (Host_Name) then
Host_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Host_Name).To_UTF_8_String);
end if;
if Options.Is_Set (User_Name) then
User_Option :=
Interfaces.C.Strings.New_String
(Options.Get (User_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Password_Name) then
Password_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Password_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Database_Name) then
Database_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Database_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Port_Name) then
Port_Option :=
Interfaces.C.unsigned'Wide_Wide_Value
(Options.Get (Port_Name).To_Wide_Wide_String);
end if;
if Options.Is_Set (Socket_Name) then
Socket_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Socket_Name).To_UTF_8_String);
end if;
-- Connect to database.
Result :=
mysql_real_connect
(Self.Handle,
Host_Option,
User_Option,
Password_Option,
Database_Option,
Port_Option,
Socket_Option,
0);
-- Cleanup options.
Interfaces.C.Strings.Free (Host_Option);
Interfaces.C.Strings.Free (User_Option);
Interfaces.C.Strings.Free (Password_Option);
Interfaces.C.Strings.Free (Database_Option);
Interfaces.C.Strings.Free (Socket_Option);
-- Check result of operation.
if Result = null then
Self.Set_MySQL_Error;
return False;
end if;
-- Configure connection.
Success := True;
-- Set time_zone variable to UTC. Driver assumes that all date/time
-- types are represented as UTC time.
Execute_Query (Self, "SET time_zone = '+00:00'", Success);
return Success;
end Open;
-----------
-- Query --
-----------
overriding function Query
(Self : not null access MySQL_Database) return not null Query_Access is
begin
return Result : constant not null Query_Access
:= new Queries.MySQL_Query
do
Queries.Initialize
(Queries.MySQL_Query'Class (Result.all)'Access, Self);
end return;
end Query;
---------------------
-- Set_MySQL_Error --
---------------------
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class) is
Error : constant String
:= Interfaces.C.Strings.Value (mysql_error (Self.Handle));
begin
Self.Error := League.Strings.From_UTF_8_String (Error);
end Set_MySQL_Error;
end Matreshka.Internals.SQL_Drivers.MySQL.Databases;
| 28491 | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012-2014, <NAME> <<EMAIL>> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Matreshka.Internals.SQL_Drivers.MySQL.Queries;
package body Matreshka.Internals.SQL_Drivers.MySQL.Databases is
use type Interfaces.C.char_array;
use type Interfaces.C.int;
UTF8_Encoding : constant Interfaces.C.char_array
:= "utf8mb4" & Interfaces.C.nul;
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class);
-- Sets error message to reported by database.
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean);
-- Internal subprogram to executre simple parameter-less and result-less
-- queries at connection initialization time.
-----------
-- Close --
-----------
overriding procedure Close (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
mysql_close (Self.Handle);
Self.Handle := null;
end if;
end Close;
------------
-- Commit --
------------
overriding procedure Commit (Self : not null access MySQL_Database) is
begin
raise Program_Error;
end Commit;
---------------------
-- Database_Handle --
---------------------
function Database_Handle
(Self : not null access constant MySQL_Database'Class)
return MYSQL_Access is
begin
return Self.Handle;
end Database_Handle;
-------------------
-- Error_Message --
-------------------
overriding function Error_Message
(Self : not null access MySQL_Database)
return League.Strings.Universal_String is
begin
return Self.Error;
end Error_Message;
-------------------
-- Execute_Query --
-------------------
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean)
is
procedure Set_MySQL_Stmt_Error;
Handle : MYSQL_STMT_Access;
C_Query : Interfaces.C.Strings.chars_ptr;
Status : Interfaces.C.int;
B_Status : my_bool;
--------------------------
-- Set_MySQL_Stmt_Error --
--------------------------
procedure Set_MySQL_Stmt_Error is
begin
Self.Error :=
League.Strings.From_UTF_8_String
(Interfaces.C.Strings.Value (mysql_stmt_error (Handle)));
Success := False;
end Set_MySQL_Stmt_Error;
begin
if not Success then
-- Return immidiately when error condition had been detected. It
-- allows to write sequence of call to Execute_Query without
-- intermediate check for error conditions.
return;
end if;
-- Allocate statement handle.
Handle := mysql_stmt_init (Self.Database_Handle);
if Handle = null then
Self.Error := League.Strings.To_Universal_String ("out of memory");
Success := False;
return;
end if;
-- Prepare statement.
C_Query := Interfaces.C.Strings.New_String (Query);
Status :=
mysql_stmt_prepare
(Handle,
C_Query,
Interfaces.C.unsigned_long
(Interfaces.C.Strings.Strlen (C_Query)));
Interfaces.C.Strings.Free (C_Query);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Execute statement.
Status := mysql_stmt_execute (Handle);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Deallocate statement.
B_Status := mysql_stmt_close (Handle);
if B_Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
end Execute_Query;
--------------
-- Finalize --
--------------
overriding procedure Finalize (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
Self.Close;
end if;
end Finalize;
----------
-- Open --
----------
overriding function Open
(Self : not null access MySQL_Database;
Options : SQL.Options.SQL_Options) return Boolean
is
Database_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("database");
Host_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("host");
Password_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("password");
Port_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("port");
Socket_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("socket");
User_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("user");
Host_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
User_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Password_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Database_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Port_Option : Interfaces.C.unsigned := 0;
Socket_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Result : MYSQL_Access;
Success : Boolean;
begin
-- Initialize handle.
Self.Handle := mysql_init (null);
if Self.Handle = null then
Self.Error :=
League.Strings.To_Universal_String
("insufficient memory to allocate a new object");
return False;
end if;
-- Set client character encoding to 'utf-8'.
if mysql_options
(Self.Handle, MYSQL_SET_CHARSET_NAME, UTF8_Encoding) /= 0
then
Self.Error :=
League.Strings.To_Universal_String ("unknown option");
return False;
end if;
-- Prepare options.
if Options.Is_Set (Host_Name) then
Host_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Host_Name).To_UTF_8_String);
end if;
if Options.Is_Set (User_Name) then
User_Option :=
Interfaces.C.Strings.New_String
(Options.Get (User_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Password_Name) then
Password_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Password_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Database_Name) then
Database_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Database_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Port_Name) then
Port_Option :=
Interfaces.C.unsigned'Wide_Wide_Value
(Options.Get (Port_Name).To_Wide_Wide_String);
end if;
if Options.Is_Set (Socket_Name) then
Socket_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Socket_Name).To_UTF_8_String);
end if;
-- Connect to database.
Result :=
mysql_real_connect
(Self.Handle,
Host_Option,
User_Option,
Password_Option,
Database_Option,
Port_Option,
Socket_Option,
0);
-- Cleanup options.
Interfaces.C.Strings.Free (Host_Option);
Interfaces.C.Strings.Free (User_Option);
Interfaces.C.Strings.Free (Password_Option);
Interfaces.C.Strings.Free (Database_Option);
Interfaces.C.Strings.Free (Socket_Option);
-- Check result of operation.
if Result = null then
Self.Set_MySQL_Error;
return False;
end if;
-- Configure connection.
Success := True;
-- Set time_zone variable to UTC. Driver assumes that all date/time
-- types are represented as UTC time.
Execute_Query (Self, "SET time_zone = '+00:00'", Success);
return Success;
end Open;
-----------
-- Query --
-----------
overriding function Query
(Self : not null access MySQL_Database) return not null Query_Access is
begin
return Result : constant not null Query_Access
:= new Queries.MySQL_Query
do
Queries.Initialize
(Queries.MySQL_Query'Class (Result.all)'Access, Self);
end return;
end Query;
---------------------
-- Set_MySQL_Error --
---------------------
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class) is
Error : constant String
:= Interfaces.C.Strings.Value (mysql_error (Self.Handle));
begin
Self.Error := League.Strings.From_UTF_8_String (Error);
end Set_MySQL_Error;
end Matreshka.Internals.SQL_Drivers.MySQL.Databases;
| true | ------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- SQL Database Access --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012-2014, PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Matreshka.Internals.SQL_Drivers.MySQL.Queries;
package body Matreshka.Internals.SQL_Drivers.MySQL.Databases is
use type Interfaces.C.char_array;
use type Interfaces.C.int;
UTF8_Encoding : constant Interfaces.C.char_array
:= "utf8mb4" & Interfaces.C.nul;
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class);
-- Sets error message to reported by database.
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean);
-- Internal subprogram to executre simple parameter-less and result-less
-- queries at connection initialization time.
-----------
-- Close --
-----------
overriding procedure Close (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
mysql_close (Self.Handle);
Self.Handle := null;
end if;
end Close;
------------
-- Commit --
------------
overriding procedure Commit (Self : not null access MySQL_Database) is
begin
raise Program_Error;
end Commit;
---------------------
-- Database_Handle --
---------------------
function Database_Handle
(Self : not null access constant MySQL_Database'Class)
return MYSQL_Access is
begin
return Self.Handle;
end Database_Handle;
-------------------
-- Error_Message --
-------------------
overriding function Error_Message
(Self : not null access MySQL_Database)
return League.Strings.Universal_String is
begin
return Self.Error;
end Error_Message;
-------------------
-- Execute_Query --
-------------------
procedure Execute_Query
(Self : not null access MySQL_Database'Class;
Query : String;
Success : in out Boolean)
is
procedure Set_MySQL_Stmt_Error;
Handle : MYSQL_STMT_Access;
C_Query : Interfaces.C.Strings.chars_ptr;
Status : Interfaces.C.int;
B_Status : my_bool;
--------------------------
-- Set_MySQL_Stmt_Error --
--------------------------
procedure Set_MySQL_Stmt_Error is
begin
Self.Error :=
League.Strings.From_UTF_8_String
(Interfaces.C.Strings.Value (mysql_stmt_error (Handle)));
Success := False;
end Set_MySQL_Stmt_Error;
begin
if not Success then
-- Return immidiately when error condition had been detected. It
-- allows to write sequence of call to Execute_Query without
-- intermediate check for error conditions.
return;
end if;
-- Allocate statement handle.
Handle := mysql_stmt_init (Self.Database_Handle);
if Handle = null then
Self.Error := League.Strings.To_Universal_String ("out of memory");
Success := False;
return;
end if;
-- Prepare statement.
C_Query := Interfaces.C.Strings.New_String (Query);
Status :=
mysql_stmt_prepare
(Handle,
C_Query,
Interfaces.C.unsigned_long
(Interfaces.C.Strings.Strlen (C_Query)));
Interfaces.C.Strings.Free (C_Query);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Execute statement.
Status := mysql_stmt_execute (Handle);
if Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
-- Deallocate statement.
B_Status := mysql_stmt_close (Handle);
if B_Status /= 0 then
Set_MySQL_Stmt_Error;
return;
end if;
end Execute_Query;
--------------
-- Finalize --
--------------
overriding procedure Finalize (Self : not null access MySQL_Database) is
begin
if Self.Handle /= null then
Self.Close;
end if;
end Finalize;
----------
-- Open --
----------
overriding function Open
(Self : not null access MySQL_Database;
Options : SQL.Options.SQL_Options) return Boolean
is
Database_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("database");
Host_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("host");
Password_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("password");
Port_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("port");
Socket_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("socket");
User_Name : constant League.Strings.Universal_String
:= League.Strings.To_Universal_String ("user");
Host_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
User_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Password_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Database_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Port_Option : Interfaces.C.unsigned := 0;
Socket_Option : Interfaces.C.Strings.chars_ptr
:= Interfaces.C.Strings.Null_Ptr;
Result : MYSQL_Access;
Success : Boolean;
begin
-- Initialize handle.
Self.Handle := mysql_init (null);
if Self.Handle = null then
Self.Error :=
League.Strings.To_Universal_String
("insufficient memory to allocate a new object");
return False;
end if;
-- Set client character encoding to 'utf-8'.
if mysql_options
(Self.Handle, MYSQL_SET_CHARSET_NAME, UTF8_Encoding) /= 0
then
Self.Error :=
League.Strings.To_Universal_String ("unknown option");
return False;
end if;
-- Prepare options.
if Options.Is_Set (Host_Name) then
Host_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Host_Name).To_UTF_8_String);
end if;
if Options.Is_Set (User_Name) then
User_Option :=
Interfaces.C.Strings.New_String
(Options.Get (User_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Password_Name) then
Password_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Password_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Database_Name) then
Database_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Database_Name).To_UTF_8_String);
end if;
if Options.Is_Set (Port_Name) then
Port_Option :=
Interfaces.C.unsigned'Wide_Wide_Value
(Options.Get (Port_Name).To_Wide_Wide_String);
end if;
if Options.Is_Set (Socket_Name) then
Socket_Option :=
Interfaces.C.Strings.New_String
(Options.Get (Socket_Name).To_UTF_8_String);
end if;
-- Connect to database.
Result :=
mysql_real_connect
(Self.Handle,
Host_Option,
User_Option,
Password_Option,
Database_Option,
Port_Option,
Socket_Option,
0);
-- Cleanup options.
Interfaces.C.Strings.Free (Host_Option);
Interfaces.C.Strings.Free (User_Option);
Interfaces.C.Strings.Free (Password_Option);
Interfaces.C.Strings.Free (Database_Option);
Interfaces.C.Strings.Free (Socket_Option);
-- Check result of operation.
if Result = null then
Self.Set_MySQL_Error;
return False;
end if;
-- Configure connection.
Success := True;
-- Set time_zone variable to UTC. Driver assumes that all date/time
-- types are represented as UTC time.
Execute_Query (Self, "SET time_zone = '+00:00'", Success);
return Success;
end Open;
-----------
-- Query --
-----------
overriding function Query
(Self : not null access MySQL_Database) return not null Query_Access is
begin
return Result : constant not null Query_Access
:= new Queries.MySQL_Query
do
Queries.Initialize
(Queries.MySQL_Query'Class (Result.all)'Access, Self);
end return;
end Query;
---------------------
-- Set_MySQL_Error --
---------------------
procedure Set_MySQL_Error (Self : not null access MySQL_Database'Class) is
Error : constant String
:= Interfaces.C.Strings.Value (mysql_error (Self.Handle));
begin
Self.Error := League.Strings.From_UTF_8_String (Error);
end Set_MySQL_Error;
end Matreshka.Internals.SQL_Drivers.MySQL.Databases;
|
[
{
"context": "-- Copyright (c) 2021 Bartek thindil Jasicki <thindil@laeran.pl>\n--\n-- This program is free so",
"end": 44,
"score": 0.9998777508735657,
"start": 22,
"tag": "NAME",
"value": "Bartek thindil Jasicki"
},
{
"context": "-- Copyright (c) 2021 Bartek thindil Jasicki <thindil@laeran.pl>\n--\n-- This program is free software: you can red",
"end": 63,
"score": 0.9999339580535889,
"start": 46,
"tag": "EMAIL",
"value": "thindil@laeran.pl"
}
] | src/ui/dialogs.ads | thindil/steamsky | 80 | -- Copyright (c) 2021 Bartek thindil Jasicki <thindil@laeran.pl>
--
-- This program is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
with Interfaces.C; use Interfaces.C;
with CArgv;
with Tcl.Tk.Ada.Widgets.TtkFrame; use Tcl.Tk.Ada.Widgets.TtkFrame;
with Game; use Game;
with Items; use Items;
-- ****h* Dialogs/Dialogs
-- FUNCTION
-- Provide code to show various in game dialogs (messages, questins, etc)
-- SOURCE
package Dialogs is
-- ****
-- ****f* Dialogs/Dialogs.Create_Dialog
-- FUNCTION
-- Create a new dialog with the selected title
-- PARAMETERS
-- Name - The Tk path name of the new dialog
-- Title - The title of the new dialog
-- Title_Width - The maximum width of the title. Used to set wrapping for
-- it. Default value is 275 pixels. Can be empty.
-- Columns - The amount of columns which dialog will have. Used to set
-- the title. Default value is 1 column. Can be empty.
-- RESULT
-- The newly created Dialog as Ttk_Frame
-- SOURCE
function Create_Dialog
(Name, Title: String; Title_Width: Positive := 275;
Columns: Positive := 1; Parent_Name: String := ".gameframe")
return Ttk_Frame;
-- ****
-- ****f* Dialogs/Dialogs.Add_Close_Button
-- FUNCTION
-- Add button to close the selected dialog and set proper bindings for
-- it.
-- PARAMETERS
-- Name - The Tk path name for the button
-- Text - The text to display on the button
-- Command - The Tcl command to run when the button was clicked
-- Columnspan - The amount of columns to merge when placing the close
-- button. Can be empty. Default value is 1 (no merging).
-- Row - The row in which the button will be placed. Can be empty.
-- Default value is 0 (place button in the next row)
-- SOURCE
procedure Add_Close_Button
(Name, Text, Command: String; ColumnSpan: Positive := 1;
Row: Natural := 0);
-- ****
-- ****f* Dialogs/Dialogs.Show_Dialog
-- FUNCTION
-- Show the selected dialog to the player
-- PARAMETERS
-- Dialog - The dialog which will be shown
-- Parent_Frame - The parent frame name for the dialog. Can be empty.
-- Default value is .gameframe
-- With_Timer - If True, add timer to the dialog. Can be empty. Default
-- value is False
-- Relative_X - Relative X coordinate inside of parent frame for the
-- dialog. 0.0 is left border. Can be empty. Default value
-- is 0.3
-- Relative_Y - Relative Y coordinate inside of parent frame for the
-- dialog. 0.0 is top border. Can be empty. Default value is
-- 0.3
-- SOURCE
procedure Show_Dialog
(Dialog: Ttk_Frame; Parent_Frame: String := ".gameframe";
With_Timer: Boolean := False;
Relative_X, Relative_Y: Damage_Factor := 0.3);
-- ****
-- ****o* Dialogs/Dialogs.Close_Dialog_Command
-- FUNCTION
-- Close the selected dialog
-- PARAMETERS
-- ClientData - Custom data send to the command. Unused
-- Interp - Tcl interpreter in which command was executed.
-- Argc - Number of arguments passed to the command.
-- Argv - Values of arguments passed to the command.
-- RESULT
-- This function always return TCL_OK
-- COMMANDS
-- CloseDialog dialogname
-- Dialogname is name of the dialog to close
-- SOURCE
function Close_Dialog_Command
(ClientData: Integer; Interp: Tcl.Tcl_Interp; Argc: Interfaces.C.int;
Argv: CArgv.Chars_Ptr_Ptr) return Interfaces.C.int with
Convention => C;
-- ****
-- ****f* Dialogs/Dialogs.Add_Commands
-- FUNCTION
-- Add Tcl commands related to dialogs
-- SOURCE
procedure Add_Commands;
-- ****
-- ****f* Dialogs/Dialogs.ShowMessage
-- FUNCTION
-- Show the selected message to a player
-- PARAMETERS
-- Text - Text of message to show
-- ParentFrame - The parent frame of the message dialog. Default is
-- the game frame. Can be empty
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowMessage
(Text: String; ParentFrame: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentFrame'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowInfo
-- FUNCTION
-- Show the selected info to a player
-- PARAMETERS
-- Text - Text of info to show
-- ParentName - Name of the parent widget. If empty, then the main game
-- window will be used as parent for widget. Default value
-- is .gameframe
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowInfo
(Text: String; ParentName: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentName'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowManipulateItem
-- FUNCTION
-- Show the dialog for manipulate items amount in cargo (like selling,
-- dropping, etc).
-- PARAMETERS
-- Title - Title of the dialog
-- Command - Tcl command which will be executed when the player hit
-- the button Ok
-- Action - The name of action which the player is doing (like drop,
-- sell, ect)
-- ItemIndex - The index of the item which will be manipulated
-- MaxAmount - Max amount of the items to manipualate. If zero, use max
-- amount of items from player ship cargo. Default value is
-- zero.
-- Cost - The cost (in buying) or gain (in selling) for one item in
-- the game money. Can be zero. Default value is zero.
-- SOURCE
procedure ShowManipulateItem
(Title, Command, Action: String;
ItemIndex: Inventory_Container.Extended_Index;
MaxAmount, Cost: Natural := 0) with
Pre => Title'Length > 0 and Command'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowQuestion
-- FUNCTION
-- Show the dialog with question to the player
-- PARAMETERS
-- Question - The question which will be the player asked for
-- Result - The value set for Ok button
-- In_Game - The question in show during game
-- HISTORY
-- 5.9 - Added
-- SOURCE
procedure ShowQuestion
(Question, Result: String; In_Game: Boolean := True) with
Pre => Question'Length > 0;
-- ****
end Dialogs;
| 30527 | -- Copyright (c) 2021 <NAME> <<EMAIL>>
--
-- This program is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
with Interfaces.C; use Interfaces.C;
with CArgv;
with Tcl.Tk.Ada.Widgets.TtkFrame; use Tcl.Tk.Ada.Widgets.TtkFrame;
with Game; use Game;
with Items; use Items;
-- ****h* Dialogs/Dialogs
-- FUNCTION
-- Provide code to show various in game dialogs (messages, questins, etc)
-- SOURCE
package Dialogs is
-- ****
-- ****f* Dialogs/Dialogs.Create_Dialog
-- FUNCTION
-- Create a new dialog with the selected title
-- PARAMETERS
-- Name - The Tk path name of the new dialog
-- Title - The title of the new dialog
-- Title_Width - The maximum width of the title. Used to set wrapping for
-- it. Default value is 275 pixels. Can be empty.
