diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/__init__.pyi b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/__init__.pyi new file mode 100644 index 0000000000000000000000000000000000000000..81b6a24f39ec37ba45055d8fefa819e816a61b8d --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/__init__.pyi @@ -0,0 +1,42 @@ +import os +import subprocess +from collections.abc import Iterable +from typing import Literal as L, Any, overload, TypedDict + +from numpy._pytesttester import PytestTester + +class _F2PyDictBase(TypedDict): + csrc: list[str] + h: list[str] + +class _F2PyDict(_F2PyDictBase, total=False): + fsrc: list[str] + ltx: list[str] + +__all__: list[str] +test: PytestTester + +def run_main(comline_list: Iterable[str]) -> dict[str, _F2PyDict]: ... + +@overload +def compile( # type: ignore[misc] + source: str | bytes, + modulename: str = ..., + extra_args: str | list[str] = ..., + verbose: bool = ..., + source_fn: None | str | bytes | os.PathLike[Any] = ..., + extension: L[".f", ".f90"] = ..., + full_output: L[False] = ..., +) -> int: ... +@overload +def compile( + source: str | bytes, + modulename: str = ..., + extra_args: str | list[str] = ..., + verbose: bool = ..., + source_fn: None | str | bytes | os.PathLike[Any] = ..., + extension: L[".f", ".f90"] = ..., + full_output: L[True] = ..., +) -> subprocess.CompletedProcess[bytes]: ... + +def get_include() -> str: ... diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cb_rules.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cb_rules.py new file mode 100644 index 0000000000000000000000000000000000000000..721e075b6c73fd54c0f9f5b4802a5c94eb8d6a3f --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cb_rules.py @@ -0,0 +1,644 @@ +""" +Build call-back mechanism for f2py2e. + +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +Permission to use, modify, and distribute this software is given under the +terms of the NumPy License. + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +""" +from . import __version__ +from .auxfuncs import ( + applyrules, debugcapi, dictappend, errmess, getargs, hasnote, isarray, + iscomplex, iscomplexarray, iscomplexfunction, isfunction, isintent_c, + isintent_hide, isintent_in, isintent_inout, isintent_nothide, + isintent_out, isoptional, isrequired, isscalar, isstring, + isstringfunction, issubroutine, l_and, l_not, l_or, outmess, replace, + stripcomma, throw_error +) +from . import cfuncs + +f2py_version = __version__.version + + +################## Rules for callback function ############## + +cb_routine_rules = { + 'cbtypedefs': 'typedef #rctype#(*#name#_typedef)(#optargs_td##args_td##strarglens_td##noargs#);', + 'body': """ +#begintitle# +typedef struct { + PyObject *capi; + PyTupleObject *args_capi; + int nofargs; + jmp_buf jmpbuf; +} #name#_t; + +#if defined(F2PY_THREAD_LOCAL_DECL) && !defined(F2PY_USE_PYTHON_TLS) + +static F2PY_THREAD_LOCAL_DECL #name#_t *_active_#name# = NULL; + +static #name#_t *swap_active_#name#(#name#_t *ptr) { + #name#_t *prev = _active_#name#; + _active_#name# = ptr; + return prev; +} + +static #name#_t *get_active_#name#(void) { + return _active_#name#; +} + +#else + +static #name#_t *swap_active_#name#(#name#_t *ptr) { + char *key = "__f2py_cb_#name#"; + return (#name#_t *)F2PySwapThreadLocalCallbackPtr(key, ptr); +} + +static #name#_t *get_active_#name#(void) { + char *key = "__f2py_cb_#name#"; + return (#name#_t *)F2PyGetThreadLocalCallbackPtr(key); +} + +#endif + +/*typedef #rctype#(*#name#_typedef)(#optargs_td##args_td##strarglens_td##noargs#);*/ +#static# #rctype# #callbackname# (#optargs##args##strarglens##noargs#) { + #name#_t cb_local = { NULL, NULL, 0 }; + #name#_t *cb = NULL; + PyTupleObject *capi_arglist = NULL; + PyObject *capi_return = NULL; + PyObject *capi_tmp = NULL; + PyObject *capi_arglist_list = NULL; + int capi_j,capi_i = 0; + int capi_longjmp_ok = 1; +#decl# +#ifdef F2PY_REPORT_ATEXIT +f2py_cb_start_clock(); +#endif + cb = get_active_#name#(); + if (cb == NULL) { + capi_longjmp_ok = 0; + cb = &cb_local; + } + capi_arglist = cb->args_capi; + CFUNCSMESS(\"cb:Call-back function #name# (maxnofargs=#maxnofargs#(-#nofoptargs#))\\n\"); + CFUNCSMESSPY(\"cb:#name#_capi=\",cb->capi); + if (cb->capi==NULL) { + capi_longjmp_ok = 0; + cb->capi = PyObject_GetAttrString(#modulename#_module,\"#argname#\"); + CFUNCSMESSPY(\"cb:#name#_capi=\",cb->capi); + } + if (cb->capi==NULL) { + PyErr_SetString(#modulename#_error,\"cb: Callback #argname# not defined (as an argument or module #modulename# attribute).\\n\"); + goto capi_fail; + } + if (F2PyCapsule_Check(cb->capi)) { + #name#_typedef #name#_cptr; + #name#_cptr = F2PyCapsule_AsVoidPtr(cb->capi); + #returncptr#(*#name#_cptr)(#optargs_nm##args_nm##strarglens_nm#); + #return# + } + if (capi_arglist==NULL) { + capi_longjmp_ok = 0; + capi_tmp = PyObject_GetAttrString(#modulename#_module,\"#argname#_extra_args\"); + if (capi_tmp) { + capi_arglist = (PyTupleObject *)PySequence_Tuple(capi_tmp); + Py_DECREF(capi_tmp); + if (capi_arglist==NULL) { + PyErr_SetString(#modulename#_error,\"Failed to convert #modulename#.#argname#_extra_args to tuple.\\n\"); + goto capi_fail; + } + } else { + PyErr_Clear(); + capi_arglist = (PyTupleObject *)Py_BuildValue(\"()\"); + } + } + if (capi_arglist == NULL) { + PyErr_SetString(#modulename#_error,\"Callback #argname# argument list is not set.\\n\"); + goto capi_fail; + } +#setdims# +#ifdef PYPY_VERSION +#define CAPI_ARGLIST_SETITEM(idx, value) PyList_SetItem((PyObject *)capi_arglist_list, idx, value) + capi_arglist_list = PySequence_List(capi_arglist); + if (capi_arglist_list == NULL) goto capi_fail; +#else +#define CAPI_ARGLIST_SETITEM(idx, value) PyTuple_SetItem((PyObject *)capi_arglist, idx, value) +#endif +#pyobjfrom# +#undef CAPI_ARGLIST_SETITEM +#ifdef PYPY_VERSION + CFUNCSMESSPY(\"cb:capi_arglist=\",capi_arglist_list); +#else + CFUNCSMESSPY(\"cb:capi_arglist=\",capi_arglist); +#endif + CFUNCSMESS(\"cb:Call-back calling Python function #argname#.\\n\"); +#ifdef F2PY_REPORT_ATEXIT +f2py_cb_start_call_clock(); +#endif +#ifdef PYPY_VERSION + capi_return = PyObject_CallObject(cb->capi,(PyObject *)capi_arglist_list); + Py_DECREF(capi_arglist_list); + capi_arglist_list = NULL; +#else + capi_return = PyObject_CallObject(cb->capi,(PyObject *)capi_arglist); +#endif +#ifdef F2PY_REPORT_ATEXIT +f2py_cb_stop_call_clock(); +#endif + CFUNCSMESSPY(\"cb:capi_return=\",capi_return); + if (capi_return == NULL) { + fprintf(stderr,\"capi_return is NULL\\n\"); + goto capi_fail; + } + if (capi_return == Py_None) { + Py_DECREF(capi_return); + capi_return = Py_BuildValue(\"()\"); + } + else if (!PyTuple_Check(capi_return)) { + capi_return = Py_BuildValue(\"(N)\",capi_return); + } + capi_j = PyTuple_Size(capi_return); + capi_i = 0; +#frompyobj# + CFUNCSMESS(\"cb:#name#:successful\\n\"); + Py_DECREF(capi_return); +#ifdef F2PY_REPORT_ATEXIT +f2py_cb_stop_clock(); +#endif + goto capi_return_pt; +capi_fail: + fprintf(stderr,\"Call-back #name# failed.\\n\"); + Py_XDECREF(capi_return); + Py_XDECREF(capi_arglist_list); + if (capi_longjmp_ok) { + longjmp(cb->jmpbuf,-1); + } +capi_return_pt: + ; +#return# +} +#endtitle# +""", + 'need': ['setjmp.h', 'CFUNCSMESS', 'F2PY_THREAD_LOCAL_DECL'], + 'maxnofargs': '#maxnofargs#', + 'nofoptargs': '#nofoptargs#', + 'docstr': """\ + def #argname#(#docsignature#): return #docreturn#\\n\\ +#docstrsigns#""", + 'latexdocstr': """ +{{}\\verb@def #argname#(#latexdocsignature#): return #docreturn#@{}} +#routnote# + +#latexdocstrsigns#""", + 'docstrshort': 'def #argname#(#docsignature#): return #docreturn#' +} +cb_rout_rules = [ + { # Init + 'separatorsfor': {'decl': '\n', + 'args': ',', 'optargs': '', 'pyobjfrom': '\n', 'freemem': '\n', + 'args_td': ',', 'optargs_td': '', + 'args_nm': ',', 'optargs_nm': '', + 'frompyobj': '\n', 'setdims': '\n', + 'docstrsigns': '\\n"\n"', + 'latexdocstrsigns': '\n', + 'latexdocstrreq': '\n', 'latexdocstropt': '\n', + 'latexdocstrout': '\n', 'latexdocstrcbs': '\n', + }, + 'decl': '/*decl*/', 'pyobjfrom': '/*pyobjfrom*/', 'frompyobj': '/*frompyobj*/', + 'args': [], 'optargs': '', 'return': '', 'strarglens': '', 'freemem': '/*freemem*/', + 'args_td': [], 'optargs_td': '', 'strarglens_td': '', + 'args_nm': [], 'optargs_nm': '', 'strarglens_nm': '', + 'noargs': '', + 'setdims': '/*setdims*/', + 'docstrsigns': '', 'latexdocstrsigns': '', + 'docstrreq': ' Required arguments:', + 'docstropt': ' Optional arguments:', + 'docstrout': ' Return objects:', + 'docstrcbs': ' Call-back functions:', + 'docreturn': '', 'docsign': '', 'docsignopt': '', + 'latexdocstrreq': '\\noindent Required arguments:', + 'latexdocstropt': '\\noindent Optional arguments:', + 'latexdocstrout': '\\noindent Return objects:', + 'latexdocstrcbs': '\\noindent Call-back functions:', + 'routnote': {hasnote: '--- #note#', l_not(hasnote): ''}, + }, { # Function + 'decl': ' #ctype# return_value = 0;', + 'frompyobj': [ + {debugcapi: ' CFUNCSMESS("cb:Getting return_value->");'}, + '''\ + if (capi_j>capi_i) { + GETSCALARFROMPYTUPLE(capi_return,capi_i++,&return_value,#ctype#, + "#ctype#_from_pyobj failed in converting return_value of" + " call-back function #name# to C #ctype#\\n"); + } else { + fprintf(stderr,"Warning: call-back function #name# did not provide" + " return value (index=%d, type=#ctype#)\\n",capi_i); + }''', + {debugcapi: + ' fprintf(stderr,"#showvalueformat#.\\n",return_value);'} + ], + 'need': ['#ctype#_from_pyobj', {debugcapi: 'CFUNCSMESS'}, 'GETSCALARFROMPYTUPLE'], + 'return': ' return return_value;', + '_check': l_and(isfunction, l_not(isstringfunction), l_not(iscomplexfunction)) + }, + { # String function + 'pyobjfrom': {debugcapi: ' fprintf(stderr,"debug-capi:cb:#name#:%d:\\n",return_value_len);'}, + 'args': '#ctype# return_value,int return_value_len', + 'args_nm': 'return_value,&return_value_len', + 'args_td': '#ctype# ,int', + 'frompyobj': [ + {debugcapi: ' CFUNCSMESS("cb:Getting return_value->\\"");'}, + """\ + if (capi_j>capi_i) { + GETSTRFROMPYTUPLE(capi_return,capi_i++,return_value,return_value_len); + } else { + fprintf(stderr,"Warning: call-back function #name# did not provide" + " return value (index=%d, type=#ctype#)\\n",capi_i); + }""", + {debugcapi: + ' fprintf(stderr,"#showvalueformat#\\".\\n",return_value);'} + ], + 'need': ['#ctype#_from_pyobj', {debugcapi: 'CFUNCSMESS'}, + 'string.h', 'GETSTRFROMPYTUPLE'], + 'return': 'return;', + '_check': isstringfunction + }, + { # Complex function + 'optargs': """ +#ifndef F2PY_CB_RETURNCOMPLEX +#ctype# *return_value +#endif +""", + 'optargs_nm': """ +#ifndef F2PY_CB_RETURNCOMPLEX +return_value +#endif +""", + 'optargs_td': """ +#ifndef F2PY_CB_RETURNCOMPLEX +#ctype# * +#endif +""", + 'decl': """ +#ifdef F2PY_CB_RETURNCOMPLEX + #ctype# return_value = {0, 0}; +#endif +""", + 'frompyobj': [ + {debugcapi: ' CFUNCSMESS("cb:Getting return_value->");'}, + """\ + if (capi_j>capi_i) { +#ifdef F2PY_CB_RETURNCOMPLEX + GETSCALARFROMPYTUPLE(capi_return,capi_i++,&return_value,#ctype#, + \"#ctype#_from_pyobj failed in converting return_value of call-back\" + \" function #name# to C #ctype#\\n\"); +#else + GETSCALARFROMPYTUPLE(capi_return,capi_i++,return_value,#ctype#, + \"#ctype#_from_pyobj failed in converting return_value of call-back\" + \" function #name# to C #ctype#\\n\"); +#endif + } else { + fprintf(stderr, + \"Warning: call-back function #name# did not provide\" + \" return value (index=%d, type=#ctype#)\\n\",capi_i); + }""", + {debugcapi: """\ +#ifdef F2PY_CB_RETURNCOMPLEX + fprintf(stderr,\"#showvalueformat#.\\n\",(return_value).r,(return_value).i); +#else + fprintf(stderr,\"#showvalueformat#.\\n\",(*return_value).r,(*return_value).i); +#endif +"""} + ], + 'return': """ +#ifdef F2PY_CB_RETURNCOMPLEX + return return_value; +#else + return; +#endif +""", + 'need': ['#ctype#_from_pyobj', {debugcapi: 'CFUNCSMESS'}, + 'string.h', 'GETSCALARFROMPYTUPLE', '#ctype#'], + '_check': iscomplexfunction + }, + {'docstrout': ' #pydocsignout#', + 'latexdocstrout': ['\\item[]{{}\\verb@#pydocsignout#@{}}', + {hasnote: '--- #note#'}], + 'docreturn': '#rname#,', + '_check': isfunction}, + {'_check': issubroutine, 'return': 'return;'} +] + +cb_arg_rules = [ + { # Doc + 'docstropt': {l_and(isoptional, isintent_nothide): ' #pydocsign#'}, + 'docstrreq': {l_and(isrequired, isintent_nothide): ' #pydocsign#'}, + 'docstrout': {isintent_out: ' #pydocsignout#'}, + 'latexdocstropt': {l_and(isoptional, isintent_nothide): ['\\item[]{{}\\verb@#pydocsign#@{}}', + {hasnote: '--- #note#'}]}, + 'latexdocstrreq': {l_and(isrequired, isintent_nothide): ['\\item[]{{}\\verb@#pydocsign#@{}}', + {hasnote: '--- #note#'}]}, + 'latexdocstrout': {isintent_out: ['\\item[]{{}\\verb@#pydocsignout#@{}}', + {l_and(hasnote, isintent_hide): '--- #note#', + l_and(hasnote, isintent_nothide): '--- See above.'}]}, + 'docsign': {l_and(isrequired, isintent_nothide): '#varname#,'}, + 'docsignopt': {l_and(isoptional, isintent_nothide): '#varname#,'}, + 'depend': '' + }, + { + 'args': { + l_and(isscalar, isintent_c): '#ctype# #varname_i#', + l_and(isscalar, l_not(isintent_c)): '#ctype# *#varname_i#_cb_capi', + isarray: '#ctype# *#varname_i#', + isstring: '#ctype# #varname_i#' + }, + 'args_nm': { + l_and(isscalar, isintent_c): '#varname_i#', + l_and(isscalar, l_not(isintent_c)): '#varname_i#_cb_capi', + isarray: '#varname_i#', + isstring: '#varname_i#' + }, + 'args_td': { + l_and(isscalar, isintent_c): '#ctype#', + l_and(isscalar, l_not(isintent_c)): '#ctype# *', + isarray: '#ctype# *', + isstring: '#ctype#' + }, + 'need': {l_or(isscalar, isarray, isstring): '#ctype#'}, + # untested with multiple args + 'strarglens': {isstring: ',int #varname_i#_cb_len'}, + 'strarglens_td': {isstring: ',int'}, # untested with multiple args + # untested with multiple args + 'strarglens_nm': {isstring: ',#varname_i#_cb_len'}, + }, + { # Scalars + 'decl': {l_not(isintent_c): ' #ctype# #varname_i#=(*#varname_i#_cb_capi);'}, + 'error': {l_and(isintent_c, isintent_out, + throw_error('intent(c,out) is forbidden for callback scalar arguments')): + ''}, + 'frompyobj': [{debugcapi: ' CFUNCSMESS("cb:Getting #varname#->");'}, + {isintent_out: + ' if (capi_j>capi_i)\n GETSCALARFROMPYTUPLE(capi_return,capi_i++,#varname_i#_cb_capi,#ctype#,"#ctype#_from_pyobj failed in converting argument #varname# of call-back function #name# to C #ctype#\\n");'}, + {l_and(debugcapi, l_and(l_not(iscomplex), isintent_c)): + ' fprintf(stderr,"#showvalueformat#.\\n",#varname_i#);'}, + {l_and(debugcapi, l_and(l_not(iscomplex), l_not( isintent_c))): + ' fprintf(stderr,"#showvalueformat#.