-- Columns - The amount of columns which dialog will have. Used to set
-- the title. Default value is 1 column. Can be empty.
-- RESULT
-- The newly created Dialog as Ttk_Frame
-- SOURCE
function Create_Dialog
(Name, Title: String; Title_Width: Positive := 275;
Columns: Positive := 1; Parent_Name: String := ".gameframe")
return Ttk_Frame;
-- ****
-- ****f* Dialogs/Dialogs.Add_Close_Button
-- FUNCTION
-- Add button to close the selected dialog and set proper bindings for
-- it.
-- PARAMETERS
-- Name - The Tk path name for the button
-- Text - The text to display on the button
-- Command - The Tcl command to run when the button was clicked
-- Columnspan - The amount of columns to merge when placing the close
-- button. Can be empty. Default value is 1 (no merging).
-- Row - The row in which the button will be placed. Can be empty.
-- Default value is 0 (place button in the next row)
-- SOURCE
procedure Add_Close_Button
(Name, Text, Command: String; ColumnSpan: Positive := 1;
Row: Natural := 0);
-- ****
-- ****f* Dialogs/Dialogs.Show_Dialog
-- FUNCTION
-- Show the selected dialog to the player
-- PARAMETERS
-- Dialog - The dialog which will be shown
-- Parent_Frame - The parent frame name for the dialog. Can be empty.
-- Default value is .gameframe
-- With_Timer - If True, add timer to the dialog. Can be empty. Default
-- value is False
-- Relative_X - Relative X coordinate inside of parent frame for the
-- dialog. 0.0 is left border. Can be empty. Default value
-- is 0.3
-- Relative_Y - Relative Y coordinate inside of parent frame for the
-- dialog. 0.0 is top border. Can be empty. Default value is
-- 0.3
-- SOURCE
procedure Show_Dialog
(Dialog: Ttk_Frame; Parent_Frame: String := ".gameframe";
With_Timer: Boolean := False;
Relative_X, Relative_Y: Damage_Factor := 0.3);
-- ****
-- ****o* Dialogs/Dialogs.Close_Dialog_Command
-- FUNCTION
-- Close the selected dialog
-- PARAMETERS
-- ClientData - Custom data send to the command. Unused
-- Interp - Tcl interpreter in which command was executed.
-- Argc - Number of arguments passed to the command.
-- Argv - Values of arguments passed to the command.
-- RESULT
-- This function always return TCL_OK
-- COMMANDS
-- CloseDialog dialogname
-- Dialogname is name of the dialog to close
-- SOURCE
function Close_Dialog_Command
(ClientData: Integer; Interp: Tcl.Tcl_Interp; Argc: Interfaces.C.int;
Argv: CArgv.Chars_Ptr_Ptr) return Interfaces.C.int with
Convention => C;
-- ****
-- ****f* Dialogs/Dialogs.Add_Commands
-- FUNCTION
-- Add Tcl commands related to dialogs
-- SOURCE
procedure Add_Commands;
-- ****
-- ****f* Dialogs/Dialogs.ShowMessage
-- FUNCTION
-- Show the selected message to a player
-- PARAMETERS
-- Text - Text of message to show
-- ParentFrame - The parent frame of the message dialog. Default is
-- the game frame. Can be empty
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowMessage
(Text: String; ParentFrame: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentFrame'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowInfo
-- FUNCTION
-- Show the selected info to a player
-- PARAMETERS
-- Text - Text of info to show
-- ParentName - Name of the parent widget. If empty, then the main game
-- window will be used as parent for widget. Default value
-- is .gameframe
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowInfo
(Text: String; ParentName: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentName'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowManipulateItem
-- FUNCTION
-- Show the dialog for manipulate items amount in cargo (like selling,
-- dropping, etc).
-- PARAMETERS
-- Title - Title of the dialog
-- Command - Tcl command which will be executed when the player hit
-- the button Ok
-- Action - The name of action which the player is doing (like drop,
-- sell, ect)
-- ItemIndex - The index of the item which will be manipulated
-- MaxAmount - Max amount of the items to manipualate. If zero, use max
-- amount of items from player ship cargo. Default value is
-- zero.
-- Cost - The cost (in buying) or gain (in selling) for one item in
-- the game money. Can be zero. Default value is zero.
-- SOURCE
procedure ShowManipulateItem
(Title, Command, Action: String;
ItemIndex: Inventory_Container.Extended_Index;
MaxAmount, Cost: Natural := 0) with
Pre => Title'Length > 0 and Command'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowQuestion
-- FUNCTION
-- Show the dialog with question to the player
-- PARAMETERS
-- Question - The question which will be the player asked for
-- Result - The value set for Ok button
-- In_Game - The question in show during game
-- HISTORY
-- 5.9 - Added
-- SOURCE
procedure ShowQuestion
(Question, Result: String; In_Game: Boolean := True) with
Pre => Question'Length > 0;
-- ****
end Dialogs;
| true | -- Copyright (c) 2021 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- This program is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
with Interfaces.C; use Interfaces.C;
with CArgv;
with Tcl.Tk.Ada.Widgets.TtkFrame; use Tcl.Tk.Ada.Widgets.TtkFrame;
with Game; use Game;
with Items; use Items;
-- ****h* Dialogs/Dialogs
-- FUNCTION
-- Provide code to show various in game dialogs (messages, questins, etc)
-- SOURCE
package Dialogs is
-- ****
-- ****f* Dialogs/Dialogs.Create_Dialog
-- FUNCTION
-- Create a new dialog with the selected title
-- PARAMETERS
-- Name - The Tk path name of the new dialog
-- Title - The title of the new dialog
-- Title_Width - The maximum width of the title. Used to set wrapping for
-- it. Default value is 275 pixels. Can be empty.
-- Columns - The amount of columns which dialog will have. Used to set
-- the title. Default value is 1 column. Can be empty.
-- RESULT
-- The newly created Dialog as Ttk_Frame
-- SOURCE
function Create_Dialog
(Name, Title: String; Title_Width: Positive := 275;
Columns: Positive := 1; Parent_Name: String := ".gameframe")
return Ttk_Frame;
-- ****
-- ****f* Dialogs/Dialogs.Add_Close_Button
-- FUNCTION
-- Add button to close the selected dialog and set proper bindings for
-- it.
-- PARAMETERS
-- Name - The Tk path name for the button
-- Text - The text to display on the button
-- Command - The Tcl command to run when the button was clicked
-- Columnspan - The amount of columns to merge when placing the close
-- button. Can be empty. Default value is 1 (no merging).
-- Row - The row in which the button will be placed. Can be empty.
-- Default value is 0 (place button in the next row)
-- SOURCE
procedure Add_Close_Button
(Name, Text, Command: String; ColumnSpan: Positive := 1;
Row: Natural := 0);
-- ****
-- ****f* Dialogs/Dialogs.Show_Dialog
-- FUNCTION
-- Show the selected dialog to the player
-- PARAMETERS
-- Dialog - The dialog which will be shown
-- Parent_Frame - The parent frame name for the dialog. Can be empty.
-- Default value is .gameframe
-- With_Timer - If True, add timer to the dialog. Can be empty. Default
-- value is False
-- Relative_X - Relative X coordinate inside of parent frame for the
-- dialog. 0.0 is left border. Can be empty. Default value
-- is 0.3
-- Relative_Y - Relative Y coordinate inside of parent frame for the
-- dialog. 0.0 is top border. Can be empty. Default value is
-- 0.3
-- SOURCE
procedure Show_Dialog
(Dialog: Ttk_Frame; Parent_Frame: String := ".gameframe";
With_Timer: Boolean := False;
Relative_X, Relative_Y: Damage_Factor := 0.3);
-- ****
-- ****o* Dialogs/Dialogs.Close_Dialog_Command
-- FUNCTION
-- Close the selected dialog
-- PARAMETERS
-- ClientData - Custom data send to the command. Unused
-- Interp - Tcl interpreter in which command was executed.
-- Argc - Number of arguments passed to the command.
-- Argv - Values of arguments passed to the command.
-- RESULT
-- This function always return TCL_OK
-- COMMANDS
-- CloseDialog dialogname
-- Dialogname is name of the dialog to close
-- SOURCE
function Close_Dialog_Command
(ClientData: Integer; Interp: Tcl.Tcl_Interp; Argc: Interfaces.C.int;
Argv: CArgv.Chars_Ptr_Ptr) return Interfaces.C.int with
Convention => C;
-- ****
-- ****f* Dialogs/Dialogs.Add_Commands
-- FUNCTION
-- Add Tcl commands related to dialogs
-- SOURCE
procedure Add_Commands;
-- ****
-- ****f* Dialogs/Dialogs.ShowMessage
-- FUNCTION
-- Show the selected message to a player
-- PARAMETERS
-- Text - Text of message to show
-- ParentFrame - The parent frame of the message dialog. Default is
-- the game frame. Can be empty
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowMessage
(Text: String; ParentFrame: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentFrame'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowInfo
-- FUNCTION
-- Show the selected info to a player
-- PARAMETERS
-- Text - Text of info to show
-- ParentName - Name of the parent widget. If empty, then the main game
-- window will be used as parent for widget. Default value
-- is .gameframe
-- Title - The text show in the dialog header.
-- SOURCE
procedure ShowInfo
(Text: String; ParentName: String := ".gameframe"; Title: String) with
Pre => Text'Length > 0 and ParentName'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowManipulateItem
-- FUNCTION
-- Show the dialog for manipulate items amount in cargo (like selling,
-- dropping, etc).
-- PARAMETERS
-- Title - Title of the dialog
-- Command - Tcl command which will be executed when the player hit
-- the button Ok
-- Action - The name of action which the player is doing (like drop,
-- sell, ect)
-- ItemIndex - The index of the item which will be manipulated
-- MaxAmount - Max amount of the items to manipualate. If zero, use max
-- amount of items from player ship cargo. Default value is
-- zero.
-- Cost - The cost (in buying) or gain (in selling) for one item in
-- the game money. Can be zero. Default value is zero.
-- SOURCE
procedure ShowManipulateItem
(Title, Command, Action: String;
ItemIndex: Inventory_Container.Extended_Index;
MaxAmount, Cost: Natural := 0) with
Pre => Title'Length > 0 and Command'Length > 0;
-- ****
-- ****f* Dialogs/Dialogs.ShowQuestion
-- FUNCTION
-- Show the dialog with question to the player
-- PARAMETERS
-- Question - The question which will be the player asked for
-- Result - The value set for Ok button
-- In_Game - The question in show during game
-- HISTORY
-- 5.9 - Added
-- SOURCE
procedure ShowQuestion
(Question, Result: String; In_Game: Boolean := True) with
Pre => Question'Length > 0;
-- ****
end Dialogs;
|
[
{
"context": "--\n-- Copyright 2018 The wookey project team <wookey@ssi.gouv.fr>\n-- - Ryad Benadjila\n-- - Arnauld Michel",
"end": 64,
"score": 0.9999327659606934,
"start": 46,
"tag": "EMAIL",
"value": "wookey@ssi.gouv.fr"
},
{
"context": "he wookey project team <wookey@ssi.gouv.fr>\n-- - Ryad Benadjila\n-- - Arnauld Michelizza\n-- - Mathieu Renard",
"end": 91,
"score": 0.9983198046684265,
"start": 73,
"tag": "NAME",
"value": "Ryad Benadjila"
},
{
"context": "okey@ssi.gouv.fr>\n-- - Ryad Benadjila\n-- - Arnauld Michelizza\n-- - Mathieu Renard\n-- - Philippe Thierry\n--",
"end": 118,
"score": 0.9638456702232361,
"start": 99,
"tag": "NAME",
"value": "Arnauld Michelizza"
},
{
"context": "ad Benadjila\n-- - Arnauld Michelizza\n-- - Mathieu Renard\n-- - Philippe Thierry\n-- - Philippe Trebuchet",
"end": 141,
"score": 0.90855473279953,
"start": 126,
"tag": "NAME",
"value": "Mathieu Renard"
},
{
"context": " Arnauld Michelizza\n-- - Mathieu Renard\n-- - Philippe Thierry\n-- - Philippe Trebuchet\n--\n-- Licensed under th",
"end": 165,
"score": 0.999815821647644,
"start": 149,
"tag": "NAME",
"value": "Philippe Thierry"
},
{
"context": " - Mathieu Renard\n-- - Philippe Thierry\n-- - Philippe Trebuchet\n--\n-- Licensed under the Apache License, Version ",
"end": 191,
"score": 0.9998639225959778,
"start": 173,
"tag": "NAME",
"value": "Philippe Trebuchet"
}
] | src/exported/ewok-exported-devices.ads | PThierry/ewok-kernel | 65 | --
-- Copyright 2018 The wookey project team <wookey@ssi.gouv.fr>
-- - Ryad Benadjila
-- - Arnauld Michelizza
-- - Mathieu Renard
-- - Philippe Thierry
-- - Philippe Trebuchet
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
--
--
with types.c;
with ewok.exported.interrupts;
with ewok.exported.gpios;
package ewok.exported.devices
with spark_mode => off
is
MAX_INTERRUPTS : constant := 4;
MAX_GPIOS : constant := 16;
subtype t_device_name is types.c.c_string (1 .. 16);
type t_device_name_access is access all t_device_name;
type t_interrupt_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.interrupts.t_interrupt_config;
type t_gpio_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.gpios.t_gpio_config;
type t_dev_map_mode is
(DEV_MAP_AUTO,
DEV_MAP_VOLUNTARY);
type t_user_device is record
name : t_device_name;
base_addr : system_address := 0;
size : unsigned_32 := 0;
interrupt_num : unsigned_8 range 0 .. MAX_INTERRUPTS := 0;
gpio_num : unsigned_8 range 0 .. MAX_GPIOS := 0;
map_mode : t_dev_map_mode;
interrupts : t_interrupt_config_array (1 .. MAX_INTERRUPTS);
gpios : t_gpio_config_array (1 .. MAX_GPIOS);
end record;
type t_user_device_access is access all t_user_device;
end ewok.exported.devices;
| 12113 | --
-- Copyright 2018 The wookey project team <<EMAIL>>
-- - <NAME>
-- - <NAME>
-- - <NAME>
-- - <NAME>
-- - <NAME>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
--
--
with types.c;
with ewok.exported.interrupts;
with ewok.exported.gpios;
package ewok.exported.devices
with spark_mode => off
is
MAX_INTERRUPTS : constant := 4;
MAX_GPIOS : constant := 16;
subtype t_device_name is types.c.c_string (1 .. 16);
type t_device_name_access is access all t_device_name;
type t_interrupt_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.interrupts.t_interrupt_config;
type t_gpio_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.gpios.t_gpio_config;
type t_dev_map_mode is
(DEV_MAP_AUTO,
DEV_MAP_VOLUNTARY);
type t_user_device is record
name : t_device_name;
base_addr : system_address := 0;
size : unsigned_32 := 0;
interrupt_num : unsigned_8 range 0 .. MAX_INTERRUPTS := 0;
gpio_num : unsigned_8 range 0 .. MAX_GPIOS := 0;
map_mode : t_dev_map_mode;
interrupts : t_interrupt_config_array (1 .. MAX_INTERRUPTS);
gpios : t_gpio_config_array (1 .. MAX_GPIOS);
end record;
type t_user_device_access is access all t_user_device;
end ewok.exported.devices;
| true | --
-- Copyright 2018 The wookey project team <PI:EMAIL:<EMAIL>END_PI>
-- - PI:NAME:<NAME>END_PI
-- - PI:NAME:<NAME>END_PI
-- - PI:NAME:<NAME>END_PI
-- - PI:NAME:<NAME>END_PI
-- - PI:NAME:<NAME>END_PI
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
--
--
with types.c;
with ewok.exported.interrupts;
with ewok.exported.gpios;
package ewok.exported.devices
with spark_mode => off
is
MAX_INTERRUPTS : constant := 4;
MAX_GPIOS : constant := 16;
subtype t_device_name is types.c.c_string (1 .. 16);
type t_device_name_access is access all t_device_name;
type t_interrupt_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.interrupts.t_interrupt_config;
type t_gpio_config_array is
array (unsigned_8 range <>) of
aliased ewok.exported.gpios.t_gpio_config;
type t_dev_map_mode is
(DEV_MAP_AUTO,
DEV_MAP_VOLUNTARY);
type t_user_device is record
name : t_device_name;
base_addr : system_address := 0;
size : unsigned_32 := 0;
interrupt_num : unsigned_8 range 0 .. MAX_INTERRUPTS := 0;
gpio_num : unsigned_8 range 0 .. MAX_GPIOS := 0;
map_mode : t_dev_map_mode;
interrupts : t_interrupt_config_array (1 .. MAX_INTERRUPTS);
gpios : t_gpio_config_array (1 .. MAX_GPIOS);
end record;
type t_user_device_access is access all t_user_device;
end ewok.exported.devices;
|
[
{
"context": "-- WORDS, a Latin dictionary, by Colonel William Whitaker (USAF, Retired)\n--\n-- Copyright William A. Whitak",
"end": 57,
"score": 0.9998578429222107,
"start": 33,
"tag": "NAME",
"value": "Colonel William Whitaker"
},
{
"context": "l William Whitaker (USAF, Retired)\n--\n-- Copyright William A. Whitaker (1936–2010)\n--\n-- This is a free program, which m",
"end": 109,
"score": 0.999844491481781,
"start": 90,
"tag": "NAME",
"value": "William A. Whitaker"
}
] | src/latin_utils/latin_utils-dictionary_package-adjective_entry_io.adb | spr93/whitakers-words | 204 | -- WORDS, a Latin dictionary, by Colonel William Whitaker (USAF, Retired)
--
-- Copyright William A. Whitaker (1936–2010)
--
-- This is a free program, which means it is proper to copy it and pass
-- it on to your friends. Consider it a developmental item for which
-- there is no charge. However, just for form, it is Copyrighted
-- (c). Permission is hereby freely given for any and all use of program
-- and data. You can sell it as your own, but at least tell me.
--
-- This version is distributed without obligation, but the developer
-- would appreciate comments and suggestions.
--
-- All parts of the WORDS system, source code and data files, are made freely
-- available to anyone who wishes to use them, for whatever purpose.
separate (Latin_Utils.Dictionary_Package)
package body Adjective_Entry_IO is
---------------------------------------------------------------------------
procedure Get (File : in Ada.Text_IO.File_Type; Item : out Adjective_Entry)
is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (File, Item.Decl);
Ada.Text_IO.Get (File, Spacer);
Comparison_Type_IO.Get (File, Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Get (Item : out Adjective_Entry) is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (Item.Decl);
Ada.Text_IO.Get (Spacer);
Comparison_Type_IO.Get (Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Put (File : in Ada.Text_IO.File_Type; Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (File, Item.Decl);
Ada.Text_IO.Put (File, ' ');
Comparison_Type_IO.Put (File, Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Put (Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (Item.Decl);
Ada.Text_IO.Put (' ');
Comparison_Type_IO.Put (Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Get
(Source : in String;
Target : out Adjective_Entry;
Last : out Integer
)
is
-- Used for computing lower bound of substring
Low : Integer := Source'First - 1;
begin
Decn_Record_IO.Get (Source (Low + 1 .. Source'Last), Target.Decl, Low);
Low := Low + 1;
Comparison_Type_IO.Get (Source (Low + 1 .. Source'Last), Target.Co, Last);
end Get;
---------------------------------------------------------------------------
procedure Put (Target : out String; Item : in Adjective_Entry) is
-- These variables are used for computing bounds of substrings
Low : Integer := Target'First - 1;
High : Integer := 0;
begin
-- Put Decn_Record
High := Low + Decn_Record_IO.Default_Width;
Decn_Record_IO.Put (Target (Low + 1 .. High), Item.Decl);
Low := High + 1;
Target (Low) := ' ';
-- Put Comparison_Type
High := Low + Comparison_Type_IO.Default_Width;
Comparison_Type_IO.Put (Target (Low + 1 .. High), Item.Co);
-- Fill remainder of string
Target (High + 1 .. Target'Last) := (others => ' ');
end Put;
---------------------------------------------------------------------------
end Adjective_Entry_IO;
| 22156 | -- WORDS, a Latin dictionary, by <NAME> (USAF, Retired)
--
-- Copyright <NAME> (1936–2010)
--
-- This is a free program, which means it is proper to copy it and pass
-- it on to your friends. Consider it a developmental item for which
-- there is no charge. However, just for form, it is Copyrighted
-- (c). Permission is hereby freely given for any and all use of program
-- and data. You can sell it as your own, but at least tell me.
--
-- This version is distributed without obligation, but the developer
-- would appreciate comments and suggestions.
--
-- All parts of the WORDS system, source code and data files, are made freely
-- available to anyone who wishes to use them, for whatever purpose.
separate (Latin_Utils.Dictionary_Package)
package body Adjective_Entry_IO is
---------------------------------------------------------------------------
procedure Get (File : in Ada.Text_IO.File_Type; Item : out Adjective_Entry)
is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (File, Item.Decl);
Ada.Text_IO.Get (File, Spacer);
Comparison_Type_IO.Get (File, Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Get (Item : out Adjective_Entry) is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (Item.Decl);
Ada.Text_IO.Get (Spacer);
Comparison_Type_IO.Get (Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Put (File : in Ada.Text_IO.File_Type; Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (File, Item.Decl);
Ada.Text_IO.Put (File, ' ');
Comparison_Type_IO.Put (File, Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Put (Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (Item.Decl);
Ada.Text_IO.Put (' ');
Comparison_Type_IO.Put (Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Get
(Source : in String;
Target : out Adjective_Entry;
Last : out Integer
)
is
-- Used for computing lower bound of substring
Low : Integer := Source'First - 1;
begin
Decn_Record_IO.Get (Source (Low + 1 .. Source'Last), Target.Decl, Low);
Low := Low + 1;
Comparison_Type_IO.Get (Source (Low + 1 .. Source'Last), Target.Co, Last);
end Get;
---------------------------------------------------------------------------
procedure Put (Target : out String; Item : in Adjective_Entry) is
-- These variables are used for computing bounds of substrings
Low : Integer := Target'First - 1;
High : Integer := 0;
begin
-- Put Decn_Record
High := Low + Decn_Record_IO.Default_Width;
Decn_Record_IO.Put (Target (Low + 1 .. High), Item.Decl);
Low := High + 1;
Target (Low) := ' ';
-- Put Comparison_Type
High := Low + Comparison_Type_IO.Default_Width;
Comparison_Type_IO.Put (Target (Low + 1 .. High), Item.Co);
-- Fill remainder of string
Target (High + 1 .. Target'Last) := (others => ' ');
end Put;
---------------------------------------------------------------------------
end Adjective_Entry_IO;
| true | -- WORDS, a Latin dictionary, by PI:NAME:<NAME>END_PI (USAF, Retired)
--
-- Copyright PI:NAME:<NAME>END_PI (1936–2010)
--
-- This is a free program, which means it is proper to copy it and pass
-- it on to your friends. Consider it a developmental item for which
-- there is no charge. However, just for form, it is Copyrighted
-- (c). Permission is hereby freely given for any and all use of program
-- and data. You can sell it as your own, but at least tell me.
--
-- This version is distributed without obligation, but the developer
-- would appreciate comments and suggestions.
--
-- All parts of the WORDS system, source code and data files, are made freely
-- available to anyone who wishes to use them, for whatever purpose.
separate (Latin_Utils.Dictionary_Package)
package body Adjective_Entry_IO is
---------------------------------------------------------------------------
procedure Get (File : in Ada.Text_IO.File_Type; Item : out Adjective_Entry)
is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (File, Item.Decl);
Ada.Text_IO.Get (File, Spacer);
Comparison_Type_IO.Get (File, Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Get (Item : out Adjective_Entry) is
Spacer : Character;
pragma Unreferenced (Spacer);
begin
Decn_Record_IO.Get (Item.Decl);
Ada.Text_IO.Get (Spacer);
Comparison_Type_IO.Get (Item.Co);
end Get;
---------------------------------------------------------------------------
procedure Put (File : in Ada.Text_IO.File_Type; Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (File, Item.Decl);
Ada.Text_IO.Put (File, ' ');
Comparison_Type_IO.Put (File, Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Put (Item : in Adjective_Entry) is
begin
Decn_Record_IO.Put (Item.Decl);
Ada.Text_IO.Put (' ');
Comparison_Type_IO.Put (Item.Co);
end Put;
---------------------------------------------------------------------------
procedure Get
(Source : in String;
Target : out Adjective_Entry;
Last : out Integer
)
is
-- Used for computing lower bound of substring
Low : Integer := Source'First - 1;
begin
Decn_Record_IO.Get (Source (Low + 1 .. Source'Last), Target.Decl, Low);
Low := Low + 1;
Comparison_Type_IO.Get (Source (Low + 1 .. Source'Last), Target.Co, Last);
end Get;
---------------------------------------------------------------------------
procedure Put (Target : out String; Item : in Adjective_Entry) is
-- These variables are used for computing bounds of substrings
Low : Integer := Target'First - 1;
High : Integer := 0;
begin
-- Put Decn_Record
High := Low + Decn_Record_IO.Default_Width;
Decn_Record_IO.Put (Target (Low + 1 .. High), Item.Decl);
Low := High + 1;
Target (Low) := ' ';
-- Put Comparison_Type
High := Low + Comparison_Type_IO.Default_Width;
Comparison_Type_IO.Put (Target (Low + 1 .. High), Item.Co);
-- Fill remainder of string
Target (High + 1 .. Target'Last) := (others => ' ');
end Put;
---------------------------------------------------------------------------
end Adjective_Entry_IO;
|
[
{
"context": "-beans -- Storage Ada Beans\n-- Copyright (C) 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@g",
"end": 154,
"score": 0.9998679161071777,
"start": 139,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": " Copyright (C) 2012 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under",
"end": 185,
"score": 0.9998763203620911,
"start": 170,
"tag": "NAME",
"value": "Stephane Carrez"
},
{
"context": "2 Stephane Carrez\n-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)\n--\n-- Licensed under the Apache License, Versio",
"end": 212,
"score": 0.99992835521698,
"start": 187,
"tag": "EMAIL",
"value": "Stephane.Carrez@gmail.com"
}
] | awa/plugins/awa-storages/src/awa-storages-beans.ads | Letractively/ada-awa | 0 | -----------------------------------------------------------------------
-- awa-storages-beans -- Storage Ada Beans
-- Copyright (C) 2012 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with AWA.Storages.Models;
with AWA.Storages.Modules;
with ASF.Parts;
with Util.Beans.Objects;
with Util.Beans.Basic;
package AWA.Storages.Beans is
FOLDER_ID_PARAMETER : constant String := "folderId";
-- ------------------------------
-- Upload Bean
-- ------------------------------
-- The <b>Upload_Bean</b> allows to upload a file in the storage space.
type Upload_Bean is new AWA.Storages.Models.Storage_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Upload_Bean_Access is access all Upload_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Upload_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Upload_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Save the uploaded file in the storage service.
-- @method
procedure Save_Part (Bean : in out Upload_Bean;
Part : in ASF.Parts.Part'Class);
-- Upload the file.
-- @method
procedure Upload (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- Delete the file.
-- @method
procedure Delete (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- ------------------------------
-- Folder Bean
-- ------------------------------
-- The <b>Folder_Bean</b> allows to create or update the folder name.
type Folder_Bean is new AWA.Storages.Models.Storage_Folder_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Folder_Bean_Access is access all Folder_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Folder_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Folder_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create or save the folder.
procedure Save (Bean : in out Folder_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
type Init_Flag is (INIT_FOLDER, INIT_FOLDER_LIST, INIT_FILE_LIST);
type Init_Map is array (Init_Flag) of Boolean;
-- ------------------------------
-- Storage List Bean
-- ------------------------------
-- This bean represents a list of storage files for a given folder.
type Storage_List_Bean is new Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
-- Current folder.
Folder : aliased Folder_Bean;
Folder_Bean : Folder_Bean_Access;
-- List of folders.
Folder_List : aliased AWA.Storages.Models.Folder_Info_List_Bean;
Folder_List_Bean : AWA.Storages.Models.Folder_Info_List_Bean_Access;
-- List of files.
Files_List : aliased AWA.Storages.Models.Storage_Info_List_Bean;
Files_List_Bean : AWA.Storages.Models.Storage_Info_List_Bean_Access;
Init_Flags : aliased Init_Map := (others => False);
Flags : access Init_Map;
end record;
type Storage_List_Bean_Access is access all Storage_List_Bean'Class;
-- Load the folder instance.
procedure Load_Folder (Storage : in Storage_List_Bean);
-- Load the list of folders.
procedure Load_Folders (Storage : in Storage_List_Bean);
-- Load the list of files associated with the current folder.
procedure Load_Files (Storage : in Storage_List_Bean);
overriding
function Get_Value (List : in Storage_List_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Storage_List_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create the Folder_List_Bean bean instance.
function Create_Folder_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
-- Create the Storage_List_Bean bean instance.
function Create_Storage_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
end AWA.Storages.Beans;
| 3207 | -----------------------------------------------------------------------
-- awa-storages-beans -- Storage Ada Beans
-- Copyright (C) 2012 <NAME>
-- Written by <NAME> (<EMAIL>)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with AWA.Storages.Models;
with AWA.Storages.Modules;
with ASF.Parts;
with Util.Beans.Objects;
with Util.Beans.Basic;
package AWA.Storages.Beans is
FOLDER_ID_PARAMETER : constant String := "folderId";
-- ------------------------------
-- Upload Bean
-- ------------------------------
-- The <b>Upload_Bean</b> allows to upload a file in the storage space.
type Upload_Bean is new AWA.Storages.Models.Storage_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Upload_Bean_Access is access all Upload_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Upload_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Upload_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Save the uploaded file in the storage service.
-- @method
procedure Save_Part (Bean : in out Upload_Bean;
Part : in ASF.Parts.Part'Class);
-- Upload the file.
-- @method
procedure Upload (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- Delete the file.
-- @method
procedure Delete (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- ------------------------------
-- Folder Bean
-- ------------------------------
-- The <b>Folder_Bean</b> allows to create or update the folder name.
type Folder_Bean is new AWA.Storages.Models.Storage_Folder_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Folder_Bean_Access is access all Folder_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Folder_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Folder_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create or save the folder.
procedure Save (Bean : in out Folder_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
type Init_Flag is (INIT_FOLDER, INIT_FOLDER_LIST, INIT_FILE_LIST);
type Init_Map is array (Init_Flag) of Boolean;
-- ------------------------------
-- Storage List Bean
-- ------------------------------
-- This bean represents a list of storage files for a given folder.
type Storage_List_Bean is new Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
-- Current folder.
Folder : aliased Folder_Bean;
Folder_Bean : Folder_Bean_Access;
-- List of folders.
Folder_List : aliased AWA.Storages.Models.Folder_Info_List_Bean;
Folder_List_Bean : AWA.Storages.Models.Folder_Info_List_Bean_Access;
-- List of files.
Files_List : aliased AWA.Storages.Models.Storage_Info_List_Bean;
Files_List_Bean : AWA.Storages.Models.Storage_Info_List_Bean_Access;
Init_Flags : aliased Init_Map := (others => False);
Flags : access Init_Map;
end record;
type Storage_List_Bean_Access is access all Storage_List_Bean'Class;
-- Load the folder instance.
procedure Load_Folder (Storage : in Storage_List_Bean);
-- Load the list of folders.
procedure Load_Folders (Storage : in Storage_List_Bean);
-- Load the list of files associated with the current folder.
procedure Load_Files (Storage : in Storage_List_Bean);
overriding
function Get_Value (List : in Storage_List_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Storage_List_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create the Folder_List_Bean bean instance.
function Create_Folder_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
-- Create the Storage_List_Bean bean instance.
function Create_Storage_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
end AWA.Storages.Beans;
| true | -----------------------------------------------------------------------
-- awa-storages-beans -- Storage Ada Beans
-- Copyright (C) 2012 PI:NAME:<NAME>END_PI
-- Written by PI:NAME:<NAME>END_PI (PI:EMAIL:<EMAIL>END_PI)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded;
with AWA.Storages.Models;
with AWA.Storages.Modules;
with ASF.Parts;
with Util.Beans.Objects;
with Util.Beans.Basic;
package AWA.Storages.Beans is
FOLDER_ID_PARAMETER : constant String := "folderId";
-- ------------------------------
-- Upload Bean
-- ------------------------------
-- The <b>Upload_Bean</b> allows to upload a file in the storage space.
type Upload_Bean is new AWA.Storages.Models.Storage_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Upload_Bean_Access is access all Upload_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Upload_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Upload_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Save the uploaded file in the storage service.
-- @method
procedure Save_Part (Bean : in out Upload_Bean;
Part : in ASF.Parts.Part'Class);
-- Upload the file.
-- @method
procedure Upload (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- Delete the file.
-- @method
procedure Delete (Bean : in out Upload_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
-- ------------------------------
-- Folder Bean
-- ------------------------------
-- The <b>Folder_Bean</b> allows to create or update the folder name.
type Folder_Bean is new AWA.Storages.Models.Storage_Folder_Ref
and Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
end record;
type Folder_Bean_Access is access all Folder_Bean'Class;
-- Get the value identified by the name.
overriding
function Get_Value (From : in Folder_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Folder_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create or save the folder.
procedure Save (Bean : in out Folder_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String);
type Init_Flag is (INIT_FOLDER, INIT_FOLDER_LIST, INIT_FILE_LIST);
type Init_Map is array (Init_Flag) of Boolean;
-- ------------------------------
-- Storage List Bean
-- ------------------------------
-- This bean represents a list of storage files for a given folder.
type Storage_List_Bean is new Util.Beans.Basic.Bean with record
Module : AWA.Storages.Modules.Storage_Module_Access := null;
-- Current folder.
Folder : aliased Folder_Bean;
Folder_Bean : Folder_Bean_Access;
-- List of folders.
Folder_List : aliased AWA.Storages.Models.Folder_Info_List_Bean;
Folder_List_Bean : AWA.Storages.Models.Folder_Info_List_Bean_Access;
-- List of files.
Files_List : aliased AWA.Storages.Models.Storage_Info_List_Bean;
Files_List_Bean : AWA.Storages.Models.Storage_Info_List_Bean_Access;
Init_Flags : aliased Init_Map := (others => False);
Flags : access Init_Map;
end record;
type Storage_List_Bean_Access is access all Storage_List_Bean'Class;
-- Load the folder instance.
procedure Load_Folder (Storage : in Storage_List_Bean);
-- Load the list of folders.
procedure Load_Folders (Storage : in Storage_List_Bean);
-- Load the list of files associated with the current folder.
procedure Load_Files (Storage : in Storage_List_Bean);
overriding
function Get_Value (List : in Storage_List_Bean;
Name : in String) return Util.Beans.Objects.Object;
-- Set the value identified by the name.
overriding
procedure Set_Value (From : in out Storage_List_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object);
-- Create the Folder_List_Bean bean instance.
function Create_Folder_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
-- Create the Storage_List_Bean bean instance.
function Create_Storage_List_Bean (Module : in AWA.Storages.Modules.Storage_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access;
end AWA.Storages.Beans;
|
[
{
"context": "ed by AdaCore. --\n-- (http://www.adacore.com). ",
"end": 2791,
"score": 0.9201827049255371,
"start": 2780,
"tag": "EMAIL",
"value": "adacore.com"
}
] | src/asis/a4g-contt-ut.ads | My-Colaborations/dynamo | 15 | ------------------------------------------------------------------------------
-- --
-- ASIS-for-GNAT IMPLEMENTATION COMPONENTS --
-- --
-- A 4 G . C O N T T . U T --
-- --
-- S p e c --
-- --
-- Copyright (C) 1995-2011, Free Software Foundation, Inc. --
-- --
-- ASIS-for-GNAT is free software; you can redistribute it and/or modify it --
-- under terms of the GNU General Public License as published by the Free --
-- Software Foundation; either version 2, or (at your option) any later --
-- version. ASIS-for-GNAT is distributed in the hope that it will be use- --
-- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- --
-- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General --
-- Public License for more details. You should have received a copy of the --
-- GNU General Public License distributed with ASIS-for-GNAT; see file --
-- COPYING. If not, write to the Free Software Foundation, 51 Franklin --
-- Street, Fifth Floor, Boston, MA 02110-1301, USA. --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the --
-- Software Engineering Laboratory of the Swiss Federal Institute of --
-- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the --
-- Scientific Research Computer Center of Moscow State University (SRCC --
-- MSU), Russia, with funding partially provided by grants from the Swiss --
-- National Science Foundation and the Swiss Academy of Engineering --
-- Sciences. ASIS-for-GNAT is now maintained by AdaCore. --
-- (http://www.adacore.com). --
-- --
------------------------------------------------------------------------------
-- This package defines for each ASIS Context the corresponding Unit Table,
-- which contains all the information needed for the black-box ASIS queries
-- about Compilation Units. This table also provides the mechanism for
-- searching for a unit by its Ada name, this mechanism is some slight
-- modification of the GNAT Namet package.
with Asis; use Asis;
with Asis.Extensions; use Asis.Extensions;
package A4G.Contt.UT is -- Context_Table.Unit_Tables
---------------------
-- ASIS Unit Table --
---------------------
-- ASIS Unit Table is the main part of the implementation of ASIS Context
-- and ASIS Compilation Unit abstractions. The table is organized in the
-- following way:
-- - the internal representation of an ASIS Compilation Unit is the
-- value of the corresponding Unit Record which is kept in Unit Table
-- and indicated by Unit Id;
-- - each ASIS Context has its own Unit Table, so most the routines
-- dealing with Unit Table contain the Id of an Enclosing Context
-- as a Parameter;
-- - each ASIS Compilation Units keeps the Id of its enclosing
-- Context as a part of its value;
-- - The fully expanded Ada name, together for the spec/body sign,
-- uniquely identifies a given unit inside its enclosing
-- Context/Context; so the triple - expanded Ada name, spec/body
-- sign and some identification of the Unit's enclosing Context/Context
-- uniquely identifies a given unit among all the Unit processed
-- by ASIS;
-- - The normalized Ada name, is obtained from the fully expanded
-- Ada Unit name by folding all the upper case letters in the
-- corresponding lower case letters, appending the spec/body sign
-- (which has the form "%s" for a spec and "%b" for a body);
-- The entries in the table are accessed using a Unit_Id that ranges
-- from First_Unit_Id to Last_Unit_Id. The fields of each entry and
-- the corresponding interfaces may be subdivided into four groups.
-- The first group, called as Unit Name Table, provides the modified
-- version of the functionality of the GNAT Namet package, it is used
-- for storing the names of the Units in two forms - in the normalized
-- and in the form corresponding to the (defining) occurrence of a
-- given name in a source text. Each unit can be effectively searched
-- by its normalized name.
-- The second group contains the black-box attributes of a Unit.
-- The third group contains the information about relations (semantic
-- dependencies) between the given unit and the other units in the
-- enclosing Context/Context Note, that Ada Unit name,
-- included in the first group, logically should also be considered
-- as a black-box Unit attribute.
-- And the fourth group contains the fields needed for organization of the
-- tree swapping during the multiple Units processing.
---------------------
-- Unit Name Table --
---------------------
-- Each Unit entry contain the following fields:
-- "Normalized" Ada name "Normalized" Ada names of the ASIS Compilation
-- Units are their names with upper case letters
-- folded to lower case (by applying the
-- Ada.Character.Handling.To_Lower functions;
-- this lover-case-folding has no relation to GNAT
-- conventions described in Namet!), appended by
-- suffix %s or %b for spec or bodies/subunits, as
-- defined in Uname (spec), and prepended by
-- the string image of the Id value of the unit's
-- enclosing Context. Each of the names of this
-- kind may have only one entry in Unit Name Table.
--
-- Ada name Ada names of the ASIS Compilation Units are
-- stored keeping the casing from the source text.
-- These entries are used to implement the ASIS
-- query (-ies?) returning the Ada name of the
-- Unit. Ada names may be included more than one
-- time in Unit Name Table as the parts of the
-- different table entries, as the name of a spec
-- and the name of a corresponding body.
--
-- Source File Name The name of the Ada source file used to compile
-- the given compilation unit (on its own or as a
-- supporter of some other unit).
--
-- Reference File Name The name of the source file which represents
-- the unit source from the user's viewpoint. It is
-- the same as the Source File name unless the
-- Source_Reference pragma presents for the given
-- unit.
type Column is (Norm_Ada_Name, Ada_Name, Source_File_Name, Ref_File_Name);
-- This enumeration type defines literals used to make the difference
-- between different forms of names stored in the Unit Table
-- Really every name is kept as the reference into the Char table,
-- together with the length of its name.
-- The normalized names are hashed, so that a given normalized name appears
-- only once in the table.
-- Opposite to the GNAT name table, this name table does not handle the
-- one-character values in a special way (there is no need for it, because
-- storing an one-character name does not seem to be a usual thing
-- for this table.)