\\n",*#varname_i#_cb_capi);'}, + {l_and(debugcapi, l_and(iscomplex, isintent_c)): + ' fprintf(stderr,"#showvalueformat#.\\n",(#varname_i#).r,(#varname_i#).i);'}, + {l_and(debugcapi, l_and(iscomplex, l_not( isintent_c))): + ' fprintf(stderr,"#showvalueformat#.\\n",(*#varname_i#_cb_capi).r,(*#varname_i#_cb_capi).i);'}, + ], + 'need': [{isintent_out: ['#ctype#_from_pyobj', 'GETSCALARFROMPYTUPLE']}, + {debugcapi: 'CFUNCSMESS'}], + '_check': isscalar + }, { + 'pyobjfrom': [{isintent_in: """\ + if (cb->nofargs>capi_i) + if (CAPI_ARGLIST_SETITEM(capi_i++,pyobj_from_#ctype#1(#varname_i#))) + goto capi_fail;"""}, + {isintent_inout: """\ + if (cb->nofargs>capi_i) + if (CAPI_ARGLIST_SETITEM(capi_i++,pyarr_from_p_#ctype#1(#varname_i#_cb_capi))) + goto capi_fail;"""}], + 'need': [{isintent_in: 'pyobj_from_#ctype#1'}, + {isintent_inout: 'pyarr_from_p_#ctype#1'}, + {iscomplex: '#ctype#'}], + '_check': l_and(isscalar, isintent_nothide), + '_optional': '' + }, { # String + 'frompyobj': [{debugcapi: ' CFUNCSMESS("cb:Getting #varname#->\\"");'}, + """ if (capi_j>capi_i) + GETSTRFROMPYTUPLE(capi_return,capi_i++,#varname_i#,#varname_i#_cb_len);""", + {debugcapi: + ' fprintf(stderr,"#showvalueformat#\\":%d:.\\n",#varname_i#,#varname_i#_cb_len);'}, + ], + 'need': ['#ctype#', 'GETSTRFROMPYTUPLE', + {debugcapi: 'CFUNCSMESS'}, 'string.h'], + '_check': l_and(isstring, isintent_out) + }, { + 'pyobjfrom': [ + {debugcapi: + (' fprintf(stderr,"debug-capi:cb:#varname#=#showvalueformat#:' + '%d:\\n",#varname_i#,#varname_i#_cb_len);')}, + {isintent_in: """\ + if (cb->nofargs>capi_i) + if (CAPI_ARGLIST_SETITEM(capi_i++,pyobj_from_#ctype#1size(#varname_i#,#varname_i#_cb_len))) + goto capi_fail;"""}, + {isintent_inout: """\ + if (cb->nofargs>capi_i) { + int #varname_i#_cb_dims[] = {#varname_i#_cb_len}; + if (CAPI_ARGLIST_SETITEM(capi_i++,pyarr_from_p_#ctype#1(#varname_i#,#varname_i#_cb_dims))) + goto capi_fail; + }"""}], + 'need': [{isintent_in: 'pyobj_from_#ctype#1size'}, + {isintent_inout: 'pyarr_from_p_#ctype#1'}], + '_check': l_and(isstring, isintent_nothide), + '_optional': '' + }, + # Array ... + { + 'decl': ' npy_intp #varname_i#_Dims[#rank#] = {#rank*[-1]#};', + 'setdims': ' #cbsetdims#;', + '_check': isarray, + '_depend': '' + }, + { + 'pyobjfrom': [{debugcapi: ' fprintf(stderr,"debug-capi:cb:#varname#\\n");'}, + {isintent_c: """\ + if (cb->nofargs>capi_i) { + /* tmp_arr will be inserted to capi_arglist_list that will be + destroyed when leaving callback function wrapper together + with tmp_arr. */ + PyArrayObject *tmp_arr = (PyArrayObject *)PyArray_New(&PyArray_Type, + #rank#,#varname_i#_Dims,#atype#,NULL,(char*)#varname_i#,#elsize#, + NPY_ARRAY_CARRAY,NULL); +""", + l_not(isintent_c): """\ + if (cb->nofargs>capi_i) { + /* tmp_arr will be inserted to capi_arglist_list that will be + destroyed when leaving callback function wrapper together + with tmp_arr. */ + PyArrayObject *tmp_arr = (PyArrayObject *)PyArray_New(&PyArray_Type, + #rank#,#varname_i#_Dims,#atype#,NULL,(char*)#varname_i#,#elsize#, + NPY_ARRAY_FARRAY,NULL); +""", + }, + """ + if (tmp_arr==NULL) + goto capi_fail; + if (CAPI_ARGLIST_SETITEM(capi_i++,(PyObject *)tmp_arr)) + goto capi_fail; +}"""], + '_check': l_and(isarray, isintent_nothide, l_or(isintent_in, isintent_inout)), + '_optional': '', + }, { + 'frompyobj': [{debugcapi: ' CFUNCSMESS("cb:Getting #varname#->");'}, + """ if (capi_j>capi_i) { + PyArrayObject *rv_cb_arr = NULL; + if ((capi_tmp = PyTuple_GetItem(capi_return,capi_i++))==NULL) goto capi_fail; + rv_cb_arr = array_from_pyobj(#atype#,#varname_i#_Dims,#rank#,F2PY_INTENT_IN""", + {isintent_c: '|F2PY_INTENT_C'}, + """,capi_tmp); + if (rv_cb_arr == NULL) { + fprintf(stderr,\"rv_cb_arr is NULL\\n\"); + goto capi_fail; + } + MEMCOPY(#varname_i#,PyArray_DATA(rv_cb_arr),PyArray_NBYTES(rv_cb_arr)); + if (capi_tmp != (PyObject *)rv_cb_arr) { + Py_DECREF(rv_cb_arr); + } + }""", + {debugcapi: ' fprintf(stderr,"<-.\\n");'}, + ], + 'need': ['MEMCOPY', {iscomplexarray: '#ctype#'}], + '_check': l_and(isarray, isintent_out) + }, { + 'docreturn': '#varname#,', + '_check': isintent_out + } +] + +################## Build call-back module ############# +cb_map = {} + + +def buildcallbacks(m): + cb_map[m['name']] = [] + for bi in m['body']: + if bi['block'] == 'interface': + for b in bi['body']: + if b: + buildcallback(b, m['name']) + else: + errmess('warning: empty body for %s\n' % (m['name'])) + + +def buildcallback(rout, um): + from . import capi_maps + + outmess(' Constructing call-back function "cb_%s_in_%s"\n' % + (rout['name'], um)) + args, depargs = getargs(rout) + capi_maps.depargs = depargs + var = rout['vars'] + vrd = capi_maps.cb_routsign2map(rout, um) + rd = dictappend({}, vrd) + cb_map[um].append([rout['name'], rd['name']]) + for r in cb_rout_rules: + if ('_check' in r and r['_check'](rout)) or ('_check' not in r): + ar = applyrules(r, vrd, rout) + rd = dictappend(rd, ar) + savevrd = {} + for i, a in enumerate(args): + vrd = capi_maps.cb_sign2map(a, var[a], index=i) + savevrd[a] = vrd + for r in cb_arg_rules: + if '_depend' in r: + continue + if '_optional' in r and isoptional(var[a]): + continue + if ('_check' in r and r['_check'](var[a])) or ('_check' not in r): + ar = applyrules(r, vrd, var[a]) + rd = dictappend(rd, ar) + if '_break' in r: + break + for a in args: + vrd = savevrd[a] + for r in cb_arg_rules: + if '_depend' in r: + continue + if ('_optional' not in r) or ('_optional' in r and isrequired(var[a])): + continue + if ('_check' in r and r['_check'](var[a])) or ('_check' not in r): + ar = applyrules(r, vrd, var[a]) + rd = dictappend(rd, ar) + if '_break' in r: + break + for a in depargs: + vrd = savevrd[a] + for r in cb_arg_rules: + if '_depend' not in r: + continue + if '_optional' in r: + continue + if ('_check' in r and r['_check'](var[a])) or ('_check' not in r): + ar = applyrules(r, vrd, var[a]) + rd = dictappend(rd, ar) + if '_break' in r: + break + if 'args' in rd and 'optargs' in rd: + if isinstance(rd['optargs'], list): + rd['optargs'] = rd['optargs'] + [""" +#ifndef F2PY_CB_RETURNCOMPLEX +, +#endif +"""] + rd['optargs_nm'] = rd['optargs_nm'] + [""" +#ifndef F2PY_CB_RETURNCOMPLEX +, +#endif +"""] + rd['optargs_td'] = rd['optargs_td'] + [""" +#ifndef F2PY_CB_RETURNCOMPLEX +, +#endif +"""] + if isinstance(rd['docreturn'], list): + rd['docreturn'] = stripcomma( + replace('#docreturn#', {'docreturn': rd['docreturn']})) + optargs = stripcomma(replace('#docsignopt#', + {'docsignopt': rd['docsignopt']} + )) + if optargs == '': + rd['docsignature'] = stripcomma( + replace('#docsign#', {'docsign': rd['docsign']})) + else: + rd['docsignature'] = replace('#docsign#[#docsignopt#]', + {'docsign': rd['docsign'], + 'docsignopt': optargs, + }) + rd['latexdocsignature'] = rd['docsignature'].replace('_', '\\_') + rd['latexdocsignature'] = rd['latexdocsignature'].replace(',', ', ') + rd['docstrsigns'] = [] + rd['latexdocstrsigns'] = [] + for k in ['docstrreq', 'docstropt', 'docstrout', 'docstrcbs']: + if k in rd and isinstance(rd[k], list): + rd['docstrsigns'] = rd['docstrsigns'] + rd[k] + k = 'latex' + k + if k in rd and isinstance(rd[k], list): + rd['latexdocstrsigns'] = rd['latexdocstrsigns'] + rd[k][0:1] +\ + ['\\begin{description}'] + rd[k][1:] +\ + ['\\end{description}'] + if 'args' not in rd: + rd['args'] = '' + rd['args_td'] = '' + rd['args_nm'] = '' + if not (rd.get('args') or rd.get('optargs') or rd.get('strarglens')): + rd['noargs'] = 'void' + + ar = applyrules(cb_routine_rules, rd) + cfuncs.callbacks[rd['name']] = ar['body'] + if isinstance(ar['need'], str): + ar['need'] = [ar['need']] + + if 'need' in rd: + for t in cfuncs.typedefs.keys(): + if t in rd['need']: + ar['need'].append(t) + + cfuncs.typedefs_generated[rd['name'] + '_typedef'] = ar['cbtypedefs'] + ar['need'].append(rd['name'] + '_typedef') + cfuncs.needs[rd['name']] = ar['need'] + + capi_maps.lcb2_map[rd['name']] = {'maxnofargs': ar['maxnofargs'], + 'nofoptargs': ar['nofoptargs'], + 'docstr': ar['docstr'], + 'latexdocstr': ar['latexdocstr'], + 'argname': rd['argname'] + } + outmess(' %s\n' % (ar['docstrshort'])) + return +################## Build call-back function ############# diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cfuncs.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cfuncs.py new file mode 100644 index 0000000000000000000000000000000000000000..4328a6e5004c2b73e693b72a1ab9db8d924567ff --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/cfuncs.py @@ -0,0 +1,1536 @@ +#!/usr/bin/env python3 +""" +C declarations, CPP macros, and C functions for f2py2e. +Only required declarations/macros/functions will be used. + +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +Permission to use, modify, and distribute this software is given under the +terms of the NumPy License. + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +""" +import sys +import copy + +from . import __version__ + +f2py_version = __version__.version +errmess = sys.stderr.write + +##################### Definitions ################## + +outneeds = {'includes0': [], 'includes': [], 'typedefs': [], 'typedefs_generated': [], + 'userincludes': [], + 'cppmacros': [], 'cfuncs': [], 'callbacks': [], 'f90modhooks': [], + 'commonhooks': []} +needs = {} +includes0 = {'includes0': '/*need_includes0*/'} +includes = {'includes': '/*need_includes*/'} +userincludes = {'userincludes': '/*need_userincludes*/'} +typedefs = {'typedefs': '/*need_typedefs*/'} +typedefs_generated = {'typedefs_generated': '/*need_typedefs_generated*/'} +cppmacros = {'cppmacros': '/*need_cppmacros*/'} +cfuncs = {'cfuncs': '/*need_cfuncs*/'} +callbacks = {'callbacks': '/*need_callbacks*/'} +f90modhooks = {'f90modhooks': '/*need_f90modhooks*/', + 'initf90modhooksstatic': '/*initf90modhooksstatic*/', + 'initf90modhooksdynamic': '/*initf90modhooksdynamic*/', + } +commonhooks = {'commonhooks': '/*need_commonhooks*/', + 'initcommonhooks': '/*need_initcommonhooks*/', + } + +############ Includes ################### + +includes0['math.h'] = '#include ' +includes0['string.h'] = '#include ' +includes0['setjmp.h'] = '#include ' + +includes['arrayobject.h'] = '''#define PY_ARRAY_UNIQUE_SYMBOL PyArray_API +#include "arrayobject.h"''' +includes['npy_math.h'] = '#include "numpy/npy_math.h"' + +includes['arrayobject.h'] = '#include "fortranobject.h"' +includes['stdarg.h'] = '#include ' + +############# Type definitions ############### + +typedefs['unsigned_char'] = 'typedef unsigned char unsigned_char;' +typedefs['unsigned_short'] = 'typedef unsigned short unsigned_short;' +typedefs['unsigned_long'] = 'typedef unsigned long unsigned_long;' +typedefs['signed_char'] = 'typedef signed char signed_char;' +typedefs['long_long'] = """ +#if defined(NPY_OS_WIN32) +typedef __int64 long_long; +#else +typedef long long long_long; +typedef unsigned long long unsigned_long_long; +#endif +""" +typedefs['unsigned_long_long'] = """ +#if defined(NPY_OS_WIN32) +typedef __uint64 long_long; +#else +typedef unsigned long long unsigned_long_long; +#endif +""" +typedefs['long_double'] = """ +#ifndef _LONG_DOUBLE +typedef long double long_double; +#endif +""" +typedefs[ + 'complex_long_double'] = 'typedef struct {long double r,i;} complex_long_double;' +typedefs['complex_float'] = 'typedef struct {float r,i;} complex_float;' +typedefs['complex_double'] = 'typedef struct {double r,i;} complex_double;' +typedefs['string'] = """typedef char * string;""" +typedefs['character'] = """typedef char character;""" + + +############### CPP macros #################### +cppmacros['CFUNCSMESS'] = """ +#ifdef DEBUGCFUNCS +#define CFUNCSMESS(mess) fprintf(stderr,\"debug-capi:\"mess); +#define CFUNCSMESSPY(mess,obj) CFUNCSMESS(mess) \\ + PyObject_Print((PyObject *)obj,stderr,Py_PRINT_RAW);\\ + fprintf(stderr,\"\\n\"); +#else +#define CFUNCSMESS(mess) +#define CFUNCSMESSPY(mess,obj) +#endif +""" +cppmacros['F_FUNC'] = """ +#if defined(PREPEND_FORTRAN) +#if defined(NO_APPEND_FORTRAN) +#if defined(UPPERCASE_FORTRAN) +#define F_FUNC(f,F) _##F +#else +#define F_FUNC(f,F) _##f +#endif +#else +#if defined(UPPERCASE_FORTRAN) +#define F_FUNC(f,F) _##F##_ +#else +#define F_FUNC(f,F) _##f##_ +#endif +#endif +#else +#if defined(NO_APPEND_FORTRAN) +#if defined(UPPERCASE_FORTRAN) +#define F_FUNC(f,F) F +#else +#define F_FUNC(f,F) f +#endif +#else +#if defined(UPPERCASE_FORTRAN) +#define F_FUNC(f,F) F##_ +#else +#define F_FUNC(f,F) f##_ +#endif +#endif +#endif +#if defined(UNDERSCORE_G77) +#define F_FUNC_US(f,F) F_FUNC(f##_,F##_) +#else +#define F_FUNC_US(f,F) F_FUNC(f,F) +#endif +""" +cppmacros['F_WRAPPEDFUNC'] = """ +#if defined(PREPEND_FORTRAN) +#if defined(NO_APPEND_FORTRAN) +#if defined(UPPERCASE_FORTRAN) +#define F_WRAPPEDFUNC(f,F) _F2PYWRAP##F +#else +#define F_WRAPPEDFUNC(f,F) _f2pywrap##f +#endif +#else +#if defined(UPPERCASE_FORTRAN) +#define F_WRAPPEDFUNC(f,F) _F2PYWRAP##F##_ +#else +#define F_WRAPPEDFUNC(f,F) _f2pywrap##f##_ +#endif +#endif +#else +#if defined(NO_APPEND_FORTRAN) +#if defined(UPPERCASE_FORTRAN) +#define F_WRAPPEDFUNC(f,F) F2PYWRAP##F +#else +#define F_WRAPPEDFUNC(f,F) f2pywrap##f +#endif +#else +#if defined(UPPERCASE_FORTRAN) +#define F_WRAPPEDFUNC(f,F) F2PYWRAP##F##_ +#else +#define F_WRAPPEDFUNC(f,F) f2pywrap##f##_ +#endif +#endif +#endif +#if defined(UNDERSCORE_G77) +#define F_WRAPPEDFUNC_US(f,F) F_WRAPPEDFUNC(f##_,F##_) +#else +#define F_WRAPPEDFUNC_US(f,F) F_WRAPPEDFUNC(f,F) +#endif +""" +cppmacros['F_MODFUNC'] = """ +#if defined(F90MOD2CCONV1) /*E.g. Compaq Fortran */ +#if defined(NO_APPEND_FORTRAN) +#define F_MODFUNCNAME(m,f) $ ## m ## $ ## f +#else +#define F_MODFUNCNAME(m,f) $ ## m ## $ ## f ## _ +#endif +#endif + +#if defined(F90MOD2CCONV2) /*E.g. IBM XL Fortran, not tested though */ +#if defined(NO_APPEND_FORTRAN) +#define F_MODFUNCNAME(m,f) __ ## m ## _MOD_ ## f +#else +#define F_MODFUNCNAME(m,f) __ ## m ## _MOD_ ## f ## _ +#endif +#endif + +#if defined(F90MOD2CCONV3) /*E.g. MIPSPro Compilers */ +#if defined(NO_APPEND_FORTRAN) +#define F_MODFUNCNAME(m,f) f ## .in. ## m +#else +#define F_MODFUNCNAME(m,f) f ## .in. ## m ## _ +#endif +#endif +/* +#if defined(UPPERCASE_FORTRAN) +#define F_MODFUNC(m,M,f,F) F_MODFUNCNAME(M,F) +#else +#define F_MODFUNC(m,M,f,F) F_MODFUNCNAME(m,f) +#endif +*/ + +#define F_MODFUNC(m,f) (*(f2pymodstruct##m##.