-- ASIS "normalized" Unit names follow the convention which is
-- very similar to the GNAT convention defined in Uname (spec), the
-- only difference is that ASIS folds all the upper case
-- letters to the corresponding lower case letters without any encoding.
-- ASIS packages implementing the ASIS Context model for GNAT contain
-- "ASIS-related counterparts" of some facilities provided by three
-- GNAT packages - Namet, Uname and Fname.
-- We keep storing the two values, one of type Int and one of type Byte,
-- with each names table entry and subprograms are provided for setting
-- and retrieving these associated values. But for now these values are
-- of no use in ASIS - we simply are keeping this mechanism from the
-- GNAT name table - just in case.
-- Unit Name Table may be considered as having the external view
-- of the two-column table - for each row indicated by Unit_Id the
-- first column contains the Ada name of the corresponding Unit and
-- the second column contains Unit's "normalized" name.
-- In fact we do not use any encoding-decoding in Unit Name Table. ASIS
-- supports only a standard mode of GNAT (that is, it relies on the fact
-- that all the identifiers contain only Row 00 characters). ASIS also
-- assumes that all the names of the source files are the values of
-- the Ada predefined String type.
-- All the Unit Tables shares the same Name Buffer, see the specification
-- of the parent package for its definition.
---------------------------------
-- Unit Name Table Subprograms --
---------------------------------
procedure Get_Name_String (Id : Unit_Id; Col : Column);
-- Get_Name_String is used to retrieve the one of the three strings
-- associated with an entry in the names table. The Col parameter
-- indicates which of the names should be retrieved (Ada name, normalized
-- Ada name or source file name) by indicating the "column" in the table
-- The resulting string is stored in Name_Buffer and Name_Len is set.
function Length_Of_Name (Id : Unit_Id; Col : Column) return Nat;
-- ??? pragma Inline (Length_Of_Name);
-- Returns length of given name in characters, the result is equivalent to
-- calling Get_Name_String and reading Name_Len, except that a call to
-- Length_Of_Name does not affect the contents of Name_Len and Name_Buffer.
function Name_Find (C : Context_Id) return Unit_Id;
-- Name_Find is called with a string stored in Name_Buffer whose length
-- is in Name_Len (i.e. the characters of the name are in subscript
-- positions 1 to Name_Len in Name_Buffer). It searches the names
-- table to see if the string has already been stored. If so the Id of
-- the existing entry is returned. Otherwise (opposite to the GNAT name
-- table, in which a new entry is created it this situation with its
-- Name_Table_Info field set to zero) the Id value corresponding to the
-- ASIS Nil_Compilation_Unit, that is Nil_Unit, is returned.
--
-- Only normalized Ada names are hashed, so this function is intended to
-- be applied to the normalized names only (in is not an error to apply
-- it to other forms of names stored in the table, but the result will
-- always be Nil_Unit.
function Allocate_Unit_Entry (C : Context_Id) return Unit_Id;
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name. It also
-- increases by one the counter of allocated bodies or specs, depending
-- on the suffix in the normalized unit name.
function Allocate_Nonexistent_Unit_Entry (C : Context_Id) return Unit_Id;
-- Differs from the previous function in the following aspects:
-- - 'n' is added to the name suffix to mark that this entry
-- corresponds to the nonexistent unit;
-- - The body/spec counters are not increased
-- - all the attributes of the allocated nonexistent unit are set by
-- this procedure.
--
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name.
function Set_Unit (C : Context_Id; U : Unit_Number_Type) return Unit_Id;
-- Creates the Unit table entry for the unit U and sets the normalized
-- unit name (which is supposed to be stored in A_Name_Buffer when this
-- procedure is called) and the time stamp for the unit. It also adds
-- the (Id of the) currently accessed tree to the (empty) list
-- of (consistent) trees for this unit. All the other unit attributes
-- are set to nil values. The ID of the created entry is returned as a
-- result
procedure Set_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the Ada name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Norm_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the "normalized" Ada name of the ASIS Unit indicated by Id
-- value
procedure Set_Ref_File_As_Source_File (U : Unit_Id);
-- For a given unit in a given context, sets the reference file name equal
-- to the source file name (by copying the corresponding references to
-- the ASIS Chars table
procedure Set_Source_File_Name (Id : Unit_Id; Ref : Boolean := False);
pragma Inline (Set_Source_File_Name);
-- Sets the string stored in the A_Name_Buffer whose length is A_Name_Len
-- as the value of the source or reference (depending on the actual set
-- for the Ref parameter) file name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name_String;
-- Sets the Normalized Ada Unit name as the value of Name_Buffer.
-- This normalized version of the Ada Unit name is
-- obtained by folding to lover cases of the GNAT unit name
-- which should be previously get as the content of
-- Namet.Name_Buffer (that means that every call to this procedure
-- should be preceded by the appropriate call to
-- Namet.Get_Unqualified_Decoded_Name_String (or
-- Namet.Get_Decoded_Name_String if the caller is sure, that the name is
-- not qualified)
procedure Set_Norm_Ada_Name_String_With_Check
(Unit : Unit_Number_Type;
Success : out Boolean);
-- This is the modified version of Set_Norm_Ada_Name_String: after setting
-- the ASIS name buffer it checks if Unit should be considered as
-- Compilation_Unit by ASIS. The need for this check caused by artificial
-- compilation units created by the compiler for library-level generic
-- instantiations. If the check is successful, Success is set True,
-- otherwise it is set False.
--
-- In case of a tree created for library-level instantiation of a generic
-- package (only package ???) GNAT sets the suffix of the name of the
-- corresponding unit in its unit table as '%b', but ASIS has to see
-- this unit as a spec, therefore in this case this procedure resets the
-- suffix of the unit name to '%s'
procedure Set_Ref_File_Name_String (U : Unit_Id);
-- Is supposed to be called when GNAT Namet.Name_Buffer contains a full
-- reference file name. It sets the Reference File name as the value of
-- A_Name_Buffer. This name is composed from the reference file name
-- obtained from the tree and from the source file name (in which the
-- directory information is already adjusted , if needed, by the
-- corresponding call to Set_S_File_Name_String) to contain the directory
-- information needed to access this file from the current directory.
-------------------------------
-- Black-Box Unit Attributes --
-------------------------------
-- Each Unit entry contains the following fields, representing the Unit
-- black-box attributes, which are for the direct interest for the ASIS
-- queries from the Asis_Compilation_Unit package, the primary idea of
-- implementing the Context/Compilation_Unit stuff in ASIS-for-GNAT is
-- to compute each of these attribute only once, when the new tree is
-- inputted by ASIS for the first time, and then store them in Unit
-- Table, so then ASIS queries will be able to get the required
-- answer without any new tree processing:
-- Top : Node_Id;
-- The top node of the unit subtree in the currently accessed full tree.
-- From one side, this node should be reset every time the full tree
-- is changed. From the other side, the corresponding actions may be
-- considered as too time-consumed. This problem is postponed now as
-- OPEN PROBLEM, it is not important till we are working under the
-- limitation "only one tree can be accessed at a time"
-- Enclosing_Context : Context_Id;
-- The reference to the Context table which indicates the Enclosing
-- Context for a Unit
-- Kind : Unit_Kinds;
-- The kind of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Class : Unit_Classes;
-- The class of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Origin : Unit_Origins;
-- The origin of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Main_Unit : Boolean;
-- The boolean flag indicating if a Compilation Unit may be treated
-- as the main unit for a partition (See RM 10.2(7))
-- GNAT-specific!!??
-- Is_Body_Required : Boolean;
-- The boolean flag indicating if a Compilation Unit requires a body
-- as a completion
-----------------------------------------------------------
-- Black-Box Unit Attributes Access and Update Routines --
-----------------------------------------------------------
function Top (U : Unit_Id) return Node_Id;
-- this function is not trivial, it can have tree swapping as its
-- "side effect"
function Kind (C : Context_Id; U : Unit_Id) return Unit_Kinds;
function Class (C : Context_Id; U : Unit_Id) return Unit_Classes;
function Origin (C : Context_Id; U : Unit_Id) return Unit_Origins;
function Is_Main_Unit (C : Context_Id; U : Unit_Id) return Boolean;
function Is_Body_Required (C : Context_Id; U : Unit_Id) return Boolean;
-- This function does not reset Context, a Caller is responsible for this
function Time_Stamp (C : Context_Id; U : Unit_Id) return Time_Stamp_Type;
function Is_Consistent (C : Context_Id; U : Unit_Id) return Boolean;
function Source_Status (C : Context_Id; U : Unit_Id)
return Source_File_Statuses;
function Main_Tree (C : Context_Id; U : Unit_Id) return Tree_Id;
function Has_Limited_View_Only (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has only limited view in C
--------
procedure Set_Top (C : Context_Id; U : Unit_Id;
N : Node_Id);
procedure Set_Kind (C : Context_Id; U : Unit_Id;
K : Unit_Kinds);
procedure Set_Class (C : Context_Id; U : Unit_Id;
Cl : Unit_Classes);
procedure Set_Origin (C : Context_Id; U : Unit_Id;
O : Unit_Origins);
procedure Set_Is_Main_Unit (C : Context_Id; U : Unit_Id;
M : Boolean);
procedure Set_Is_Body_Required (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Time_Stamp (C : Context_Id; U : Unit_Id;
T : Time_Stamp_Type);
procedure Set_Is_Consistent (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Source_Status (C : Context_Id; U : Unit_Id;
S : Source_File_Statuses);
-------------------------------------------------
---------------------------
-- Semantic Dependencies --
---------------------------
----------------------------------------------------
-- Subprograms for Semantic Dependencies Handling --
----------------------------------------------------
function Not_Root return Boolean;
-- Checks if U is not a root library unit (by checking if
-- its name contains a dot). This function itself does not set the
-- normalized name of U in A_Name_Buffer, it is supposed to be called
-- when a proper name is already set.
function Subunits (C : Context_Id; U : Unit_Id) return Unit_Id_List;
-- Returns the full list of Ids of subunits for U (if any). The full list
-- contains nonexistent units for missed subunits
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit
(Parent_Body : Asis.Compilation_Unit;
Stub_Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used only when all the Unit attributes
-- are already computed. It gets the Parent_Body, whose tree should
-- contain Stub_Node as a node representing some body stub, and it
-- returns the Compilation Unit containing the proper body for this stub.
-- It returns a Nil_Compilation_Unit, if the Compilation Unit containing
-- the proper body does not exist in the enclosing Context or if it is
-- inconsistent with Parent_Body.
function Children (U : Unit_Id) return Unit_Id_List;
-- returns the list of Ids of children for U (if any)
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function GNAT_Compilation_Dependencies (U : Unit_Id) return Unit_Id_List;
-- Returns the full list of GNAT compilation dependencies for U
-- This list is empty if and only if U is not a main unit of some
-- compilation which creates some tree for C.
procedure Form_Parent_Name;
-- supposing A_Name_Buffer containing a normalized unit name, this
-- function forms the normalized name of its parent by stripping out
-- the suffix in the Ada part of the name (that is, the part of the
-- name between the rightmost '.' and '%") and changing the
-- "normalized" suffix to "%s". A_Name_Len is set in accordance with
-- this. If the Ada part of the name contains no suffix (that is, if
-- it corresponds to a root library unit), A_Name_Len is set equal
-- to 0.
function Get_Parent_Unit (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the parent unit declaration for U. If U is
-- First_Unit_Id, returns Nil_Unit.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Body (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_body for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Declaration (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_declaration for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit_Parent_Body
(C : Context_Id;
U : Unit_Id)
return Unit_Id;
-- returns the Id of the library_unit_body or subunit being the parent
-- body for subunit U (a caller is responsible for calling this function
-- for subunits).
function Get_Nonexistent_Unit (C : Context_Id) return Unit_Id;
-- Is supposed to be called just after an attempt to get a unit which is
-- supposed to be a needed declaration or a needed body (that is,
-- A_Name_Buffer contains a normalized unit name ending with "%s" or "%b"
-- respectively). Tries to find the unit of A_Nonexistent_Declaration
-- or A_Nonexistent_Body kind with this name, if this attempt fails,
-- allocates the new unit entry for the corresponding nonexistent unit.
-- Returns the Id of found or allocated unit.
function Get_Same_Unit
(Arg_C : Context_Id;
Arg_U : Unit_Id;
Targ_C : Context_Id)
return Unit_Id;
-- Tries to find in Targ_C just the same unit as Arg_U is in Arg_C.
-- Just the same means, that Arg_U and the result of this function
-- should have just the same time stamps. If Arg_C = Targ_C, Arg_U
-- is returned. If there is no "just the same" unit in Targ_C,
-- Nil_Unit is returned.
--
-- If No (Arg_U), then the currently accessed Context is not reset (but
-- this function is not supposed to be called for Arg_U equal to
-- Nil_Unit_Id, although it is not an error). Otherwise Context is reset
-- to Targ_C
--------------------------------------
-- General-Purpose Unit Subprograms --
--------------------------------------
procedure Finalize (C : Context_Id);
-- Currently this routine is only used to generate debugging output
-- for the Unit Table of a given Context.
function Present (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if Present (Current_Supporter)" as opposed to
-- "if Current_Supporter /= Nil_Unit
function No (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if No (Current_Supporter)" as opposed to
-- "if Current_Supporter = Nil_Unit
function Last_Unit return Unit_Id;
-- Returns the Unit_Id of the last unit which has been allocated in the
-- Unit Name Table. Used to define that the Unit_Id value returned by
-- Name_Find corresponds to the ASIS Compilation Unit which is not
-- known to ASIS.
function Lib_Unit_Decls (C : Context_Id) return Natural;
-- returns the number of library_unit_declaratios allocated in the
-- Context Unit table
function Comp_Unit_Bodies (C : Context_Id) return Natural;
-- returns the number of library_unit_bodies and subunits allocated
-- in the Context Unit table
function Next_Decl (D : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- D), which is a library_unit_declaration. Returns Nil_Unit, if there
-- is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function First_Body return Unit_Id;
-- Returns the Unit_Id of the first unit which is a
-- compilation_unit_body or a subunit. Returns Nil_Unit, if there is
-- no such a unit in a current Context.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Next_Body (B : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- B) which is a compilation_unit_body or a subunit. Returns Nil_Unit,
-- if there is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
procedure Output_Unit (C : Context_Id; Unit : Unit_Id);
-- Produces the debug output of the Unit Table entry corresponding
-- to Unit
-- DO WE NEED THIS PROCEDURE IN THE SPECIFICATION????
procedure Print_Units (C : Context_Id);
-- Produces the debug output from the Unit table for the Context C.
function Enclosing_Unit
(Cont : Context_Id;
Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used to define the enclosing
-- unit for an Element obtained as a result of some ASIS semantic query.
-- It finds the N_Compilation_Unit node for the subtree enclosing
-- the Node given as its argument, and then defines the corresponding
-- Unit Id, which is supposed to be the Id of Enclosing Unit for an
-- Element built up on the base of Node. It does not change the tree
-- being currently accessed. All these computations are supposed
-- to be performed for a Context Cont.
-- Node should not be a result of Atree.Original_Node, because
-- it is used as an argument for Atree.Parent function
--
-- Note, that this function does no consistency check, that is, the
-- currently accessed tree may be not from the list of consistent trees
-- for the resulted Unit.
---------------
-- NEW STUFF --
---------------
procedure Register_Units (Set_First_New_Unit : Boolean := False);
-- When a new tree file is read in during Opening a Context, this procedure
-- goes through all the units represented by this tree and checks if these
-- units are already known to ASIS. If some unit is unknown, this
-- procedure "register" it - it creates the corresponding entry in the
-- unit table, and it sets the normalized unit name. It does not set any
-- other field of unit record except Kind. It sets Kind as Not_A_Unit
-- to indicate, that this unit is only registered, but not processed.
--
-- We need this (pre-)registration to be made before starting unit
-- processing performed by Process_Unit_New, because we need all the units
-- presenting in the tree to be presented also in the Context unit table
-- when storing the dependency information.
--
-- Note, that all the consistency checks are made by Process_Unit_New,
-- even though we can make them here. The reason is to separate this
-- (pre-)registration (which is an auxiliary technical action) from
-- unit-by-unit processing to facilitate the maintainability of the code.
--
-- If Set_First_New_Unit is set ON, stores in A4G.Contt.First_New_Unit
-- the first new unit being registered. If Set_First_New_Unit is set OFF
-- or if no new units has been registered, First_New_Unit is set to
-- Nil_Unit
--
-- ??? The current implementation uses Set_Unit, which also sets time
-- ??? stamp for a unit being registered. It looks like we do not need
-- ??? this, so we can get rid of this.
function Already_Processed (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has already been processed when scanning previous trees
-- during opening C
procedure Check_Source_Consistency
(C : Context_Id;
U_Id : Unit_Id);
-- Is called when a Unit is being investigated as encountered for the first
-- time during opening the Context C. It checks the existence of the source
-- file for this unit, and if the source file exists, it checks that the
-- units as represented by the tree is consistent with the source (if this
-- is required by the options associated with the Context).
-- This procedure should be called after extracting the source file name
-- from the tree and putting this into the Context unit table.
procedure Check_Consistency
(C : Context_Id;
U_Id : Unit_Id;
U_Num : Unit_Number_Type);
-- Is called when a unit is encountered again when opening C. Checks if in
-- the currently accessed tree this unit has the same time stamp as it had
-- in all the previously processed trees. In case if this check fails, it
-- raises ASIS_Failed and forms the diagnosis on behalf of
-- Asis.Ada_Environments.Open. (This procedure does not check the source
-- file for the unit - this should be done by Check_Source_Consistency
-- when the unit was processed for the first time)
function TS_From_OS_Time (T : OS_Time) return Time_Stamp_Type;
-- Converts OS_Time into Time_Stamp_Type. Is this the right place for
-- this function???
procedure Reset_Cache;
-- Resents to the empty state the cache data structure used to speed up the
-- Top function. Should be called as a part of closing a Context.
end A4G.Contt.UT;
| 4144 | ------------------------------------------------------------------------------
-- --
-- ASIS-for-GNAT IMPLEMENTATION COMPONENTS --
-- --
-- A 4 G . C O N T T . U T --
-- --
-- S p e c --
-- --
-- Copyright (C) 1995-2011, Free Software Foundation, Inc. --
-- --
-- ASIS-for-GNAT is free software; you can redistribute it and/or modify it --
-- under terms of the GNU General Public License as published by the Free --
-- Software Foundation; either version 2, or (at your option) any later --
-- version. ASIS-for-GNAT is distributed in the hope that it will be use- --
-- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- --
-- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General --
-- Public License for more details. You should have received a copy of the --
-- GNU General Public License distributed with ASIS-for-GNAT; see file --
-- COPYING. If not, write to the Free Software Foundation, 51 Franklin --
-- Street, Fifth Floor, Boston, MA 02110-1301, USA. --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the --
-- Software Engineering Laboratory of the Swiss Federal Institute of --
-- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the --
-- Scientific Research Computer Center of Moscow State University (SRCC --
-- MSU), Russia, with funding partially provided by grants from the Swiss --
-- National Science Foundation and the Swiss Academy of Engineering --
-- Sciences. ASIS-for-GNAT is now maintained by AdaCore. --
-- (http://www.<EMAIL>). --
-- --
------------------------------------------------------------------------------
-- This package defines for each ASIS Context the corresponding Unit Table,
-- which contains all the information needed for the black-box ASIS queries
-- about Compilation Units. This table also provides the mechanism for
-- searching for a unit by its Ada name, this mechanism is some slight
-- modification of the GNAT Namet package.
with Asis; use Asis;
with Asis.Extensions; use Asis.Extensions;
package A4G.Contt.UT is -- Context_Table.Unit_Tables
---------------------
-- ASIS Unit Table --
---------------------
-- ASIS Unit Table is the main part of the implementation of ASIS Context
-- and ASIS Compilation Unit abstractions. The table is organized in the
-- following way:
-- - the internal representation of an ASIS Compilation Unit is the
-- value of the corresponding Unit Record which is kept in Unit Table
-- and indicated by Unit Id;
-- - each ASIS Context has its own Unit Table, so most the routines
-- dealing with Unit Table contain the Id of an Enclosing Context
-- as a Parameter;
-- - each ASIS Compilation Units keeps the Id of its enclosing
-- Context as a part of its value;
-- - The fully expanded Ada name, together for the spec/body sign,
-- uniquely identifies a given unit inside its enclosing
-- Context/Context; so the triple - expanded Ada name, spec/body
-- sign and some identification of the Unit's enclosing Context/Context
-- uniquely identifies a given unit among all the Unit processed
-- by ASIS;
-- - The normalized Ada name, is obtained from the fully expanded
-- Ada Unit name by folding all the upper case letters in the
-- corresponding lower case letters, appending the spec/body sign
-- (which has the form "%s" for a spec and "%b" for a body);
-- The entries in the table are accessed using a Unit_Id that ranges
-- from First_Unit_Id to Last_Unit_Id. The fields of each entry and
-- the corresponding interfaces may be subdivided into four groups.
-- The first group, called as Unit Name Table, provides the modified
-- version of the functionality of the GNAT Namet package, it is used
-- for storing the names of the Units in two forms - in the normalized
-- and in the form corresponding to the (defining) occurrence of a
-- given name in a source text. Each unit can be effectively searched
-- by its normalized name.
-- The second group contains the black-box attributes of a Unit.
-- The third group contains the information about relations (semantic
-- dependencies) between the given unit and the other units in the
-- enclosing Context/Context Note, that Ada Unit name,
-- included in the first group, logically should also be considered
-- as a black-box Unit attribute.
-- And the fourth group contains the fields needed for organization of the
-- tree swapping during the multiple Units processing.
---------------------
-- Unit Name Table --
---------------------
-- Each Unit entry contain the following fields:
-- "Normalized" Ada name "Normalized" Ada names of the ASIS Compilation
-- Units are their names with upper case letters
-- folded to lower case (by applying the
-- Ada.Character.Handling.To_Lower functions;
-- this lover-case-folding has no relation to GNAT
-- conventions described in Namet!), appended by
-- suffix %s or %b for spec or bodies/subunits, as
-- defined in Uname (spec), and prepended by
-- the string image of the Id value of the unit's
-- enclosing Context. Each of the names of this
-- kind may have only one entry in Unit Name Table.
--
-- Ada name Ada names of the ASIS Compilation Units are
-- stored keeping the casing from the source text.
-- These entries are used to implement the ASIS
-- query (-ies?) returning the Ada name of the
-- Unit. Ada names may be included more than one
-- time in Unit Name Table as the parts of the
-- different table entries, as the name of a spec
-- and the name of a corresponding body.
--
-- Source File Name The name of the Ada source file used to compile
-- the given compilation unit (on its own or as a
-- supporter of some other unit).
--
-- Reference File Name The name of the source file which represents
-- the unit source from the user's viewpoint. It is
-- the same as the Source File name unless the
-- Source_Reference pragma presents for the given
-- unit.
type Column is (Norm_Ada_Name, Ada_Name, Source_File_Name, Ref_File_Name);
-- This enumeration type defines literals used to make the difference
-- between different forms of names stored in the Unit Table
-- Really every name is kept as the reference into the Char table,
-- together with the length of its name.
-- The normalized names are hashed, so that a given normalized name appears
-- only once in the table.
-- Opposite to the GNAT name table, this name table does not handle the
-- one-character values in a special way (there is no need for it, because
-- storing an one-character name does not seem to be a usual thing
-- for this table.)
-- ASIS "normalized" Unit names follow the convention which is
-- very similar to the GNAT convention defined in Uname (spec), the
-- only difference is that ASIS folds all the upper case
-- letters to the corresponding lower case letters without any encoding.
-- ASIS packages implementing the ASIS Context model for GNAT contain
-- "ASIS-related counterparts" of some facilities provided by three
-- GNAT packages - Namet, Uname and Fname.
-- We keep storing the two values, one of type Int and one of type Byte,
-- with each names table entry and subprograms are provided for setting
-- and retrieving these associated values. But for now these values are
-- of no use in ASIS - we simply are keeping this mechanism from the
-- GNAT name table - just in case.
-- Unit Name Table may be considered as having the external view
-- of the two-column table - for each row indicated by Unit_Id the
-- first column contains the Ada name of the corresponding Unit and
-- the second column contains Unit's "normalized" name.
-- In fact we do not use any encoding-decoding in Unit Name Table. ASIS
-- supports only a standard mode of GNAT (that is, it relies on the fact
-- that all the identifiers contain only Row 00 characters). ASIS also
-- assumes that all the names of the source files are the values of
-- the Ada predefined String type.
-- All the Unit Tables shares the same Name Buffer, see the specification
-- of the parent package for its definition.
---------------------------------
-- Unit Name Table Subprograms --
---------------------------------
procedure Get_Name_String (Id : Unit_Id; Col : Column);
-- Get_Name_String is used to retrieve the one of the three strings
-- associated with an entry in the names table. The Col parameter
-- indicates which of the names should be retrieved (Ada name, normalized
-- Ada name or source file name) by indicating the "column" in the table
-- The resulting string is stored in Name_Buffer and Name_Len is set.
function Length_Of_Name (Id : Unit_Id; Col : Column) return Nat;
-- ??? pragma Inline (Length_Of_Name);
-- Returns length of given name in characters, the result is equivalent to
-- calling Get_Name_String and reading Name_Len, except that a call to
-- Length_Of_Name does not affect the contents of Name_Len and Name_Buffer.
function Name_Find (C : Context_Id) return Unit_Id;
-- Name_Find is called with a string stored in Name_Buffer whose length
-- is in Name_Len (i.e. the characters of the name are in subscript
-- positions 1 to Name_Len in Name_Buffer). It searches the names
-- table to see if the string has already been stored. If so the Id of
-- the existing entry is returned. Otherwise (opposite to the GNAT name
-- table, in which a new entry is created it this situation with its
-- Name_Table_Info field set to zero) the Id value corresponding to the
-- ASIS Nil_Compilation_Unit, that is Nil_Unit, is returned.
--
-- Only normalized Ada names are hashed, so this function is intended to
-- be applied to the normalized names only (in is not an error to apply
-- it to other forms of names stored in the table, but the result will
-- always be Nil_Unit.
function Allocate_Unit_Entry (C : Context_Id) return Unit_Id;
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name. It also
-- increases by one the counter of allocated bodies or specs, depending
-- on the suffix in the normalized unit name.
function Allocate_Nonexistent_Unit_Entry (C : Context_Id) return Unit_Id;
-- Differs from the previous function in the following aspects:
-- - 'n' is added to the name suffix to mark that this entry
-- corresponds to the nonexistent unit;
-- - The body/spec counters are not increased
-- - all the attributes of the allocated nonexistent unit are set by
-- this procedure.
--
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name.
function Set_Unit (C : Context_Id; U : Unit_Number_Type) return Unit_Id;
-- Creates the Unit table entry for the unit U and sets the normalized
-- unit name (which is supposed to be stored in A_Name_Buffer when this
-- procedure is called) and the time stamp for the unit. It also adds
-- the (Id of the) currently accessed tree to the (empty) list
-- of (consistent) trees for this unit. All the other unit attributes
-- are set to nil values. The ID of the created entry is returned as a
-- result
procedure Set_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the Ada name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Norm_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the "normalized" Ada name of the ASIS Unit indicated by Id
-- value
procedure Set_Ref_File_As_Source_File (U : Unit_Id);
-- For a given unit in a given context, sets the reference file name equal
-- to the source file name (by copying the corresponding references to
-- the ASIS Chars table
procedure Set_Source_File_Name (Id : Unit_Id; Ref : Boolean := False);
pragma Inline (Set_Source_File_Name);
-- Sets the string stored in the A_Name_Buffer whose length is A_Name_Len
-- as the value of the source or reference (depending on the actual set
-- for the Ref parameter) file name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name_String;
-- Sets the Normalized Ada Unit name as the value of Name_Buffer.
-- This normalized version of the Ada Unit name is
-- obtained by folding to lover cases of the GNAT unit name
-- which should be previously get as the content of
-- Namet.Name_Buffer (that means that every call to this procedure
-- should be preceded by the appropriate call to
-- Namet.Get_Unqualified_Decoded_Name_String (or
-- Namet.Get_Decoded_Name_String if the caller is sure, that the name is
-- not qualified)
procedure Set_Norm_Ada_Name_String_With_Check
(Unit : Unit_Number_Type;
Success : out Boolean);
-- This is the modified version of Set_Norm_Ada_Name_String: after setting
-- the ASIS name buffer it checks if Unit should be considered as
-- Compilation_Unit by ASIS. The need for this check caused by artificial
-- compilation units created by the compiler for library-level generic
-- instantiations. If the check is successful, Success is set True,
-- otherwise it is set False.
--
-- In case of a tree created for library-level instantiation of a generic
-- package (only package ???) GNAT sets the suffix of the name of the
-- corresponding unit in its unit table as '%b', but ASIS has to see
-- this unit as a spec, therefore in this case this procedure resets the
-- suffix of the unit name to '%s'
procedure Set_Ref_File_Name_String (U : Unit_Id);
-- Is supposed to be called when GNAT Namet.Name_Buffer contains a full
-- reference file name. It sets the Reference File name as the value of
-- A_Name_Buffer. This name is composed from the reference file name
-- obtained from the tree and from the source file name (in which the
-- directory information is already adjusted , if needed, by the
-- corresponding call to Set_S_File_Name_String) to contain the directory
-- information needed to access this file from the current directory.
-------------------------------
-- Black-Box Unit Attributes --
-------------------------------
-- Each Unit entry contains the following fields, representing the Unit
-- black-box attributes, which are for the direct interest for the ASIS
-- queries from the Asis_Compilation_Unit package, the primary idea of
-- implementing the Context/Compilation_Unit stuff in ASIS-for-GNAT is
-- to compute each of these attribute only once, when the new tree is
-- inputted by ASIS for the first time, and then store them in Unit
-- Table, so then ASIS queries will be able to get the required
-- answer without any new tree processing:
-- Top : Node_Id;
-- The top node of the unit subtree in the currently accessed full tree.
-- From one side, this node should be reset every time the full tree
-- is changed. From the other side, the corresponding actions may be
-- considered as too time-consumed. This problem is postponed now as
-- OPEN PROBLEM, it is not important till we are working under the
-- limitation "only one tree can be accessed at a time"
-- Enclosing_Context : Context_Id;
-- The reference to the Context table which indicates the Enclosing
-- Context for a Unit
-- Kind : Unit_Kinds;
-- The kind of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Class : Unit_Classes;
-- The class of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Origin : Unit_Origins;
-- The origin of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Main_Unit : Boolean;
-- The boolean flag indicating if a Compilation Unit may be treated
-- as the main unit for a partition (See RM 10.2(7))
-- GNAT-specific!!??
-- Is_Body_Required : Boolean;
-- The boolean flag indicating if a Compilation Unit requires a body
-- as a completion
-----------------------------------------------------------
-- Black-Box Unit Attributes Access and Update Routines --
-----------------------------------------------------------
function Top (U : Unit_Id) return Node_Id;
-- this function is not trivial, it can have tree swapping as its
-- "side effect"
function Kind (C : Context_Id; U : Unit_Id) return Unit_Kinds;
function Class (C : Context_Id; U : Unit_Id) return Unit_Classes;
function Origin (C : Context_Id; U : Unit_Id) return Unit_Origins;
function Is_Main_Unit (C : Context_Id; U : Unit_Id) return Boolean;
function Is_Body_Required (C : Context_Id; U : Unit_Id) return Boolean;
-- This function does not reset Context, a Caller is responsible for this
function Time_Stamp (C : Context_Id; U : Unit_Id) return Time_Stamp_Type;
function Is_Consistent (C : Context_Id; U : Unit_Id) return Boolean;
function Source_Status (C : Context_Id; U : Unit_Id)
return Source_File_Statuses;
function Main_Tree (C : Context_Id; U : Unit_Id) return Tree_Id;
function Has_Limited_View_Only (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has only limited view in C
--------
procedure Set_Top (C : Context_Id; U : Unit_Id;
N : Node_Id);
procedure Set_Kind (C : Context_Id; U : Unit_Id;
K : Unit_Kinds);
procedure Set_Class (C : Context_Id; U : Unit_Id;
Cl : Unit_Classes);
procedure Set_Origin (C : Context_Id; U : Unit_Id;
O : Unit_Origins);
procedure Set_Is_Main_Unit (C : Context_Id; U : Unit_Id;
M : Boolean);
procedure Set_Is_Body_Required (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Time_Stamp (C : Context_Id; U : Unit_Id;
T : Time_Stamp_Type);
procedure Set_Is_Consistent (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Source_Status (C : Context_Id; U : Unit_Id;
S : Source_File_Statuses);
-------------------------------------------------
---------------------------
-- Semantic Dependencies --
---------------------------
----------------------------------------------------
-- Subprograms for Semantic Dependencies Handling --
----------------------------------------------------
function Not_Root return Boolean;
-- Checks if U is not a root library unit (by checking if
-- its name contains a dot). This function itself does not set the
-- normalized name of U in A_Name_Buffer, it is supposed to be called
-- when a proper name is already set.
function Subunits (C : Context_Id; U : Unit_Id) return Unit_Id_List;
-- Returns the full list of Ids of subunits for U (if any). The full list
-- contains nonexistent units for missed subunits
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit
(Parent_Body : Asis.Compilation_Unit;
Stub_Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used only when all the Unit attributes
-- are already computed. It gets the Parent_Body, whose tree should
-- contain Stub_Node as a node representing some body stub, and it
-- returns the Compilation Unit containing the proper body for this stub.
-- It returns a Nil_Compilation_Unit, if the Compilation Unit containing
-- the proper body does not exist in the enclosing Context or if it is
-- inconsistent with Parent_Body.
function Children (U : Unit_Id) return Unit_Id_List;
-- returns the list of Ids of children for U (if any)
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function GNAT_Compilation_Dependencies (U : Unit_Id) return Unit_Id_List;
-- Returns the full list of GNAT compilation dependencies for U
-- This list is empty if and only if U is not a main unit of some
-- compilation which creates some tree for C.
procedure Form_Parent_Name;
-- supposing A_Name_Buffer containing a normalized unit name, this
-- function forms the normalized name of its parent by stripping out
-- the suffix in the Ada part of the name (that is, the part of the
-- name between the rightmost '.' and '%") and changing the
-- "normalized" suffix to "%s". A_Name_Len is set in accordance with
-- this. If the Ada part of the name contains no suffix (that is, if
-- it corresponds to a root library unit), A_Name_Len is set equal
-- to 0.
function Get_Parent_Unit (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the parent unit declaration for U. If U is
-- First_Unit_Id, returns Nil_Unit.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Body (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_body for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Declaration (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_declaration for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit_Parent_Body
(C : Context_Id;
U : Unit_Id)
return Unit_Id;
-- returns the Id of the library_unit_body or subunit being the parent
-- body for subunit U (a caller is responsible for calling this function
-- for subunits).
function Get_Nonexistent_Unit (C : Context_Id) return Unit_Id;
-- Is supposed to be called just after an attempt to get a unit which is
-- supposed to be a needed declaration or a needed body (that is,
-- A_Name_Buffer contains a normalized unit name ending with "%s" or "%b"
-- respectively). Tries to find the unit of A_Nonexistent_Declaration
-- or A_Nonexistent_Body kind with this name, if this attempt fails,
-- allocates the new unit entry for the corresponding nonexistent unit.
-- Returns the Id of found or allocated unit.
function Get_Same_Unit
(Arg_C : Context_Id;
Arg_U : Unit_Id;
Targ_C : Context_Id)
return Unit_Id;
-- Tries to find in Targ_C just the same unit as Arg_U is in Arg_C.
-- Just the same means, that Arg_U and the result of this function
-- should have just the same time stamps. If Arg_C = Targ_C, Arg_U
-- is returned. If there is no "just the same" unit in Targ_C,
-- Nil_Unit is returned.
--
-- If No (Arg_U), then the currently accessed Context is not reset (but
-- this function is not supposed to be called for Arg_U equal to
-- Nil_Unit_Id, although it is not an error). Otherwise Context is reset
-- to Targ_C
--------------------------------------
-- General-Purpose Unit Subprograms --
--------------------------------------
procedure Finalize (C : Context_Id);
-- Currently this routine is only used to generate debugging output
-- for the Unit Table of a given Context.
function Present (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if Present (Current_Supporter)" as opposed to
-- "if Current_Supporter /= Nil_Unit
function No (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if No (Current_Supporter)" as opposed to
-- "if Current_Supporter = Nil_Unit
function Last_Unit return Unit_Id;
-- Returns the Unit_Id of the last unit which has been allocated in the
-- Unit Name Table. Used to define that the Unit_Id value returned by
-- Name_Find corresponds to the ASIS Compilation Unit which is not
-- known to ASIS.
function Lib_Unit_Decls (C : Context_Id) return Natural;
-- returns the number of library_unit_declaratios allocated in the
-- Context Unit table
function Comp_Unit_Bodies (C : Context_Id) return Natural;
-- returns the number of library_unit_bodies and subunits allocated
-- in the Context Unit table
function Next_Decl (D : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- D), which is a library_unit_declaration. Returns Nil_Unit, if there
-- is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function First_Body return Unit_Id;
-- Returns the Unit_Id of the first unit which is a
-- compilation_unit_body or a subunit. Returns Nil_Unit, if there is
-- no such a unit in a current Context.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Next_Body (B : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- B) which is a compilation_unit_body or a subunit. Returns Nil_Unit,
-- if there is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
procedure Output_Unit (C : Context_Id; Unit : Unit_Id);
-- Produces the debug output of the Unit Table entry corresponding
-- to Unit
-- DO WE NEED THIS PROCEDURE IN THE SPECIFICATION????
procedure Print_Units (C : Context_Id);
-- Produces the debug output from the Unit table for the Context C.
function Enclosing_Unit
(Cont : Context_Id;
Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used to define the enclosing
-- unit for an Element obtained as a result of some ASIS semantic query.
-- It finds the N_Compilation_Unit node for the subtree enclosing
-- the Node given as its argument, and then defines the corresponding
-- Unit Id, which is supposed to be the Id of Enclosing Unit for an
-- Element built up on the base of Node. It does not change the tree
-- being currently accessed. All these computations are supposed
-- to be performed for a Context Cont.
-- Node should not be a result of Atree.Original_Node, because
-- it is used as an argument for Atree.Parent function
--
-- Note, that this function does no consistency check, that is, the
-- currently accessed tree may be not from the list of consistent trees
-- for the resulted Unit.
---------------
-- NEW STUFF --
---------------
procedure Register_Units (Set_First_New_Unit : Boolean := False);
-- When a new tree file is read in during Opening a Context, this procedure
-- goes through all the units represented by this tree and checks if these
-- units are already known to ASIS. If some unit is unknown, this
-- procedure "register" it - it creates the corresponding entry in the
-- unit table, and it sets the normalized unit name. It does not set any
-- other field of unit record except Kind. It sets Kind as Not_A_Unit
-- to indicate, that this unit is only registered, but not processed.
--
-- We need this (pre-)registration to be made before starting unit
-- processing performed by Process_Unit_New, because we need all the units
-- presenting in the tree to be presented also in the Context unit table
-- when storing the dependency information.
--
-- Note, that all the consistency checks are made by Process_Unit_New,
-- even though we can make them here. The reason is to separate this
-- (pre-)registration (which is an auxiliary technical action) from
-- unit-by-unit processing to facilitate the maintainability of the code.
--
-- If Set_First_New_Unit is set ON, stores in A4G.Contt.First_New_Unit
-- the first new unit being registered. If Set_First_New_Unit is set OFF
-- or if no new units has been registered, First_New_Unit is set to
-- Nil_Unit
--
-- ??? The current implementation uses Set_Unit, which also sets time
-- ??? stamp for a unit being registered. It looks like we do not need
-- ??? this, so we can get rid of this.
function Already_Processed (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has already been processed when scanning previous trees
-- during opening C
procedure Check_Source_Consistency
(C : Context_Id;
U_Id : Unit_Id);
-- Is called when a Unit is being investigated as encountered for the first
-- time during opening the Context C. It checks the existence of the source
-- file for this unit, and if the source file exists, it checks that the
-- units as represented by the tree is consistent with the source (if this
-- is required by the options associated with the Context).