##f)) +""" +cppmacros['SWAPUNSAFE'] = """ +#define SWAP(a,b) (size_t)(a) = ((size_t)(a) ^ (size_t)(b));\\ + (size_t)(b) = ((size_t)(a) ^ (size_t)(b));\\ + (size_t)(a) = ((size_t)(a) ^ (size_t)(b)) +""" +cppmacros['SWAP'] = """ +#define SWAP(a,b,t) {\\ + t *c;\\ + c = a;\\ + a = b;\\ + b = c;} +""" +# cppmacros['ISCONTIGUOUS']='#define ISCONTIGUOUS(m) (PyArray_FLAGS(m) & +# NPY_ARRAY_C_CONTIGUOUS)' +cppmacros['PRINTPYOBJERR'] = """ +#define PRINTPYOBJERR(obj)\\ + fprintf(stderr,\"#modulename#.error is related to \");\\ + PyObject_Print((PyObject *)obj,stderr,Py_PRINT_RAW);\\ + fprintf(stderr,\"\\n\"); +""" +cppmacros['MINMAX'] = """ +#ifndef max +#define max(a,b) ((a > b) ? (a) : (b)) +#endif +#ifndef min +#define min(a,b) ((a < b) ? (a) : (b)) +#endif +#ifndef MAX +#define MAX(a,b) ((a > b) ? (a) : (b)) +#endif +#ifndef MIN +#define MIN(a,b) ((a < b) ? (a) : (b)) +#endif +""" +cppmacros['len..'] = """ +/* See fortranobject.h for definitions. The macros here are provided for BC. */ +#define rank f2py_rank +#define shape f2py_shape +#define fshape f2py_shape +#define len f2py_len +#define flen f2py_flen +#define slen f2py_slen +#define size f2py_size +""" +cppmacros['pyobj_from_char1'] = r""" +#define pyobj_from_char1(v) (PyLong_FromLong(v)) +""" +cppmacros['pyobj_from_short1'] = r""" +#define pyobj_from_short1(v) (PyLong_FromLong(v)) +""" +needs['pyobj_from_int1'] = ['signed_char'] +cppmacros['pyobj_from_int1'] = r""" +#define pyobj_from_int1(v) (PyLong_FromLong(v)) +""" +cppmacros['pyobj_from_long1'] = r""" +#define pyobj_from_long1(v) (PyLong_FromLong(v)) +""" +needs['pyobj_from_long_long1'] = ['long_long'] +cppmacros['pyobj_from_long_long1'] = """ +#ifdef HAVE_LONG_LONG +#define pyobj_from_long_long1(v) (PyLong_FromLongLong(v)) +#else +#warning HAVE_LONG_LONG is not available. Redefining pyobj_from_long_long. +#define pyobj_from_long_long1(v) (PyLong_FromLong(v)) +#endif +""" +needs['pyobj_from_long_double1'] = ['long_double'] +cppmacros['pyobj_from_long_double1'] = """ +#define pyobj_from_long_double1(v) (PyFloat_FromDouble(v))""" +cppmacros['pyobj_from_double1'] = """ +#define pyobj_from_double1(v) (PyFloat_FromDouble(v))""" +cppmacros['pyobj_from_float1'] = """ +#define pyobj_from_float1(v) (PyFloat_FromDouble(v))""" +needs['pyobj_from_complex_long_double1'] = ['complex_long_double'] +cppmacros['pyobj_from_complex_long_double1'] = """ +#define pyobj_from_complex_long_double1(v) (PyComplex_FromDoubles(v.r,v.i))""" +needs['pyobj_from_complex_double1'] = ['complex_double'] +cppmacros['pyobj_from_complex_double1'] = """ +#define pyobj_from_complex_double1(v) (PyComplex_FromDoubles(v.r,v.i))""" +needs['pyobj_from_complex_float1'] = ['complex_float'] +cppmacros['pyobj_from_complex_float1'] = """ +#define pyobj_from_complex_float1(v) (PyComplex_FromDoubles(v.r,v.i))""" +needs['pyobj_from_string1'] = ['string'] +cppmacros['pyobj_from_string1'] = """ +#define pyobj_from_string1(v) (PyUnicode_FromString((char *)v))""" +needs['pyobj_from_string1size'] = ['string'] +cppmacros['pyobj_from_string1size'] = """ +#define pyobj_from_string1size(v,len) (PyUnicode_FromStringAndSize((char *)v, len))""" +needs['TRYPYARRAYTEMPLATE'] = ['PRINTPYOBJERR'] +cppmacros['TRYPYARRAYTEMPLATE'] = """ +/* New SciPy */ +#define TRYPYARRAYTEMPLATECHAR case NPY_STRING: *(char *)(PyArray_DATA(arr))=*v; break; +#define TRYPYARRAYTEMPLATELONG case NPY_LONG: *(long *)(PyArray_DATA(arr))=*v; break; +#define TRYPYARRAYTEMPLATEOBJECT case NPY_OBJECT: PyArray_SETITEM(arr,PyArray_DATA(arr),pyobj_from_ ## ctype ## 1(*v)); break; + +#define TRYPYARRAYTEMPLATE(ctype,typecode) \\ + PyArrayObject *arr = NULL;\\ + if (!obj) return -2;\\ + if (!PyArray_Check(obj)) return -1;\\ + if (!(arr=(PyArrayObject *)obj)) {fprintf(stderr,\"TRYPYARRAYTEMPLATE:\");PRINTPYOBJERR(obj);return 0;}\\ + if (PyArray_DESCR(arr)->type==typecode) {*(ctype *)(PyArray_DATA(arr))=*v; return 1;}\\ + switch (PyArray_TYPE(arr)) {\\ + case NPY_DOUBLE: *(npy_double *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_INT: *(npy_int *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_LONG: *(npy_long *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_FLOAT: *(npy_float *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_CDOUBLE: *(npy_double *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_CFLOAT: *(npy_float *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_BOOL: *(npy_bool *)(PyArray_DATA(arr))=(*v!=0); break;\\ + case NPY_UBYTE: *(npy_ubyte *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_BYTE: *(npy_byte *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_SHORT: *(npy_short *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_USHORT: *(npy_ushort *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_UINT: *(npy_uint *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_ULONG: *(npy_ulong *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_LONGLONG: *(npy_longlong *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_ULONGLONG: *(npy_ulonglong *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_LONGDOUBLE: *(npy_longdouble *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_CLONGDOUBLE: *(npy_longdouble *)(PyArray_DATA(arr))=*v; break;\\ + case NPY_OBJECT: PyArray_SETITEM(arr, PyArray_DATA(arr), pyobj_from_ ## ctype ## 1(*v)); break;\\ + default: return -2;\\ + };\\ + return 1 +""" + +needs['TRYCOMPLEXPYARRAYTEMPLATE'] = ['PRINTPYOBJERR'] +cppmacros['TRYCOMPLEXPYARRAYTEMPLATE'] = """ +#define TRYCOMPLEXPYARRAYTEMPLATEOBJECT case NPY_OBJECT: PyArray_SETITEM(arr, PyArray_DATA(arr), pyobj_from_complex_ ## ctype ## 1((*v))); break; +#define TRYCOMPLEXPYARRAYTEMPLATE(ctype,typecode)\\ + PyArrayObject *arr = NULL;\\ + if (!obj) return -2;\\ + if (!PyArray_Check(obj)) return -1;\\ + if (!(arr=(PyArrayObject *)obj)) {fprintf(stderr,\"TRYCOMPLEXPYARRAYTEMPLATE:\");PRINTPYOBJERR(obj);return 0;}\\ + if (PyArray_DESCR(arr)->type==typecode) {\\ + *(ctype *)(PyArray_DATA(arr))=(*v).r;\\ + *(ctype *)(PyArray_DATA(arr)+sizeof(ctype))=(*v).i;\\ + return 1;\\ + }\\ + switch (PyArray_TYPE(arr)) {\\ + case NPY_CDOUBLE: *(npy_double *)(PyArray_DATA(arr))=(*v).r;\\ + *(npy_double *)(PyArray_DATA(arr)+sizeof(npy_double))=(*v).i;\\ + break;\\ + case NPY_CFLOAT: *(npy_float *)(PyArray_DATA(arr))=(*v).r;\\ + *(npy_float *)(PyArray_DATA(arr)+sizeof(npy_float))=(*v).i;\\ + break;\\ + case NPY_DOUBLE: *(npy_double *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_LONG: *(npy_long *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_FLOAT: *(npy_float *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_INT: *(npy_int *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_SHORT: *(npy_short *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_UBYTE: *(npy_ubyte *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_BYTE: *(npy_byte *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_BOOL: *(npy_bool *)(PyArray_DATA(arr))=((*v).r!=0 && (*v).i!