-- This procedure should be called after extracting the source file name
-- from the tree and putting this into the Context unit table.
procedure Check_Consistency
(C : Context_Id;
U_Id : Unit_Id;
U_Num : Unit_Number_Type);
-- Is called when a unit is encountered again when opening C. Checks if in
-- the currently accessed tree this unit has the same time stamp as it had
-- in all the previously processed trees. In case if this check fails, it
-- raises ASIS_Failed and forms the diagnosis on behalf of
-- Asis.Ada_Environments.Open. (This procedure does not check the source
-- file for the unit - this should be done by Check_Source_Consistency
-- when the unit was processed for the first time)
function TS_From_OS_Time (T : OS_Time) return Time_Stamp_Type;
-- Converts OS_Time into Time_Stamp_Type. Is this the right place for
-- this function???
procedure Reset_Cache;
-- Resents to the empty state the cache data structure used to speed up the
-- Top function. Should be called as a part of closing a Context.
end A4G.Contt.UT;
| true | ------------------------------------------------------------------------------
-- --
-- ASIS-for-GNAT IMPLEMENTATION COMPONENTS --
-- --
-- A 4 G . C O N T T . U T --
-- --
-- S p e c --
-- --
-- Copyright (C) 1995-2011, Free Software Foundation, Inc. --
-- --
-- ASIS-for-GNAT is free software; you can redistribute it and/or modify it --
-- under terms of the GNU General Public License as published by the Free --
-- Software Foundation; either version 2, or (at your option) any later --
-- version. ASIS-for-GNAT is distributed in the hope that it will be use- --
-- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- --
-- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General --
-- Public License for more details. You should have received a copy of the --
-- GNU General Public License distributed with ASIS-for-GNAT; see file --
-- COPYING. If not, write to the Free Software Foundation, 51 Franklin --
-- Street, Fifth Floor, Boston, MA 02110-1301, USA. --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the --
-- Software Engineering Laboratory of the Swiss Federal Institute of --
-- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the --
-- Scientific Research Computer Center of Moscow State University (SRCC --
-- MSU), Russia, with funding partially provided by grants from the Swiss --
-- National Science Foundation and the Swiss Academy of Engineering --
-- Sciences. ASIS-for-GNAT is now maintained by AdaCore. --
-- (http://www.PI:EMAIL:<EMAIL>END_PI). --
-- --
------------------------------------------------------------------------------
-- This package defines for each ASIS Context the corresponding Unit Table,
-- which contains all the information needed for the black-box ASIS queries
-- about Compilation Units. This table also provides the mechanism for
-- searching for a unit by its Ada name, this mechanism is some slight
-- modification of the GNAT Namet package.
with Asis; use Asis;
with Asis.Extensions; use Asis.Extensions;
package A4G.Contt.UT is -- Context_Table.Unit_Tables
---------------------
-- ASIS Unit Table --
---------------------
-- ASIS Unit Table is the main part of the implementation of ASIS Context
-- and ASIS Compilation Unit abstractions. The table is organized in the
-- following way:
-- - the internal representation of an ASIS Compilation Unit is the
-- value of the corresponding Unit Record which is kept in Unit Table
-- and indicated by Unit Id;
-- - each ASIS Context has its own Unit Table, so most the routines
-- dealing with Unit Table contain the Id of an Enclosing Context
-- as a Parameter;
-- - each ASIS Compilation Units keeps the Id of its enclosing
-- Context as a part of its value;
-- - The fully expanded Ada name, together for the spec/body sign,
-- uniquely identifies a given unit inside its enclosing
-- Context/Context; so the triple - expanded Ada name, spec/body
-- sign and some identification of the Unit's enclosing Context/Context
-- uniquely identifies a given unit among all the Unit processed
-- by ASIS;
-- - The normalized Ada name, is obtained from the fully expanded
-- Ada Unit name by folding all the upper case letters in the
-- corresponding lower case letters, appending the spec/body sign
-- (which has the form "%s" for a spec and "%b" for a body);
-- The entries in the table are accessed using a Unit_Id that ranges
-- from First_Unit_Id to Last_Unit_Id. The fields of each entry and
-- the corresponding interfaces may be subdivided into four groups.
-- The first group, called as Unit Name Table, provides the modified
-- version of the functionality of the GNAT Namet package, it is used
-- for storing the names of the Units in two forms - in the normalized
-- and in the form corresponding to the (defining) occurrence of a
-- given name in a source text. Each unit can be effectively searched
-- by its normalized name.
-- The second group contains the black-box attributes of a Unit.
-- The third group contains the information about relations (semantic
-- dependencies) between the given unit and the other units in the
-- enclosing Context/Context Note, that Ada Unit name,
-- included in the first group, logically should also be considered
-- as a black-box Unit attribute.
-- And the fourth group contains the fields needed for organization of the
-- tree swapping during the multiple Units processing.
---------------------
-- Unit Name Table --
---------------------
-- Each Unit entry contain the following fields:
-- "Normalized" Ada name "Normalized" Ada names of the ASIS Compilation
-- Units are their names with upper case letters
-- folded to lower case (by applying the
-- Ada.Character.Handling.To_Lower functions;
-- this lover-case-folding has no relation to GNAT
-- conventions described in Namet!), appended by
-- suffix %s or %b for spec or bodies/subunits, as
-- defined in Uname (spec), and prepended by
-- the string image of the Id value of the unit's
-- enclosing Context. Each of the names of this
-- kind may have only one entry in Unit Name Table.
--
-- Ada name Ada names of the ASIS Compilation Units are
-- stored keeping the casing from the source text.
-- These entries are used to implement the ASIS
-- query (-ies?) returning the Ada name of the
-- Unit. Ada names may be included more than one
-- time in Unit Name Table as the parts of the
-- different table entries, as the name of a spec
-- and the name of a corresponding body.
--
-- Source File Name The name of the Ada source file used to compile
-- the given compilation unit (on its own or as a
-- supporter of some other unit).
--
-- Reference File Name The name of the source file which represents
-- the unit source from the user's viewpoint. It is
-- the same as the Source File name unless the
-- Source_Reference pragma presents for the given
-- unit.
type Column is (Norm_Ada_Name, Ada_Name, Source_File_Name, Ref_File_Name);
-- This enumeration type defines literals used to make the difference
-- between different forms of names stored in the Unit Table
-- Really every name is kept as the reference into the Char table,
-- together with the length of its name.
-- The normalized names are hashed, so that a given normalized name appears
-- only once in the table.
-- Opposite to the GNAT name table, this name table does not handle the
-- one-character values in a special way (there is no need for it, because
-- storing an one-character name does not seem to be a usual thing
-- for this table.)
-- ASIS "normalized" Unit names follow the convention which is
-- very similar to the GNAT convention defined in Uname (spec), the
-- only difference is that ASIS folds all the upper case
-- letters to the corresponding lower case letters without any encoding.
-- ASIS packages implementing the ASIS Context model for GNAT contain
-- "ASIS-related counterparts" of some facilities provided by three
-- GNAT packages - Namet, Uname and Fname.
-- We keep storing the two values, one of type Int and one of type Byte,
-- with each names table entry and subprograms are provided for setting
-- and retrieving these associated values. But for now these values are
-- of no use in ASIS - we simply are keeping this mechanism from the
-- GNAT name table - just in case.
-- Unit Name Table may be considered as having the external view
-- of the two-column table - for each row indicated by Unit_Id the
-- first column contains the Ada name of the corresponding Unit and
-- the second column contains Unit's "normalized" name.
-- In fact we do not use any encoding-decoding in Unit Name Table. ASIS
-- supports only a standard mode of GNAT (that is, it relies on the fact
-- that all the identifiers contain only Row 00 characters). ASIS also
-- assumes that all the names of the source files are the values of
-- the Ada predefined String type.
-- All the Unit Tables shares the same Name Buffer, see the specification
-- of the parent package for its definition.
---------------------------------
-- Unit Name Table Subprograms --
---------------------------------
procedure Get_Name_String (Id : Unit_Id; Col : Column);
-- Get_Name_String is used to retrieve the one of the three strings
-- associated with an entry in the names table. The Col parameter
-- indicates which of the names should be retrieved (Ada name, normalized
-- Ada name or source file name) by indicating the "column" in the table
-- The resulting string is stored in Name_Buffer and Name_Len is set.
function Length_Of_Name (Id : Unit_Id; Col : Column) return Nat;
-- ??? pragma Inline (Length_Of_Name);
-- Returns length of given name in characters, the result is equivalent to
-- calling Get_Name_String and reading Name_Len, except that a call to
-- Length_Of_Name does not affect the contents of Name_Len and Name_Buffer.
function Name_Find (C : Context_Id) return Unit_Id;
-- Name_Find is called with a string stored in Name_Buffer whose length
-- is in Name_Len (i.e. the characters of the name are in subscript
-- positions 1 to Name_Len in Name_Buffer). It searches the names
-- table to see if the string has already been stored. If so the Id of
-- the existing entry is returned. Otherwise (opposite to the GNAT name
-- table, in which a new entry is created it this situation with its
-- Name_Table_Info field set to zero) the Id value corresponding to the
-- ASIS Nil_Compilation_Unit, that is Nil_Unit, is returned.
--
-- Only normalized Ada names are hashed, so this function is intended to
-- be applied to the normalized names only (in is not an error to apply
-- it to other forms of names stored in the table, but the result will
-- always be Nil_Unit.
function Allocate_Unit_Entry (C : Context_Id) return Unit_Id;
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name. It also
-- increases by one the counter of allocated bodies or specs, depending
-- on the suffix in the normalized unit name.
function Allocate_Nonexistent_Unit_Entry (C : Context_Id) return Unit_Id;
-- Differs from the previous function in the following aspects:
-- - 'n' is added to the name suffix to mark that this entry
-- corresponds to the nonexistent unit;
-- - The body/spec counters are not increased
-- - all the attributes of the allocated nonexistent unit are set by
-- this procedure.
--
-- Allocates the new entry in the Unit Name Table for the "normalized"
-- Ada Unit name stored in the Name_Buffer (Name_Len should be set
-- in a proper way). This routine should be called only if the
-- immediately preceding call to an operation working with Unit Name
-- Table is the call to Name_Find which has yielded Nil_Unit as a
-- result. Note, that this function sets only the "normalized" unit name,
-- it does not set the Ada name or the source file name.
function Set_Unit (C : Context_Id; U : Unit_Number_Type) return Unit_Id;
-- Creates the Unit table entry for the unit U and sets the normalized
-- unit name (which is supposed to be stored in A_Name_Buffer when this
-- procedure is called) and the time stamp for the unit. It also adds
-- the (Id of the) currently accessed tree to the (empty) list
-- of (consistent) trees for this unit. All the other unit attributes
-- are set to nil values. The ID of the created entry is returned as a
-- result
procedure Set_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the Ada name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name (Id : Unit_Id);
pragma Inline (Set_Norm_Ada_Name);
-- Sets the string stored in Name_Buffer whose length is Name_Len as the
-- value of the "normalized" Ada name of the ASIS Unit indicated by Id
-- value
procedure Set_Ref_File_As_Source_File (U : Unit_Id);
-- For a given unit in a given context, sets the reference file name equal
-- to the source file name (by copying the corresponding references to
-- the ASIS Chars table
procedure Set_Source_File_Name (Id : Unit_Id; Ref : Boolean := False);
pragma Inline (Set_Source_File_Name);
-- Sets the string stored in the A_Name_Buffer whose length is A_Name_Len
-- as the value of the source or reference (depending on the actual set
-- for the Ref parameter) file name of the ASIS Unit indicated by Id value
procedure Set_Norm_Ada_Name_String;
-- Sets the Normalized Ada Unit name as the value of Name_Buffer.
-- This normalized version of the Ada Unit name is
-- obtained by folding to lover cases of the GNAT unit name
-- which should be previously get as the content of
-- Namet.Name_Buffer (that means that every call to this procedure
-- should be preceded by the appropriate call to
-- Namet.Get_Unqualified_Decoded_Name_String (or
-- Namet.Get_Decoded_Name_String if the caller is sure, that the name is
-- not qualified)
procedure Set_Norm_Ada_Name_String_With_Check
(Unit : Unit_Number_Type;
Success : out Boolean);
-- This is the modified version of Set_Norm_Ada_Name_String: after setting
-- the ASIS name buffer it checks if Unit should be considered as
-- Compilation_Unit by ASIS. The need for this check caused by artificial
-- compilation units created by the compiler for library-level generic
-- instantiations. If the check is successful, Success is set True,
-- otherwise it is set False.
--
-- In case of a tree created for library-level instantiation of a generic
-- package (only package ???) GNAT sets the suffix of the name of the
-- corresponding unit in its unit table as '%b', but ASIS has to see
-- this unit as a spec, therefore in this case this procedure resets the
-- suffix of the unit name to '%s'
procedure Set_Ref_File_Name_String (U : Unit_Id);
-- Is supposed to be called when GNAT Namet.Name_Buffer contains a full
-- reference file name. It sets the Reference File name as the value of
-- A_Name_Buffer. This name is composed from the reference file name
-- obtained from the tree and from the source file name (in which the
-- directory information is already adjusted , if needed, by the
-- corresponding call to Set_S_File_Name_String) to contain the directory
-- information needed to access this file from the current directory.
-------------------------------
-- Black-Box Unit Attributes --
-------------------------------
-- Each Unit entry contains the following fields, representing the Unit
-- black-box attributes, which are for the direct interest for the ASIS
-- queries from the Asis_Compilation_Unit package, the primary idea of
-- implementing the Context/Compilation_Unit stuff in ASIS-for-GNAT is
-- to compute each of these attribute only once, when the new tree is
-- inputted by ASIS for the first time, and then store them in Unit
-- Table, so then ASIS queries will be able to get the required
-- answer without any new tree processing:
-- Top : Node_Id;
-- The top node of the unit subtree in the currently accessed full tree.
-- From one side, this node should be reset every time the full tree
-- is changed. From the other side, the corresponding actions may be
-- considered as too time-consumed. This problem is postponed now as
-- OPEN PROBLEM, it is not important till we are working under the
-- limitation "only one tree can be accessed at a time"
-- Enclosing_Context : Context_Id;
-- The reference to the Context table which indicates the Enclosing
-- Context for a Unit
-- Kind : Unit_Kinds;
-- The kind of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Class : Unit_Classes;
-- The class of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Origin : Unit_Origins;
-- The origin of a Compilation Unit, as defined by Asis.Unit_Kinds
-- package
-- Main_Unit : Boolean;
-- The boolean flag indicating if a Compilation Unit may be treated
-- as the main unit for a partition (See RM 10.2(7))
-- GNAT-specific!!??
-- Is_Body_Required : Boolean;
-- The boolean flag indicating if a Compilation Unit requires a body
-- as a completion
-----------------------------------------------------------
-- Black-Box Unit Attributes Access and Update Routines --
-----------------------------------------------------------
function Top (U : Unit_Id) return Node_Id;
-- this function is not trivial, it can have tree swapping as its
-- "side effect"
function Kind (C : Context_Id; U : Unit_Id) return Unit_Kinds;
function Class (C : Context_Id; U : Unit_Id) return Unit_Classes;
function Origin (C : Context_Id; U : Unit_Id) return Unit_Origins;
function Is_Main_Unit (C : Context_Id; U : Unit_Id) return Boolean;
function Is_Body_Required (C : Context_Id; U : Unit_Id) return Boolean;
-- This function does not reset Context, a Caller is responsible for this
function Time_Stamp (C : Context_Id; U : Unit_Id) return Time_Stamp_Type;
function Is_Consistent (C : Context_Id; U : Unit_Id) return Boolean;
function Source_Status (C : Context_Id; U : Unit_Id)
return Source_File_Statuses;
function Main_Tree (C : Context_Id; U : Unit_Id) return Tree_Id;
function Has_Limited_View_Only (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has only limited view in C
--------
procedure Set_Top (C : Context_Id; U : Unit_Id;
N : Node_Id);
procedure Set_Kind (C : Context_Id; U : Unit_Id;
K : Unit_Kinds);
procedure Set_Class (C : Context_Id; U : Unit_Id;
Cl : Unit_Classes);
procedure Set_Origin (C : Context_Id; U : Unit_Id;
O : Unit_Origins);
procedure Set_Is_Main_Unit (C : Context_Id; U : Unit_Id;
M : Boolean);
procedure Set_Is_Body_Required (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Time_Stamp (C : Context_Id; U : Unit_Id;
T : Time_Stamp_Type);
procedure Set_Is_Consistent (C : Context_Id; U : Unit_Id;
B : Boolean);
procedure Set_Source_Status (C : Context_Id; U : Unit_Id;
S : Source_File_Statuses);
-------------------------------------------------
---------------------------
-- Semantic Dependencies --
---------------------------
----------------------------------------------------
-- Subprograms for Semantic Dependencies Handling --
----------------------------------------------------
function Not_Root return Boolean;
-- Checks if U is not a root library unit (by checking if
-- its name contains a dot). This function itself does not set the
-- normalized name of U in A_Name_Buffer, it is supposed to be called
-- when a proper name is already set.
function Subunits (C : Context_Id; U : Unit_Id) return Unit_Id_List;
-- Returns the full list of Ids of subunits for U (if any). The full list
-- contains nonexistent units for missed subunits
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit
(Parent_Body : Asis.Compilation_Unit;
Stub_Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used only when all the Unit attributes
-- are already computed. It gets the Parent_Body, whose tree should
-- contain Stub_Node as a node representing some body stub, and it
-- returns the Compilation Unit containing the proper body for this stub.
-- It returns a Nil_Compilation_Unit, if the Compilation Unit containing
-- the proper body does not exist in the enclosing Context or if it is
-- inconsistent with Parent_Body.
function Children (U : Unit_Id) return Unit_Id_List;
-- returns the list of Ids of children for U (if any)
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function GNAT_Compilation_Dependencies (U : Unit_Id) return Unit_Id_List;
-- Returns the full list of GNAT compilation dependencies for U
-- This list is empty if and only if U is not a main unit of some
-- compilation which creates some tree for C.
procedure Form_Parent_Name;
-- supposing A_Name_Buffer containing a normalized unit name, this
-- function forms the normalized name of its parent by stripping out
-- the suffix in the Ada part of the name (that is, the part of the
-- name between the rightmost '.' and '%") and changing the
-- "normalized" suffix to "%s". A_Name_Len is set in accordance with
-- this. If the Ada part of the name contains no suffix (that is, if
-- it corresponds to a root library unit), A_Name_Len is set equal
-- to 0.
function Get_Parent_Unit (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the parent unit declaration for U. If U is
-- First_Unit_Id, returns Nil_Unit.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Body (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_body for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Declaration (C : Context_Id; U : Unit_Id) return Unit_Id;
-- returns the Id of the library_unit_declaration for the unit U.
-- Nil_Unit is not a valid argument for this function.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Get_Subunit_Parent_Body
(C : Context_Id;
U : Unit_Id)
return Unit_Id;
-- returns the Id of the library_unit_body or subunit being the parent
-- body for subunit U (a caller is responsible for calling this function
-- for subunits).
function Get_Nonexistent_Unit (C : Context_Id) return Unit_Id;
-- Is supposed to be called just after an attempt to get a unit which is
-- supposed to be a needed declaration or a needed body (that is,
-- A_Name_Buffer contains a normalized unit name ending with "%s" or "%b"
-- respectively). Tries to find the unit of A_Nonexistent_Declaration
-- or A_Nonexistent_Body kind with this name, if this attempt fails,
-- allocates the new unit entry for the corresponding nonexistent unit.
-- Returns the Id of found or allocated unit.
function Get_Same_Unit
(Arg_C : Context_Id;
Arg_U : Unit_Id;
Targ_C : Context_Id)
return Unit_Id;
-- Tries to find in Targ_C just the same unit as Arg_U is in Arg_C.
-- Just the same means, that Arg_U and the result of this function
-- should have just the same time stamps. If Arg_C = Targ_C, Arg_U
-- is returned. If there is no "just the same" unit in Targ_C,
-- Nil_Unit is returned.
--
-- If No (Arg_U), then the currently accessed Context is not reset (but
-- this function is not supposed to be called for Arg_U equal to
-- Nil_Unit_Id, although it is not an error). Otherwise Context is reset
-- to Targ_C
--------------------------------------
-- General-Purpose Unit Subprograms --
--------------------------------------
procedure Finalize (C : Context_Id);
-- Currently this routine is only used to generate debugging output
-- for the Unit Table of a given Context.
function Present (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if Present (Current_Supporter)" as opposed to
-- "if Current_Supporter /= Nil_Unit
function No (Unit : Unit_Id) return Boolean;
-- Tests given Unit Id for equality with Nil_Unit. This allows
-- notations like "if No (Current_Supporter)" as opposed to
-- "if Current_Supporter = Nil_Unit
function Last_Unit return Unit_Id;
-- Returns the Unit_Id of the last unit which has been allocated in the
-- Unit Name Table. Used to define that the Unit_Id value returned by
-- Name_Find corresponds to the ASIS Compilation Unit which is not
-- known to ASIS.
function Lib_Unit_Decls (C : Context_Id) return Natural;
-- returns the number of library_unit_declaratios allocated in the
-- Context Unit table
function Comp_Unit_Bodies (C : Context_Id) return Natural;
-- returns the number of library_unit_bodies and subunits allocated
-- in the Context Unit table
function Next_Decl (D : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- D), which is a library_unit_declaration. Returns Nil_Unit, if there
-- is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function First_Body return Unit_Id;
-- Returns the Unit_Id of the first unit which is a
-- compilation_unit_body or a subunit. Returns Nil_Unit, if there is
-- no such a unit in a current Context.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
function Next_Body (B : Unit_Id) return Unit_Id;
-- Returns the Unit_Id of the next unit (starting from, but not including
-- B) which is a compilation_unit_body or a subunit. Returns Nil_Unit,
-- if there is no such a unit in C.