=0); break;\\ + case NPY_USHORT: *(npy_ushort *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_UINT: *(npy_uint *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_ULONG: *(npy_ulong *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_LONGLONG: *(npy_longlong *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_ULONGLONG: *(npy_ulonglong *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_LONGDOUBLE: *(npy_longdouble *)(PyArray_DATA(arr))=(*v).r; break;\\ + case NPY_CLONGDOUBLE: *(npy_longdouble *)(PyArray_DATA(arr))=(*v).r;\\ + *(npy_longdouble *)(PyArray_DATA(arr)+sizeof(npy_longdouble))=(*v).i;\\ + break;\\ + case NPY_OBJECT: PyArray_SETITEM(arr, PyArray_DATA(arr), pyobj_from_complex_ ## ctype ## 1((*v))); break;\\ + default: return -2;\\ + };\\ + return -1; +""" +# cppmacros['NUMFROMARROBJ']=""" +# define NUMFROMARROBJ(typenum,ctype) \\ +# if (PyArray_Check(obj)) arr = (PyArrayObject *)obj;\\ +# else arr = (PyArrayObject *)PyArray_ContiguousFromObject(obj,typenum,0,0);\\ +# if (arr) {\\ +# if (PyArray_TYPE(arr)==NPY_OBJECT) {\\ +# if (!ctype ## _from_pyobj(v,(PyArray_DESCR(arr)->getitem)(PyArray_DATA(arr)),\"\"))\\ +# goto capi_fail;\\ +# } else {\\ +# (PyArray_DESCR(arr)->cast[typenum])(PyArray_DATA(arr),1,(char*)v,1,1);\\ +# }\\ +# if ((PyObject *)arr != obj) { Py_DECREF(arr); }\\ +# return 1;\\ +# } +# """ +# XXX: Note that CNUMFROMARROBJ is identical with NUMFROMARROBJ +# cppmacros['CNUMFROMARROBJ']=""" +# define CNUMFROMARROBJ(typenum,ctype) \\ +# if (PyArray_Check(obj)) arr = (PyArrayObject *)obj;\\ +# else arr = (PyArrayObject *)PyArray_ContiguousFromObject(obj,typenum,0,0);\\ +# if (arr) {\\ +# if (PyArray_TYPE(arr)==NPY_OBJECT) {\\ +# if (!ctype ## _from_pyobj(v,(PyArray_DESCR(arr)->getitem)(PyArray_DATA(arr)),\"\"))\\ +# goto capi_fail;\\ +# } else {\\ +# (PyArray_DESCR(arr)->cast[typenum])((void *)(PyArray_DATA(arr)),1,(void *)(v),1,1);\\ +# }\\ +# if ((PyObject *)arr != obj) { Py_DECREF(arr); }\\ +# return 1;\\ +# } +# """ + + +needs['GETSTRFROMPYTUPLE'] = ['STRINGCOPYN', 'PRINTPYOBJERR'] +cppmacros['GETSTRFROMPYTUPLE'] = """ +#define GETSTRFROMPYTUPLE(tuple,index,str,len) {\\ + PyObject *rv_cb_str = PyTuple_GetItem((tuple),(index));\\ + if (rv_cb_str == NULL)\\ + goto capi_fail;\\ + if (PyBytes_Check(rv_cb_str)) {\\ + str[len-1]='\\0';\\ + STRINGCOPYN((str),PyBytes_AS_STRING((PyBytesObject*)rv_cb_str),(len));\\ + } else {\\ + PRINTPYOBJERR(rv_cb_str);\\ + PyErr_SetString(#modulename#_error,\"string object expected\");\\ + goto capi_fail;\\ + }\\ + } +""" +cppmacros['GETSCALARFROMPYTUPLE'] = """ +#define GETSCALARFROMPYTUPLE(tuple,index,var,ctype,mess) {\\ + if ((capi_tmp = PyTuple_GetItem((tuple),(index)))==NULL) goto capi_fail;\\ + if (!(ctype ## _from_pyobj((var),capi_tmp,mess)))\\ + goto capi_fail;\\ + } +""" + +cppmacros['FAILNULL'] = """\ +#define FAILNULL(p) do { \\ + if ((p) == NULL) { \\ + PyErr_SetString(PyExc_MemoryError, "NULL pointer found"); \\ + goto capi_fail; \\ + } \\ +} while (0) +""" +needs['MEMCOPY'] = ['string.h', 'FAILNULL'] +cppmacros['MEMCOPY'] = """ +#define MEMCOPY(to,from,n)\\ + do { FAILNULL(to); FAILNULL(from); (void)memcpy(to,from,n); } while (0) +""" +cppmacros['STRINGMALLOC'] = """ +#define STRINGMALLOC(str,len)\\ + if ((str = (string)malloc(len+1)) == NULL) {\\ + PyErr_SetString(PyExc_MemoryError, \"out of memory\");\\ + goto capi_fail;\\ + } else {\\ + (str)[len] = '\\0';\\ + } +""" +cppmacros['STRINGFREE'] = """ +#define STRINGFREE(str) do {if (!(str == NULL)) free(str);} while (0) +""" +needs['STRINGPADN'] = ['string.h'] +cppmacros['STRINGPADN'] = """ +/* +STRINGPADN replaces null values with padding values from the right. + +`to` must have size of at least N bytes. + +If the `to[N-1]` has null value, then replace it and all the +preceding, nulls with the given padding. + +STRINGPADN(to, N, PADDING, NULLVALUE) is an inverse operation. +*/ +#define STRINGPADN(to, N, NULLVALUE, PADDING) \\ + do { \\ + int _m = (N); \\ + char *_to = (to); \\ + for (_m -= 1; _m >= 0 && _to[_m] == NULLVALUE; _m--) { \\ + _to[_m] = PADDING; \\ + } \\ + } while (0) +""" +needs['STRINGCOPYN'] = ['string.h', 'FAILNULL'] +cppmacros['STRINGCOPYN'] = """ +/* +STRINGCOPYN copies N bytes. + +`to` and `from` buffers must have sizes of at least N bytes. +*/ +#define STRINGCOPYN(to,from,N) \\ + do { \\ + int _m = (N); \\ + char *_to = (to); \\ + char *_from = (from); \\ + FAILNULL(_to); FAILNULL(_from); \\ + (void)strncpy(_to, _from, _m); \\ + } while (0) +""" +needs['STRINGCOPY'] = ['string.h', 'FAILNULL'] +cppmacros['STRINGCOPY'] = """ +#define STRINGCOPY(to,from)\\ + do { FAILNULL(to); FAILNULL(from); (void)strcpy(to,from); } while (0) +""" +cppmacros['CHECKGENERIC'] = """ +#define CHECKGENERIC(check,tcheck,name) \\ + if (!(check)) {\\ + PyErr_SetString(#modulename#_error,\"(\"tcheck\") failed for \"name);\\ + /*goto capi_fail;*/\\ + } else """ +cppmacros['CHECKARRAY'] = """ +#define CHECKARRAY(check,tcheck,name) \\ + if (!(check)) {\\ + PyErr_SetString(#modulename#_error,\"(\"tcheck\") failed for \"name);\\ + /*goto capi_fail;*/\\ + } else """ +cppmacros['CHECKSTRING'] = """ +#define CHECKSTRING(check,tcheck,name,show,var)\\ + if (!(check)) {\\ + char errstring[256];\\ + sprintf(errstring, \"%s: \"show, \"(\"tcheck\") failed for \"name, slen(var), var);\\ + PyErr_SetString(#modulename#_error, errstring);\\ + /*goto capi_fail;*/\\ + } else """ +cppmacros['CHECKSCALAR'] = """ +#define CHECKSCALAR(check,tcheck,name,show,var)\\ + if (!(check)) {\\ + char errstring[256];\\ + sprintf(errstring, \"%s: \"show, \"(\"tcheck\") failed for \"name, var);\\ + PyErr_SetString(#modulename#_error,errstring);\\ + /*goto capi_fail;*/\\ + } else """ +# cppmacros['CHECKDIMS']=""" +# define CHECKDIMS(dims,rank) \\ +# for (int i=0;i<(rank);i++)\\ +# if (dims[i]<0) {\\ +# fprintf(stderr,\"Unspecified array argument requires a complete dimension specification.\\n\");\\ +# goto capi_fail;\\ +# } +# """ +cppmacros[ + 'ARRSIZE'] = '#define ARRSIZE(dims,rank) (_PyArray_multiply_list(dims,rank))' +cppmacros['OLDPYNUM'] = """ +#ifdef OLDPYNUM +#error You need to install NumPy version 0.13 or higher. See https://scipy.org/install.html +#endif +""" +cppmacros["F2PY_THREAD_LOCAL_DECL"] = """ +#ifndef F2PY_THREAD_LOCAL_DECL +#if defined(_MSC_VER) +#define F2PY_THREAD_LOCAL_DECL __declspec(thread) +#elif defined(NPY_OS_MINGW) +#define F2PY_THREAD_LOCAL_DECL __thread +#elif defined(__STDC_VERSION__) \\ + && (__STDC_VERSION__ >= 201112L) \\ + && !defined(__STDC_NO_THREADS__) \\ + && (!defined(__GLIBC__) || __GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ > 12)) \\ + && !defined(NPY_OS_OPENBSD) && !defined(NPY_OS_HAIKU) +/* __STDC_NO_THREADS__ was first defined in a maintenance release of glibc 2.12, + see https://lists.gnu.org/archive/html/commit-hurd/2012-07/msg00180.html, + so `!defined(__STDC_NO_THREADS__)` may give false positive for the existence + of `threads.h` when using an older release of glibc 2.12 + See gh-19437 for details on OpenBSD */ +#include +#define F2PY_THREAD_LOCAL_DECL thread_local +#elif defined(__GNUC__) \\ + && (__GNUC__ > 4 || (__GNUC__ == 4 && (__GNUC_MINOR__ >= 4))) +#define F2PY_THREAD_LOCAL_DECL __thread +#endif +#endif +""" +################# C functions ############### + +cfuncs['calcarrindex'] = """ +static int calcarrindex(int *i,PyArrayObject *arr) { + int k,ii = i[0]; + for (k=1; k < PyArray_NDIM(arr); k++) + ii += (ii*(PyArray_DIM(arr,k) - 1)+i[k]); /* assuming contiguous arr */ + return ii; +}""" +cfuncs['calcarrindextr'] = """ +static int calcarrindextr(int *i,PyArrayObject *arr) { + int k,ii = i[PyArray_NDIM(arr)-1]; + for (k=1; k < PyArray_NDIM(arr); k++) + ii += (ii*(PyArray_DIM(arr,PyArray_NDIM(arr)-k-1) - 1)+i[PyArray_NDIM(arr)-k-1]); /* assuming contiguous arr */ + return ii; +}""" +cfuncs['forcomb'] = """ +static struct { int nd;npy_intp *d;int *i,*i_tr,tr; } forcombcache; +static int initforcomb(npy_intp *dims,int nd,int tr) { + int k; + if (dims==NULL) return 0; + if (nd<0) return 0; + forcombcache.nd = nd; + forcombcache.d = dims; + forcombcache.tr = tr; + if ((forcombcache.i = (int *)malloc(sizeof(int)*nd))==NULL) return 0; + if ((forcombcache.i_tr = (int *)malloc(sizeof(int)*nd))==NULL) return 0; + for (k=1;k PyArray_NBYTES(arr)) { + n = PyArray_NBYTES(arr); + } + STRINGCOPYN(buf, str, n); + return 1; + } +capi_fail: + PRINTPYOBJERR(obj); + PyErr_SetString(#modulename#_error, \"try_pyarr_from_string failed\"); + return 0; +} +""" +needs['string_from_pyobj'] = ['string', 'STRINGMALLOC', 'STRINGCOPYN'] +cfuncs['string_from_pyobj'] = """ +/* + Create a new string buffer `str` of at most length `len` from a + Python string-like object `obj`. + + The string buffer has given size (len) or the size of inistr when len==-1. + + The string buffer is padded with blanks: in Fortran, trailing blanks + are insignificant contrary to C nulls. + */ +static int +string_from_pyobj(string *str, int *len, const string inistr, PyObject *obj, + const char *errmess) +{ + PyObject *tmp = NULL; + string buf = NULL; + npy_intp n = -1; +#ifdef DEBUGCFUNCS +fprintf(stderr,\"string_from_pyobj(str='%s',len=%d,inistr='%s',obj=%p)\\n\", + (char*)str, *len, (char *)inistr, obj); +#endif + if (obj == Py_None) { + n = strlen(inistr); + buf = inistr; + } + else if (PyArray_Check(obj)) { + PyArrayObject *arr = (PyArrayObject *)obj; + if (!ISCONTIGUOUS(arr)) { + PyErr_SetString(PyExc_ValueError, + \"array object is non-contiguous.\"); + goto capi_fail; + } + n = PyArray_NBYTES(arr); + buf = PyArray_DATA(arr); + n = strnlen(buf, n); + } + else { + if (PyBytes_Check(obj)) { + tmp = obj; + Py_INCREF(tmp); + } + else if (PyUnicode_Check(obj)) { + tmp = PyUnicode_AsASCIIString(obj); + } + else { + PyObject *tmp2; + tmp2 = PyObject_Str(obj); + if (tmp2) { + tmp = PyUnicode_AsASCIIString(tmp2); + Py_DECREF(tmp2); + } + else { + tmp = NULL; + } + } + if (tmp == NULL) goto capi_fail; + n = PyBytes_GET_SIZE(tmp); + buf = PyBytes_AS_STRING(tmp); + } + if (*len == -1) { + /* TODO: change the type of `len` so that we can remove this */ + if (n > NPY_MAX_INT) { + PyErr_SetString(PyExc_OverflowError, + "object too large for a 32-bit int"); + goto capi_fail; + } + *len = n; + } + else if (*len < n) { + /* discard the last (len-n) bytes of input buf */ + n = *len; + } + if (n < 0 || *len < 0 || buf == NULL) { + goto capi_fail; + } + STRINGMALLOC(*str, *len); // *str is allocated with size (*len + 1) + if (n < *len) { + /* + Pad fixed-width string with nulls. The caller will replace + nulls with blanks when the corresponding argument is not + intent(c). + */ + memset(*str + n, '\\0', *len - n); + } + STRINGCOPYN(*str, buf, n); + Py_XDECREF(tmp); + return 1; +capi_fail: + Py_XDECREF(tmp); + { + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = #modulename#_error; + } + PyErr_SetString(err, errmess); + } + return 0; +} +""" + +cfuncs['character_from_pyobj'] = """ +static int +character_from_pyobj(character* v, PyObject *obj, const char *errmess) { + if (PyBytes_Check(obj)) { + /* empty bytes has trailing null, so dereferencing is always safe */ + *v = PyBytes_AS_STRING(obj)[0]; + return 1; + } else if (PyUnicode_Check(obj)) { + PyObject* tmp = PyUnicode_AsASCIIString(obj); + if (tmp != NULL) { + *v = PyBytes_AS_STRING(tmp)[0]; + Py_DECREF(tmp); + return 1; + } + } else if (PyArray_Check(obj)) { + PyArrayObject* arr = (PyArrayObject*)obj; + if (F2PY_ARRAY_IS_CHARACTER_COMPATIBLE(arr)) { + *v = PyArray_BYTES(arr)[0]; + return 1; + } else if (F2PY_IS_UNICODE_ARRAY(arr)) { + // TODO: update when numpy will support 1-byte and + // 2-byte unicode dtypes + PyObject* tmp = PyUnicode_FromKindAndData( + PyUnicode_4BYTE_KIND, + PyArray_BYTES(arr), + (PyArray_NBYTES(arr)>0?1:0)); + if (tmp != NULL) { + if (character_from_pyobj(v, tmp, errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + } + } else if (PySequence_Check(obj)) { + PyObject* tmp = PySequence_GetItem(obj,0); + if (tmp != NULL) { + if (character_from_pyobj(v, tmp, errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + } + { + /* TODO: This error (and most other) error handling needs cleaning. */ + char mess[F2PY_MESSAGE_BUFFER_SIZE]; + strcpy(mess, errmess); + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = PyExc_TypeError; + Py_INCREF(err); + } + else { + Py_INCREF(err); + PyErr_Clear(); + } + sprintf(mess + strlen(mess), + " -- expected str|bytes|sequence-of-str-or-bytes, got "); + f2py_describe(obj, mess + strlen(mess)); + PyErr_SetString(err, mess); + Py_DECREF(err); + } + return 0; +} +""" + +# TODO: These should be dynamically generated, too many mapped to int things, +# see note in _isocbind.py +needs['char_from_pyobj'] = ['int_from_pyobj'] +cfuncs['char_from_pyobj'] = """ +static int +char_from_pyobj(char* v, PyObject *obj, const char *errmess) { + int i = 0; + if (int_from_pyobj(&i, obj, errmess)) { + *v = (char)i; + return 1; + } + return 0; +} +""" + + +needs['signed_char_from_pyobj'] = ['int_from_pyobj', 'signed_char'] +cfuncs['signed_char_from_pyobj'] = """ +static int +signed_char_from_pyobj(signed_char* v, PyObject *obj, const char *errmess) { + int i = 0; + if (int_from_pyobj(&i, obj, errmess)) { + *v = (signed_char)i; + return 1; + } + return 0; +} +""" + + +needs['short_from_pyobj'] = ['int_from_pyobj'] +cfuncs['short_from_pyobj'] = """ +static int +short_from_pyobj(short* v, PyObject *obj, const char *errmess) { + int i = 0; + if (int_from_pyobj(&i, obj, errmess)) { + *v = (short)i; + return 1; + } + return 0; +} +""" + + +cfuncs['int_from_pyobj'] = """ +static int +int_from_pyobj(int* v, PyObject *obj, const char *errmess) +{ + PyObject* tmp = NULL; + + if (PyLong_Check(obj)) { + *v = Npy__PyLong_AsInt(obj); + return !(*v == -1 && PyErr_Occurred()); + } + + tmp = PyNumber_Long(obj); + if (tmp) { + *v = Npy__PyLong_AsInt(tmp); + Py_DECREF(tmp); + return !(*v == -1 && PyErr_Occurred()); + } + + if (PyComplex_Check(obj)) { + PyErr_Clear(); + tmp = PyObject_GetAttrString(obj,\"real\"); + } + else if (PyBytes_Check(obj) || PyUnicode_Check(obj)) { + /*pass*/; + } + else if (PySequence_Check(obj)) { + PyErr_Clear(); + tmp = PySequence_GetItem(obj, 0); + } + + if (tmp) { + if (int_from_pyobj(v, tmp, errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + + { + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = #modulename#_error; + } + PyErr_SetString(err, errmess); + } + return 0; +} +""" + + +cfuncs['long_from_pyobj'] = """ +static int +long_from_pyobj(long* v, PyObject *obj, const char *errmess) { + PyObject* tmp = NULL; + + if (PyLong_Check(obj)) { + *v = PyLong_AsLong(obj); + return !(*v == -1 && PyErr_Occurred()); + } + + tmp = PyNumber_Long(obj); + if (tmp) { + *v = PyLong_AsLong(tmp); + Py_DECREF(tmp); + return !(*v == -1 && PyErr_Occurred()); + } + + if (PyComplex_Check(obj)) { + PyErr_Clear(); + tmp = PyObject_GetAttrString(obj,\"real\"); + } + else if (PyBytes_Check(obj) || PyUnicode_Check(obj)) { + /*pass*/; + } + else if (PySequence_Check(obj)) { + PyErr_Clear(); + tmp = PySequence_GetItem(obj, 0); + } + + if (tmp) { + if (long_from_pyobj(v, tmp, errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + { + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = #modulename#_error; + } + PyErr_SetString(err, errmess); + } + return 0; +} +""" + + +needs['long_long_from_pyobj'] = ['long_long'] +cfuncs['long_long_from_pyobj'] = """ +static int +long_long_from_pyobj(long_long* v, PyObject *obj, const char *errmess) +{ + PyObject* tmp = NULL; + + if (PyLong_Check(obj)) { + *v = PyLong_AsLongLong(obj); + return !