--
-- Note, that this function does not reset Context, it should be done in
-- the caller!
procedure Output_Unit (C : Context_Id; Unit : Unit_Id);
-- Produces the debug output of the Unit Table entry corresponding
-- to Unit
-- DO WE NEED THIS PROCEDURE IN THE SPECIFICATION????
procedure Print_Units (C : Context_Id);
-- Produces the debug output from the Unit table for the Context C.
function Enclosing_Unit
(Cont : Context_Id;
Node : Node_Id)
return Asis.Compilation_Unit;
-- This function is intended to be used to define the enclosing
-- unit for an Element obtained as a result of some ASIS semantic query.
-- It finds the N_Compilation_Unit node for the subtree enclosing
-- the Node given as its argument, and then defines the corresponding
-- Unit Id, which is supposed to be the Id of Enclosing Unit for an
-- Element built up on the base of Node. It does not change the tree
-- being currently accessed. All these computations are supposed
-- to be performed for a Context Cont.
-- Node should not be a result of Atree.Original_Node, because
-- it is used as an argument for Atree.Parent function
--
-- Note, that this function does no consistency check, that is, the
-- currently accessed tree may be not from the list of consistent trees
-- for the resulted Unit.
---------------
-- NEW STUFF --
---------------
procedure Register_Units (Set_First_New_Unit : Boolean := False);
-- When a new tree file is read in during Opening a Context, this procedure
-- goes through all the units represented by this tree and checks if these
-- units are already known to ASIS. If some unit is unknown, this
-- procedure "register" it - it creates the corresponding entry in the
-- unit table, and it sets the normalized unit name. It does not set any
-- other field of unit record except Kind. It sets Kind as Not_A_Unit
-- to indicate, that this unit is only registered, but not processed.
--
-- We need this (pre-)registration to be made before starting unit
-- processing performed by Process_Unit_New, because we need all the units
-- presenting in the tree to be presented also in the Context unit table
-- when storing the dependency information.
--
-- Note, that all the consistency checks are made by Process_Unit_New,
-- even though we can make them here. The reason is to separate this
-- (pre-)registration (which is an auxiliary technical action) from
-- unit-by-unit processing to facilitate the maintainability of the code.
--
-- If Set_First_New_Unit is set ON, stores in A4G.Contt.First_New_Unit
-- the first new unit being registered. If Set_First_New_Unit is set OFF
-- or if no new units has been registered, First_New_Unit is set to
-- Nil_Unit
--
-- ??? The current implementation uses Set_Unit, which also sets time
-- ??? stamp for a unit being registered. It looks like we do not need
-- ??? this, so we can get rid of this.
function Already_Processed (C : Context_Id; U : Unit_Id) return Boolean;
-- Checks if U has already been processed when scanning previous trees
-- during opening C
procedure Check_Source_Consistency
(C : Context_Id;
U_Id : Unit_Id);
-- Is called when a Unit is being investigated as encountered for the first
-- time during opening the Context C. It checks the existence of the source
-- file for this unit, and if the source file exists, it checks that the
-- units as represented by the tree is consistent with the source (if this
-- is required by the options associated with the Context).
-- This procedure should be called after extracting the source file name
-- from the tree and putting this into the Context unit table.
procedure Check_Consistency
(C : Context_Id;
U_Id : Unit_Id;
U_Num : Unit_Number_Type);
-- Is called when a unit is encountered again when opening C. Checks if in
-- the currently accessed tree this unit has the same time stamp as it had
-- in all the previously processed trees. In case if this check fails, it
-- raises ASIS_Failed and forms the diagnosis on behalf of
-- Asis.Ada_Environments.Open. (This procedure does not check the source
-- file for the unit - this should be done by Check_Source_Consistency
-- when the unit was processed for the first time)
function TS_From_OS_Time (T : OS_Time) return Time_Stamp_Type;
-- Converts OS_Time into Time_Stamp_Type. Is this the right place for
-- this function???
procedure Reset_Cache;
-- Resents to the empty state the cache data structure used to speed up the
-- Top function. Should be called as a part of closing a Context.
end A4G.Contt.UT;
|
[
{
"context": "e-Identifier: Apache-2.0\n--\n-- Copyright (c) 2018 onox <denkpadje@gmail.com>\n--\n-- Licensed under the A",
"end": 70,
"score": 0.9989571571350098,
"start": 66,
"tag": "USERNAME",
"value": "onox"
},
{
"context": "ifier: Apache-2.0\n--\n-- Copyright (c) 2018 onox <denkpadje@gmail.com>\n--\n-- Licensed under the Apache License, Versio",
"end": 91,
"score": 0.9999250173568726,
"start": 72,
"tag": "EMAIL",
"value": "denkpadje@gmail.com"
}
] | orka/src/gl/implementation/gl-enums-internalformat.ads | onox/orka | 52 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2018 onox <denkpadje@gmail.com>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
package GL.Enums.Internalformat is
pragma Preelaborate;
type Parameter is
(Samples,
Internalformat_Supported,
Internalformat_Preferred,
Internalformat_Red_Size,
Internalformat_Green_Size,
Internalformat_Blue_Size,
Internalformat_Alpha_Size,
Internalformat_Depth_Size,
Internalformat_Stencil_Size,
Internalformat_Shared_Size,
Internalformat_Red_Type,
Internalformat_Green_Type,
Internalformat_Blue_Type,
Internalformat_Alpha_Type,
Internalformat_Depth_Type,
Internalformat_Stencil_Type,
Max_Width,
Max_Height,
Max_Depth,
Max_Layers,
Max_Combined_Dimensions,
Color_Components,
Depth_Components,
Stencil_Components,
Color_Renderable,
Depth_Renderable,
Stencil_Renderable,
Framebuffer_Renderable,
Framebuffer_Renderable_Layered,
Framebuffer_Blend,
Texture_Image_Format,
Texture_Image_Type,
Get_Texture_Image_Format,
Get_Texture_Image_Type,
Mipmap,
Manual_Generate_Mipmap,
Auto_Generate_Mipmap,
Color_Encoding,
sRGB_Read,
sRGB_Write,
sRGB_Decode_ARB,
Filter,
Vertex_Texture,
Tess_Control_Texture,
Tess_Evaluation_Texture,
Geometry_Texture,
Fragment_Texture,
Compute_Texture,
Texture_Shadow,
Texture_Gather,
Texture_Gather_Shadow,
Shader_Image_Load,
Shader_Image_Store,
Shader_Image_Atomic,
Image_Texel_Size,
Image_Compatibility_Class,
Image_Pixel_Format,
Image_Pixel_Type,
Simultaneous_Texture_And_Depth_Test,
Simultaneous_Texture_And_Stencil_Test,
Simultaneous_Texture_And_Depth_Write,
Simultaneous_Texture_And_Stencil_Write,
Texture_Compressed_Block_Width,
Texture_Compressed_Block_Height,
Texture_Compressed_Block_Size,
Clear_Buffer,
Texture_View,
View_Compatibility_Class,
Texture_Compressed,
Image_Format_Compatibility_Type,
Num_Sample_Counts);
private
for Parameter use
(Samples => 16#80A9#,
Internalformat_Supported => 16#826F#,
Internalformat_Preferred => 16#8270#,
Internalformat_Red_Size => 16#8271#,
Internalformat_Green_Size => 16#8272#,
Internalformat_Blue_Size => 16#8273#,
Internalformat_Alpha_Size => 16#8274#,
Internalformat_Depth_Size => 16#8275#,
Internalformat_Stencil_Size => 16#8276#,
Internalformat_Shared_Size => 16#8277#,
Internalformat_Red_Type => 16#8278#,
Internalformat_Green_Type => 16#8279#,
Internalformat_Blue_Type => 16#827A#,
Internalformat_Alpha_Type => 16#827B#,
Internalformat_Depth_Type => 16#827C#,
Internalformat_Stencil_Type => 16#827D#,
Max_Width => 16#827E#,
Max_Height => 16#827F#,
Max_Depth => 16#8280#,
Max_Layers => 16#8281#,
Max_Combined_Dimensions => 16#8282#,
Color_Components => 16#8283#,
Depth_Components => 16#8284#,
Stencil_Components => 16#8285#,
Color_Renderable => 16#8286#,
Depth_Renderable => 16#8287#,
Stencil_Renderable => 16#8288#,
Framebuffer_Renderable => 16#8289#,
Framebuffer_Renderable_Layered => 16#828A#,
Framebuffer_Blend => 16#828B#,
Texture_Image_Format => 16#828F#,
Texture_Image_Type => 16#8290#,
Get_Texture_Image_Format => 16#8291#,
Get_Texture_Image_Type => 16#8292#,
Mipmap => 16#8293#,
Manual_Generate_Mipmap => 16#8294#,
Auto_Generate_Mipmap => 16#8295#,
Color_Encoding => 16#8296#,
sRGB_Read => 16#8297#,
sRGB_Write => 16#8298#,
sRGB_Decode_ARB => 16#8299#,
Filter => 16#829A#,
Vertex_Texture => 16#829B#,
Tess_Control_Texture => 16#829C#,
Tess_Evaluation_Texture => 16#829D#,
Geometry_Texture => 16#829E#,
Fragment_Texture => 16#829F#,
Compute_Texture => 16#82A0#,
Texture_Shadow => 16#82A1#,
Texture_Gather => 16#82A2#,
Texture_Gather_Shadow => 16#82A3#,
Shader_Image_Load => 16#82A4#,
Shader_Image_Store => 16#82A5#,
Shader_Image_Atomic => 16#82A6#,
Image_Texel_Size => 16#82A7#,
Image_Compatibility_Class => 16#82A8#,
Image_Pixel_Format => 16#82A9#,
Image_Pixel_Type => 16#82AA#,
Simultaneous_Texture_And_Depth_Test => 16#82AC#,
Simultaneous_Texture_And_Stencil_Test => 16#82AD#,
Simultaneous_Texture_And_Depth_Write => 16#82AE#,
Simultaneous_Texture_And_Stencil_Write => 16#82AF#,
Texture_Compressed_Block_Width => 16#82B1#,
Texture_Compressed_Block_Height => 16#82B2#,
Texture_Compressed_Block_Size => 16#82B3#,
Clear_Buffer => 16#82B4#,
Texture_View => 16#82B5#,
View_Compatibility_Class => 16#82B6#,
Texture_Compressed => 16#86A1#,
Image_Format_Compatibility_Type => 16#90C7#,
Num_Sample_Counts => 16#9380#);
for Parameter'Size use Low_Level.Enum'Size;
end GL.Enums.Internalformat;
| 6127 | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2018 onox <<EMAIL>>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
package GL.Enums.Internalformat is
pragma Preelaborate;
type Parameter is
(Samples,
Internalformat_Supported,
Internalformat_Preferred,
Internalformat_Red_Size,
Internalformat_Green_Size,
Internalformat_Blue_Size,
Internalformat_Alpha_Size,
Internalformat_Depth_Size,
Internalformat_Stencil_Size,
Internalformat_Shared_Size,
Internalformat_Red_Type,
Internalformat_Green_Type,
Internalformat_Blue_Type,
Internalformat_Alpha_Type,
Internalformat_Depth_Type,
Internalformat_Stencil_Type,
Max_Width,
Max_Height,
Max_Depth,
Max_Layers,
Max_Combined_Dimensions,
Color_Components,
Depth_Components,
Stencil_Components,
Color_Renderable,
Depth_Renderable,
Stencil_Renderable,
Framebuffer_Renderable,
Framebuffer_Renderable_Layered,
Framebuffer_Blend,
Texture_Image_Format,
Texture_Image_Type,
Get_Texture_Image_Format,
Get_Texture_Image_Type,
Mipmap,
Manual_Generate_Mipmap,
Auto_Generate_Mipmap,
Color_Encoding,
sRGB_Read,
sRGB_Write,
sRGB_Decode_ARB,
Filter,
Vertex_Texture,
Tess_Control_Texture,
Tess_Evaluation_Texture,
Geometry_Texture,
Fragment_Texture,
Compute_Texture,
Texture_Shadow,
Texture_Gather,
Texture_Gather_Shadow,
Shader_Image_Load,
Shader_Image_Store,
Shader_Image_Atomic,
Image_Texel_Size,
Image_Compatibility_Class,
Image_Pixel_Format,
Image_Pixel_Type,
Simultaneous_Texture_And_Depth_Test,
Simultaneous_Texture_And_Stencil_Test,
Simultaneous_Texture_And_Depth_Write,
Simultaneous_Texture_And_Stencil_Write,
Texture_Compressed_Block_Width,
Texture_Compressed_Block_Height,
Texture_Compressed_Block_Size,
Clear_Buffer,
Texture_View,
View_Compatibility_Class,
Texture_Compressed,
Image_Format_Compatibility_Type,
Num_Sample_Counts);
private
for Parameter use
(Samples => 16#80A9#,
Internalformat_Supported => 16#826F#,
Internalformat_Preferred => 16#8270#,
Internalformat_Red_Size => 16#8271#,
Internalformat_Green_Size => 16#8272#,
Internalformat_Blue_Size => 16#8273#,
Internalformat_Alpha_Size => 16#8274#,
Internalformat_Depth_Size => 16#8275#,
Internalformat_Stencil_Size => 16#8276#,
Internalformat_Shared_Size => 16#8277#,
Internalformat_Red_Type => 16#8278#,
Internalformat_Green_Type => 16#8279#,
Internalformat_Blue_Type => 16#827A#,
Internalformat_Alpha_Type => 16#827B#,
Internalformat_Depth_Type => 16#827C#,
Internalformat_Stencil_Type => 16#827D#,
Max_Width => 16#827E#,
Max_Height => 16#827F#,
Max_Depth => 16#8280#,
Max_Layers => 16#8281#,
Max_Combined_Dimensions => 16#8282#,
Color_Components => 16#8283#,
Depth_Components => 16#8284#,
Stencil_Components => 16#8285#,
Color_Renderable => 16#8286#,
Depth_Renderable => 16#8287#,
Stencil_Renderable => 16#8288#,
Framebuffer_Renderable => 16#8289#,
Framebuffer_Renderable_Layered => 16#828A#,
Framebuffer_Blend => 16#828B#,
Texture_Image_Format => 16#828F#,
Texture_Image_Type => 16#8290#,
Get_Texture_Image_Format => 16#8291#,
Get_Texture_Image_Type => 16#8292#,
Mipmap => 16#8293#,
Manual_Generate_Mipmap => 16#8294#,
Auto_Generate_Mipmap => 16#8295#,
Color_Encoding => 16#8296#,
sRGB_Read => 16#8297#,
sRGB_Write => 16#8298#,
sRGB_Decode_ARB => 16#8299#,
Filter => 16#829A#,
Vertex_Texture => 16#829B#,
Tess_Control_Texture => 16#829C#,
Tess_Evaluation_Texture => 16#829D#,
Geometry_Texture => 16#829E#,
Fragment_Texture => 16#829F#,
Compute_Texture => 16#82A0#,
Texture_Shadow => 16#82A1#,
Texture_Gather => 16#82A2#,
Texture_Gather_Shadow => 16#82A3#,
Shader_Image_Load => 16#82A4#,
Shader_Image_Store => 16#82A5#,
Shader_Image_Atomic => 16#82A6#,
Image_Texel_Size => 16#82A7#,
Image_Compatibility_Class => 16#82A8#,
Image_Pixel_Format => 16#82A9#,
Image_Pixel_Type => 16#82AA#,
Simultaneous_Texture_And_Depth_Test => 16#82AC#,
Simultaneous_Texture_And_Stencil_Test => 16#82AD#,
Simultaneous_Texture_And_Depth_Write => 16#82AE#,
Simultaneous_Texture_And_Stencil_Write => 16#82AF#,
Texture_Compressed_Block_Width => 16#82B1#,
Texture_Compressed_Block_Height => 16#82B2#,
Texture_Compressed_Block_Size => 16#82B3#,
Clear_Buffer => 16#82B4#,
Texture_View => 16#82B5#,
View_Compatibility_Class => 16#82B6#,
Texture_Compressed => 16#86A1#,
Image_Format_Compatibility_Type => 16#90C7#,
Num_Sample_Counts => 16#9380#);
for Parameter'Size use Low_Level.Enum'Size;
end GL.Enums.Internalformat;
| true | -- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2018 onox <PI:EMAIL:<EMAIL>END_PI>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
package GL.Enums.Internalformat is
pragma Preelaborate;
type Parameter is
(Samples,
Internalformat_Supported,
Internalformat_Preferred,
Internalformat_Red_Size,
Internalformat_Green_Size,
Internalformat_Blue_Size,
Internalformat_Alpha_Size,
Internalformat_Depth_Size,
Internalformat_Stencil_Size,
Internalformat_Shared_Size,
Internalformat_Red_Type,
Internalformat_Green_Type,
Internalformat_Blue_Type,
Internalformat_Alpha_Type,
Internalformat_Depth_Type,
Internalformat_Stencil_Type,
Max_Width,
Max_Height,
Max_Depth,
Max_Layers,
Max_Combined_Dimensions,
Color_Components,
Depth_Components,
Stencil_Components,
Color_Renderable,
Depth_Renderable,
Stencil_Renderable,
Framebuffer_Renderable,
Framebuffer_Renderable_Layered,
Framebuffer_Blend,
Texture_Image_Format,
Texture_Image_Type,
Get_Texture_Image_Format,
Get_Texture_Image_Type,
Mipmap,
Manual_Generate_Mipmap,
Auto_Generate_Mipmap,
Color_Encoding,
sRGB_Read,
sRGB_Write,
sRGB_Decode_ARB,
Filter,
Vertex_Texture,
Tess_Control_Texture,
Tess_Evaluation_Texture,
Geometry_Texture,
Fragment_Texture,
Compute_Texture,
Texture_Shadow,
Texture_Gather,
Texture_Gather_Shadow,
Shader_Image_Load,
Shader_Image_Store,
Shader_Image_Atomic,
Image_Texel_Size,
Image_Compatibility_Class,
Image_Pixel_Format,
Image_Pixel_Type,
Simultaneous_Texture_And_Depth_Test,
Simultaneous_Texture_And_Stencil_Test,
Simultaneous_Texture_And_Depth_Write,
Simultaneous_Texture_And_Stencil_Write,
Texture_Compressed_Block_Width,
Texture_Compressed_Block_Height,
Texture_Compressed_Block_Size,
Clear_Buffer,
Texture_View,
View_Compatibility_Class,
Texture_Compressed,
Image_Format_Compatibility_Type,
Num_Sample_Counts);
private
for Parameter use
(Samples => 16#80A9#,
Internalformat_Supported => 16#826F#,
Internalformat_Preferred => 16#8270#,
Internalformat_Red_Size => 16#8271#,
Internalformat_Green_Size => 16#8272#,
Internalformat_Blue_Size => 16#8273#,
Internalformat_Alpha_Size => 16#8274#,
Internalformat_Depth_Size => 16#8275#,
Internalformat_Stencil_Size => 16#8276#,
Internalformat_Shared_Size => 16#8277#,
Internalformat_Red_Type => 16#8278#,
Internalformat_Green_Type => 16#8279#,
Internalformat_Blue_Type => 16#827A#,
Internalformat_Alpha_Type => 16#827B#,
Internalformat_Depth_Type => 16#827C#,
Internalformat_Stencil_Type => 16#827D#,
Max_Width => 16#827E#,
Max_Height => 16#827F#,
Max_Depth => 16#8280#,
Max_Layers => 16#8281#,
Max_Combined_Dimensions => 16#8282#,
Color_Components => 16#8283#,
Depth_Components => 16#8284#,
Stencil_Components => 16#8285#,
Color_Renderable => 16#8286#,
Depth_Renderable => 16#8287#,
Stencil_Renderable => 16#8288#,
Framebuffer_Renderable => 16#8289#,
Framebuffer_Renderable_Layered => 16#828A#,
Framebuffer_Blend => 16#828B#,
Texture_Image_Format => 16#828F#,
Texture_Image_Type => 16#8290#,
Get_Texture_Image_Format => 16#8291#,
Get_Texture_Image_Type => 16#8292#,
Mipmap => 16#8293#,
Manual_Generate_Mipmap => 16#8294#,
Auto_Generate_Mipmap => 16#8295#,
Color_Encoding => 16#8296#,
sRGB_Read => 16#8297#,
sRGB_Write => 16#8298#,
sRGB_Decode_ARB => 16#8299#,
Filter => 16#829A#,
Vertex_Texture => 16#829B#,
Tess_Control_Texture => 16#829C#,
Tess_Evaluation_Texture => 16#829D#,
Geometry_Texture => 16#829E#,
Fragment_Texture => 16#829F#,
Compute_Texture => 16#82A0#,
Texture_Shadow => 16#82A1#,
Texture_Gather => 16#82A2#,
Texture_Gather_Shadow => 16#82A3#,
Shader_Image_Load => 16#82A4#,
Shader_Image_Store => 16#82A5#,
Shader_Image_Atomic => 16#82A6#,
Image_Texel_Size => 16#82A7#,
Image_Compatibility_Class => 16#82A8#,
Image_Pixel_Format => 16#82A9#,
Image_Pixel_Type => 16#82AA#,
Simultaneous_Texture_And_Depth_Test => 16#82AC#,
Simultaneous_Texture_And_Stencil_Test => 16#82AD#,
Simultaneous_Texture_And_Depth_Write => 16#82AE#,
Simultaneous_Texture_And_Stencil_Write => 16#82AF#,
Texture_Compressed_Block_Width => 16#82B1#,
Texture_Compressed_Block_Height => 16#82B2#,
Texture_Compressed_Block_Size => 16#82B3#,
Clear_Buffer => 16#82B4#,
Texture_View => 16#82B5#,
View_Compatibility_Class => 16#82B6#,
Texture_Compressed => 16#86A1#,
Image_Format_Compatibility_Type => 16#90C7#,
Num_Sample_Counts => 16#9380#);
for Parameter'Size use Low_Level.Enum'Size;
end GL.Enums.Internalformat;
|
[
{
"context": "-- part of OpenGLAda, (c) 2017 Felix Krause\n-- released under the terms of the MIT license, ",
"end": 44,
"score": 0.9998465776443481,
"start": 32,
"tag": "NAME",
"value": "Felix Krause"
}
] | tests/glfw3/glfw_test-windows.adb | Roldak/OpenGLAda | 79 | -- part of OpenGLAda, (c) 2017 Felix Krause
-- released under the terms of the MIT license, see the file "COPYING"
with Glfw.Windows;
with Glfw.Monitors;
with Glfw.Input.Keys;
procedure Glfw_Test.Windows is
type My_Window is new Glfw.Windows.Window with null record;
overriding
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null);
overriding
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers);
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null) is
Upcast : constant Glfw.Windows.Window_Reference
:= Glfw.Windows.Window (Object.all)'Access;
begin
Upcast.Init (Width, Height, Title, Monitor, Share);
Object.Enable_Callback (Glfw.Windows.Callbacks.Key);
end Init;
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers) is
pragma Unreferenced (Scancode);
pragma Unreferenced (Action);
pragma Unreferenced (Mods);
use type Glfw.Input.Keys.Key;
begin
If Key = Glfw.Input.Keys.Escape then
Object.Set_Should_Close (True);
end if;
end Key_Changed;
W1 : aliased Glfw.Windows.Window;
W2 : aliased My_Window;
begin
Glfw.Init;
Enable_Print_Errors;
W1'Access.Init (640, 480, "Window 1");
W2'Access.Init (640, 480, "Window 2");
while not W2'Access.Should_Close loop
Glfw.Input.Wait_For_Events;
end loop;
Glfw.Shutdown;
end Glfw_Test.Windows;
| 7034 | -- part of OpenGLAda, (c) 2017 <NAME>
-- released under the terms of the MIT license, see the file "COPYING"
with Glfw.Windows;
with Glfw.Monitors;
with Glfw.Input.Keys;
procedure Glfw_Test.Windows is
type My_Window is new Glfw.Windows.Window with null record;
overriding
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null);
overriding
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers);
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null) is
Upcast : constant Glfw.Windows.Window_Reference
:= Glfw.Windows.Window (Object.all)'Access;
begin
Upcast.Init (Width, Height, Title, Monitor, Share);
Object.Enable_Callback (Glfw.Windows.Callbacks.Key);
end Init;
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers) is
pragma Unreferenced (Scancode);
pragma Unreferenced (Action);
pragma Unreferenced (Mods);
use type Glfw.Input.Keys.Key;
begin
If Key = Glfw.Input.Keys.Escape then
Object.Set_Should_Close (True);
end if;
end Key_Changed;
W1 : aliased Glfw.Windows.Window;
W2 : aliased My_Window;
begin
Glfw.Init;
Enable_Print_Errors;
W1'Access.Init (640, 480, "Window 1");
W2'Access.Init (640, 480, "Window 2");
while not W2'Access.Should_Close loop
Glfw.Input.Wait_For_Events;
end loop;
Glfw.Shutdown;
end Glfw_Test.Windows;
| true | -- part of OpenGLAda, (c) 2017 PI:NAME:<NAME>END_PI
-- released under the terms of the MIT license, see the file "COPYING"
with Glfw.Windows;
with Glfw.Monitors;
with Glfw.Input.Keys;
procedure Glfw_Test.Windows is
type My_Window is new Glfw.Windows.Window with null record;
overriding
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null);
overriding
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers);
procedure Init (Object : not null access My_Window;
Width, Height : Glfw.Size;
Title : String;
Monitor : Glfw.Monitors.Monitor := Glfw.Monitors.No_Monitor;
Share : access Glfw.Windows.Window'Class := null) is
Upcast : constant Glfw.Windows.Window_Reference
:= Glfw.Windows.Window (Object.all)'Access;
begin
Upcast.Init (Width, Height, Title, Monitor, Share);
Object.Enable_Callback (Glfw.Windows.Callbacks.Key);
end Init;
procedure Key_Changed (Object : not null access My_Window;
Key : Glfw.Input.Keys.Key;
Scancode : Glfw.Input.Keys.Scancode;
Action : Glfw.Input.Keys.Action;
Mods : Glfw.Input.Keys.Modifiers) is
pragma Unreferenced (Scancode);
pragma Unreferenced (Action);
pragma Unreferenced (Mods);
use type Glfw.Input.Keys.Key;
begin
If Key = Glfw.Input.Keys.Escape then
Object.Set_Should_Close (True);
end if;
end Key_Changed;
W1 : aliased Glfw.Windows.Window;
W2 : aliased My_Window;
begin
Glfw.Init;
Enable_Print_Errors;
W1'Access.Init (640, 480, "Window 1");
W2'Access.Init (640, 480, "Window 2");
while not W2'Access.Should_Close loop
Glfw.Input.Wait_For_Events;
end loop;
Glfw.Shutdown;
end Glfw_Test.Windows;
|
[
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifi",
"end": 35,
"score": 0.9998577237129211,
"start": 23,
"tag": "NAME",
"value": "Maxim Reznik"
},
{
"context": "-- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>\n--\n-- SPDX-License-Identifier: MIT\n-- License-",
"end": 55,
"score": 0.9999313950538635,
"start": 37,
"tag": "EMAIL",
"value": "reznikmm@gmail.com"
}
] | source/nodes/program-nodes-generic_procedure_declarations.adb | optikos/oasis | 0 | -- Copyright (c) 2019 Maxim Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
package body Program.Nodes.Generic_Procedure_Declarations is
function Create
(Generic_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Procedure_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Left_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Right_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
With_Token : Program.Lexical_Elements.Lexical_Element_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Generic_Procedure_Declaration is
begin
return Result : Generic_Procedure_Declaration :=
(Generic_Token => Generic_Token,
Formal_Parameters => Formal_Parameters,
Procedure_Token => Procedure_Token, Name => Name,
Left_Bracket_Token => Left_Bracket_Token, Parameters => Parameters,
Right_Bracket_Token => Right_Bracket_Token, With_Token => With_Token,
Aspects => Aspects, Semicolon_Token => Semicolon_Token,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Generic_Procedure_Declaration is
begin
return Result : Implicit_Generic_Procedure_Declaration :=
(Formal_Parameters => Formal_Parameters, Name => Name,
Parameters => Parameters, Aspects => Aspects,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Formal_Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Formal_Parameters;
end Formal_Parameters;
overriding function Name
(Self : Base_Generic_Procedure_Declaration)
return not null Program.Elements.Defining_Names.Defining_Name_Access is
begin
return Self.Name;
end Name;
overriding function Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access is
begin
return Self.Parameters;
end Parameters;
overriding function Aspects
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access is
begin
return Self.Aspects;
end Aspects;
overriding function Generic_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Generic_Token;
end Generic_Token;
overriding function Procedure_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Procedure_Token;
end Procedure_Token;
overriding function Left_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Left_Bracket_Token;
end Left_Bracket_Token;
overriding function Right_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Right_Bracket_Token;
end Right_Bracket_Token;
overriding function With_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.With_Token;
end With_Token;
overriding function Semicolon_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize
(Self : aliased in out Base_Generic_Procedure_Declaration'Class) is
begin
for Item in Self.Formal_Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
Set_Enclosing_Element (Self.Name, Self'Unchecked_Access);
for Item in Self.Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
for Item in Self.Aspects.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Generic_Procedure_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Generic_Procedure_Declaration_Element;
overriding function Is_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Declaration_Element;
overriding procedure Visit
(Self : not null access Base_Generic_Procedure_Declaration;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Generic_Procedure_Declaration (Self);
end Visit;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
begin
return Self'Unchecked_Access;
end To_Generic_Procedure_Declaration_Text;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Implicit_Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Generic_Procedure_Declaration_Text;
end Program.Nodes.Generic_Procedure_Declarations;
| 1821 | -- Copyright (c) 2019 <NAME> <<EMAIL>>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
package body Program.Nodes.Generic_Procedure_Declarations is
function Create
(Generic_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Procedure_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Left_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Right_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
With_Token : Program.Lexical_Elements.Lexical_Element_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Generic_Procedure_Declaration is
begin
return Result : Generic_Procedure_Declaration :=
(Generic_Token => Generic_Token,
Formal_Parameters => Formal_Parameters,
Procedure_Token => Procedure_Token, Name => Name,
Left_Bracket_Token => Left_Bracket_Token, Parameters => Parameters,
Right_Bracket_Token => Right_Bracket_Token, With_Token => With_Token,
Aspects => Aspects, Semicolon_Token => Semicolon_Token,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Generic_Procedure_Declaration is
begin
return Result : Implicit_Generic_Procedure_Declaration :=
(Formal_Parameters => Formal_Parameters, Name => Name,
Parameters => Parameters, Aspects => Aspects,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Formal_Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Formal_Parameters;
end Formal_Parameters;
overriding function Name
(Self : Base_Generic_Procedure_Declaration)
return not null Program.Elements.Defining_Names.Defining_Name_Access is
begin
return Self.Name;
end Name;
overriding function Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access is
begin
return Self.Parameters;
end Parameters;
overriding function Aspects
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access is
begin
return Self.Aspects;
end Aspects;
overriding function Generic_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Generic_Token;
end Generic_Token;
overriding function Procedure_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Procedure_Token;
end Procedure_Token;
overriding function Left_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Left_Bracket_Token;
end Left_Bracket_Token;
overriding function Right_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Right_Bracket_Token;
end Right_Bracket_Token;
overriding function With_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.With_Token;
end With_Token;
overriding function Semicolon_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize
(Self : aliased in out Base_Generic_Procedure_Declaration'Class) is
begin
for Item in Self.Formal_Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
Set_Enclosing_Element (Self.Name, Self'Unchecked_Access);
for Item in Self.Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
for Item in Self.Aspects.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Generic_Procedure_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Generic_Procedure_Declaration_Element;
overriding function Is_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Declaration_Element;
overriding procedure Visit
(Self : not null access Base_Generic_Procedure_Declaration;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Generic_Procedure_Declaration (Self);
end Visit;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
begin
return Self'Unchecked_Access;
end To_Generic_Procedure_Declaration_Text;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Implicit_Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Generic_Procedure_Declaration_Text;
end Program.Nodes.Generic_Procedure_Declarations;
| true | -- Copyright (c) 2019 PI:NAME:<NAME>END_PI <PI:EMAIL:<EMAIL>END_PI>
--
-- SPDX-License-Identifier: MIT
-- License-Filename: LICENSE
-------------------------------------------------------------
package body Program.Nodes.Generic_Procedure_Declarations is
function Create
(Generic_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Procedure_Token : not null Program.Lexical_Elements
.Lexical_Element_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Left_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Right_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access;
With_Token : Program.Lexical_Elements.Lexical_Element_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Semicolon_Token : not null Program.Lexical_Elements
.Lexical_Element_Access)
return Generic_Procedure_Declaration is
begin
return Result : Generic_Procedure_Declaration :=
(Generic_Token => Generic_Token,
Formal_Parameters => Formal_Parameters,
Procedure_Token => Procedure_Token, Name => Name,
Left_Bracket_Token => Left_Bracket_Token, Parameters => Parameters,
Right_Bracket_Token => Right_Bracket_Token, With_Token => With_Token,
Aspects => Aspects, Semicolon_Token => Semicolon_Token,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Formal_Parameters : Program.Element_Vectors.Element_Vector_Access;
Name : not null Program.Elements.Defining_Names
.Defining_Name_Access;
Parameters : Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access;
Aspects : Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access;
Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Generic_Procedure_Declaration is
begin
return Result : Implicit_Generic_Procedure_Declaration :=
(Formal_Parameters => Formal_Parameters, Name => Name,
Parameters => Parameters, Aspects => Aspects,
Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Formal_Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Element_Vectors.Element_Vector_Access is
begin
return Self.Formal_Parameters;
end Formal_Parameters;
overriding function Name
(Self : Base_Generic_Procedure_Declaration)
return not null Program.Elements.Defining_Names.Defining_Name_Access is
begin
return Self.Name;
end Name;
overriding function Parameters
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Parameter_Specifications
.Parameter_Specification_Vector_Access is
begin
return Self.Parameters;
end Parameters;
overriding function Aspects
(Self : Base_Generic_Procedure_Declaration)
return Program.Elements.Aspect_Specifications
.Aspect_Specification_Vector_Access is
begin
return Self.Aspects;
end Aspects;
overriding function Generic_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Generic_Token;
end Generic_Token;
overriding function Procedure_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Procedure_Token;
end Procedure_Token;
overriding function Left_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Left_Bracket_Token;
end Left_Bracket_Token;
overriding function Right_Bracket_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Right_Bracket_Token;
end Right_Bracket_Token;
overriding function With_Token
(Self : Generic_Procedure_Declaration)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.With_Token;
end With_Token;
overriding function Semicolon_Token
(Self : Generic_Procedure_Declaration)
return not null Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Semicolon_Token;
end Semicolon_Token;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Generic_Procedure_Declaration)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
procedure Initialize
(Self : aliased in out Base_Generic_Procedure_Declaration'Class) is
begin
for Item in Self.Formal_Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
Set_Enclosing_Element (Self.Name, Self'Unchecked_Access);
for Item in Self.Parameters.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
for Item in Self.Aspects.Each_Element loop
Set_Enclosing_Element (Item.Element, Self'Unchecked_Access);
end loop;
null;
end Initialize;
overriding function Is_Generic_Procedure_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Generic_Procedure_Declaration_Element;
overriding function Is_Declaration_Element
(Self : Base_Generic_Procedure_Declaration)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Declaration_Element;
overriding procedure Visit
(Self : not null access Base_Generic_Procedure_Declaration;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Generic_Procedure_Declaration (Self);
end Visit;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
begin
return Self'Unchecked_Access;
end To_Generic_Procedure_Declaration_Text;
overriding function To_Generic_Procedure_Declaration_Text
(Self : aliased in out Implicit_Generic_Procedure_Declaration)
return Program.Elements.Generic_Procedure_Declarations
.Generic_Procedure_Declaration_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Generic_Procedure_Declaration_Text;
end Program.Nodes.Generic_Procedure_Declarations;
|
[
{
"context": "-- Copyright 2018-2021 Bartek thindil Jasicki\n--\n-- This file is part of Steam Sky.\n--\n-- ",
"end": 48,
"score": 0.9998537302017212,
"start": 26,
"tag": "NAME",
"value": "Bartek thindil Jasicki"
}
] | src/careers.ads | thindil/steamsky | 80 | -- Copyright 2018-2021 Bartek thindil Jasicki
--
-- This file is part of Steam Sky.
--
-- Steam Sky is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- Steam Sky is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with Steam Sky. If not, see <http://www.gnu.org/licenses/>.
with Ada.Containers.Hashed_Maps; use Ada.Containers;
with Ada.Strings.Unbounded.Hash;
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
with DOM.Readers; use DOM.Readers;
with Game; use Game;
-- ****h* Careers/Careers
-- FUNCTION
-- Provide code for characters careers
-- SOURCE
package Careers is
-- ****
-- ****s* Careers/Careers.Career_Record
-- FUNCTION
-- Data structure for player career
-- PARAMETERS
-- Name - Name of career, displayed to player
-- Skills - List of skills which have bonuses to experience if player
-- select this career
-- SOURCE
type Career_Record is record
Name: Unbounded_String;
Skills: UnboundedString_Container.Vector;
end record;
-- ****
-- ****t* Careers/Careers.Careers_Container
-- FUNCTION
-- Used to store all available careers
-- SOURCE
package Careers_Container is new Hashed_Maps
(Key_Type => Unbounded_String, Element_Type => Career_Record,
Hash => Ada.Strings.Unbounded.Hash, Equivalent_Keys => "=");
-- ****
-- ****v* Careers/Careers.Careers_List
-- FUNCTION
-- List of all available careers for player
-- SOURCE
Careers_List: Careers_Container.Map;
-- ****
-- ****f* Careers/Careers.Load_Careers
-- FUNCTION
-- Load player careers from file
-- PARAMETERS
-- Reader - XML Reader from which careers will be read
-- SOURCE
procedure Load_Careers(Reader: Tree_Reader);
-- ****
end Careers;
| 3697 | -- Copyright 2018-2021 <NAME>
--
-- This file is part of Steam Sky.
--
-- Steam Sky is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- Steam Sky is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with Steam Sky. If not, see <http://www.gnu.org/licenses/>.
with Ada.Containers.Hashed_Maps; use Ada.Containers;
with Ada.Strings.Unbounded.Hash;
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
with DOM.Readers; use DOM.Readers;
with Game; use Game;
-- ****h* Careers/Careers
-- FUNCTION
-- Provide code for characters careers
-- SOURCE
package Careers is
-- ****
-- ****s* Careers/Careers.Career_Record
-- FUNCTION
-- Data structure for player career
-- PARAMETERS
-- Name - Name of career, displayed to player
-- Skills - List of skills which have bonuses to experience if player
-- select this career
-- SOURCE
type Career_Record is record
Name: Unbounded_String;
Skills: UnboundedString_Container.Vector;
end record;
-- ****
-- ****t* Careers/Careers.Careers_Container
-- FUNCTION
-- Used to store all available careers
-- SOURCE
package Careers_Container is new Hashed_Maps
(Key_Type => Unbounded_String, Element_Type => Career_Record,
Hash => Ada.Strings.Unbounded.Hash, Equivalent_Keys => "=");
-- ****
-- ****v* Careers/Careers.Careers_List
-- FUNCTION
-- List of all available careers for player
-- SOURCE
Careers_List: Careers_Container.Map;
-- ****
-- ****f* Careers/Careers.Load_Careers
-- FUNCTION
-- Load player careers from file
-- PARAMETERS
-- Reader - XML Reader from which careers will be read
-- SOURCE
procedure Load_Careers(Reader: Tree_Reader);
-- ****
end Careers;
| true | -- Copyright 2018-2021 PI:NAME:<NAME>END_PI
--
-- This file is part of Steam Sky.
--
-- Steam Sky is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- Steam Sky is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with Steam Sky. If not, see <http://www.gnu.org/licenses/>.
with Ada.Containers.Hashed_Maps; use Ada.Containers;
with Ada.Strings.Unbounded.Hash;
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
with DOM.Readers; use DOM.Readers;
with Game; use Game;
-- ****h* Careers/Careers
-- FUNCTION
-- Provide code for characters careers
-- SOURCE
package Careers is
-- ****
-- ****s* Careers/Careers.Career_Record
-- FUNCTION
-- Data structure for player career
-- PARAMETERS
-- Name - Name of career, displayed to player
-- Skills - List of skills which have bonuses to experience if player
-- select this career
-- SOURCE
type Career_Record is record
Name: Unbounded_String;
Skills: UnboundedString_Container.Vector;
end record;
-- ****
-- ****t* Careers/Careers.Careers_Container
-- FUNCTION
-- Used to store all available careers
-- SOURCE
package Careers_Container is new Hashed_Maps
(Key_Type => Unbounded_String, Element_Type => Career_Record,
Hash => Ada.Strings.Unbounded.Hash, Equivalent_Keys => "=");
-- ****
-- ****v* Careers/Careers.Careers_List
-- FUNCTION
-- List of all available careers for player
-- SOURCE
Careers_List: Careers_Container.Map;
-- ****
-- ****f* Careers/Careers.Load_Careers
-- FUNCTION
-- Load player careers from file
-- PARAMETERS
-- Reader - XML Reader from which careers will be read
-- SOURCE
procedure Load_Careers(Reader: Tree_Reader);
-- ****
end Careers;
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