(*v == -1 && PyErr_Occurred()); + } + + tmp = PyNumber_Long(obj); + if (tmp) { + *v = PyLong_AsLongLong(tmp); + Py_DECREF(tmp); + return !(*v == -1 && PyErr_Occurred()); + } + + if (PyComplex_Check(obj)) { + PyErr_Clear(); + tmp = PyObject_GetAttrString(obj,\"real\"); + } + else if (PyBytes_Check(obj) || PyUnicode_Check(obj)) { + /*pass*/; + } + else if (PySequence_Check(obj)) { + PyErr_Clear(); + tmp = PySequence_GetItem(obj, 0); + } + + if (tmp) { + if (long_long_from_pyobj(v, tmp, errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + { + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = #modulename#_error; + } + PyErr_SetString(err,errmess); + } + return 0; +} +""" + + +needs['long_double_from_pyobj'] = ['double_from_pyobj', 'long_double'] +cfuncs['long_double_from_pyobj'] = """ +static int +long_double_from_pyobj(long_double* v, PyObject *obj, const char *errmess) +{ + double d=0; + if (PyArray_CheckScalar(obj)){ + if PyArray_IsScalar(obj, LongDouble) { + PyArray_ScalarAsCtype(obj, v); + return 1; + } + else if (PyArray_Check(obj) && PyArray_TYPE(obj) == NPY_LONGDOUBLE) { + (*v) = *((npy_longdouble *)PyArray_DATA(obj)); + return 1; + } + } + if (double_from_pyobj(&d, obj, errmess)) { + *v = (long_double)d; + return 1; + } + return 0; +} +""" + + +cfuncs['double_from_pyobj'] = """ +static int +double_from_pyobj(double* v, PyObject *obj, const char *errmess) +{ + PyObject* tmp = NULL; + if (PyFloat_Check(obj)) { + *v = PyFloat_AsDouble(obj); + return !(*v == -1.0 && PyErr_Occurred()); + } + + tmp = PyNumber_Float(obj); + if (tmp) { + *v = PyFloat_AsDouble(tmp); + Py_DECREF(tmp); + return !(*v == -1.0 && PyErr_Occurred()); + } + + if (PyComplex_Check(obj)) { + PyErr_Clear(); + tmp = PyObject_GetAttrString(obj,\"real\"); + } + else if (PyBytes_Check(obj) || PyUnicode_Check(obj)) { + /*pass*/; + } + else if (PySequence_Check(obj)) { + PyErr_Clear(); + tmp = PySequence_GetItem(obj, 0); + } + + if (tmp) { + if (double_from_pyobj(v,tmp,errmess)) {Py_DECREF(tmp); return 1;} + Py_DECREF(tmp); + } + { + PyObject* err = PyErr_Occurred(); + if (err==NULL) err = #modulename#_error; + PyErr_SetString(err,errmess); + } + return 0; +} +""" + + +needs['float_from_pyobj'] = ['double_from_pyobj'] +cfuncs['float_from_pyobj'] = """ +static int +float_from_pyobj(float* v, PyObject *obj, const char *errmess) +{ + double d=0.0; + if (double_from_pyobj(&d,obj,errmess)) { + *v = (float)d; + return 1; + } + return 0; +} +""" + + +needs['complex_long_double_from_pyobj'] = ['complex_long_double', 'long_double', + 'complex_double_from_pyobj', 'npy_math.h'] +cfuncs['complex_long_double_from_pyobj'] = """ +static int +complex_long_double_from_pyobj(complex_long_double* v, PyObject *obj, const char *errmess) +{ + complex_double cd = {0.0,0.0}; + if (PyArray_CheckScalar(obj)){ + if PyArray_IsScalar(obj, CLongDouble) { + PyArray_ScalarAsCtype(obj, v); + return 1; + } + else if (PyArray_Check(obj) && PyArray_TYPE(obj)==NPY_CLONGDOUBLE) { + (*v).r = npy_creall(*(((npy_clongdouble *)PyArray_DATA(obj)))); + (*v).i = npy_cimagl(*(((npy_clongdouble *)PyArray_DATA(obj)))); + return 1; + } + } + if (complex_double_from_pyobj(&cd,obj,errmess)) { + (*v).r = (long_double)cd.r; + (*v).i = (long_double)cd.i; + return 1; + } + return 0; +} +""" + + +needs['complex_double_from_pyobj'] = ['complex_double', 'npy_math.h'] +cfuncs['complex_double_from_pyobj'] = """ +static int +complex_double_from_pyobj(complex_double* v, PyObject *obj, const char *errmess) { + Py_complex c; + if (PyComplex_Check(obj)) { + c = PyComplex_AsCComplex(obj); + (*v).r = c.real; + (*v).i = c.imag; + return 1; + } + if (PyArray_IsScalar(obj, ComplexFloating)) { + if (PyArray_IsScalar(obj, CFloat)) { + npy_cfloat new; + PyArray_ScalarAsCtype(obj, &new); + (*v).r = (double)npy_crealf(new); + (*v).i = (double)npy_cimagf(new); + } + else if (PyArray_IsScalar(obj, CLongDouble)) { + npy_clongdouble new; + PyArray_ScalarAsCtype(obj, &new); + (*v).r = (double)npy_creall(new); + (*v).i = (double)npy_cimagl(new); + } + else { /* if (PyArray_IsScalar(obj, CDouble)) */ + PyArray_ScalarAsCtype(obj, v); + } + return 1; + } + if (PyArray_CheckScalar(obj)) { /* 0-dim array or still array scalar */ + PyArrayObject *arr; + if (PyArray_Check(obj)) { + arr = (PyArrayObject *)PyArray_Cast((PyArrayObject *)obj, NPY_CDOUBLE); + } + else { + arr = (PyArrayObject *)PyArray_FromScalar(obj, PyArray_DescrFromType(NPY_CDOUBLE)); + } + if (arr == NULL) { + return 0; + } + (*v).r = npy_creal(*(((npy_cdouble *)PyArray_DATA(arr)))); + (*v).i = npy_cimag(*(((npy_cdouble *)PyArray_DATA(arr)))); + Py_DECREF(arr); + return 1; + } + /* Python does not provide PyNumber_Complex function :-( */ + (*v).i = 0.0; + if (PyFloat_Check(obj)) { + (*v).r = PyFloat_AsDouble(obj); + return !((*v).r == -1.0 && PyErr_Occurred()); + } + if (PyLong_Check(obj)) { + (*v).r = PyLong_AsDouble(obj); + return !((*v).r == -1.0 && PyErr_Occurred()); + } + if (PySequence_Check(obj) && !(PyBytes_Check(obj) || PyUnicode_Check(obj))) { + PyObject *tmp = PySequence_GetItem(obj,0); + if (tmp) { + if (complex_double_from_pyobj(v,tmp,errmess)) { + Py_DECREF(tmp); + return 1; + } + Py_DECREF(tmp); + } + } + { + PyObject* err = PyErr_Occurred(); + if (err==NULL) + err = PyExc_TypeError; + PyErr_SetString(err,errmess); + } + return 0; +} +""" + + +needs['complex_float_from_pyobj'] = [ + 'complex_float', 'complex_double_from_pyobj'] +cfuncs['complex_float_from_pyobj'] = """ +static int +complex_float_from_pyobj(complex_float* v,PyObject *obj,const char *errmess) +{ + complex_double cd={0.0,0.0}; + if (complex_double_from_pyobj(&cd,obj,errmess)) { + (*v).r = (float)cd.r; + (*v).i = (float)cd.i; + return 1; + } + return 0; +} +""" + + +cfuncs['try_pyarr_from_character'] = """ +static int try_pyarr_from_character(PyObject* obj, character* v) { + PyArrayObject *arr = (PyArrayObject*)obj; + if (!obj) return -2; + if (PyArray_Check(obj)) { + if (F2PY_ARRAY_IS_CHARACTER_COMPATIBLE(arr)) { + *(character *)(PyArray_DATA(arr)) = *v; + return 1; + } + } + { + char mess[F2PY_MESSAGE_BUFFER_SIZE]; + PyObject* err = PyErr_Occurred(); + if (err == NULL) { + err = PyExc_ValueError; + strcpy(mess, "try_pyarr_from_character failed" + " -- expected bytes array-scalar|array, got "); + f2py_describe(obj, mess + strlen(mess)); + PyErr_SetString(err, mess); + } + } + return 0; +} +""" + +needs['try_pyarr_from_char'] = ['pyobj_from_char1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_char'] = 'static int try_pyarr_from_char(PyObject* obj,char* v) {\n TRYPYARRAYTEMPLATE(char,\'c\');\n}\n' +needs['try_pyarr_from_signed_char'] = ['TRYPYARRAYTEMPLATE', 'unsigned_char'] +cfuncs[ + 'try_pyarr_from_unsigned_char'] = 'static int try_pyarr_from_unsigned_char(PyObject* obj,unsigned_char* v) {\n TRYPYARRAYTEMPLATE(unsigned_char,\'b\');\n}\n' +needs['try_pyarr_from_signed_char'] = ['TRYPYARRAYTEMPLATE', 'signed_char'] +cfuncs[ + 'try_pyarr_from_signed_char'] = 'static int try_pyarr_from_signed_char(PyObject* obj,signed_char* v) {\n TRYPYARRAYTEMPLATE(signed_char,\'1\');\n}\n' +needs['try_pyarr_from_short'] = ['pyobj_from_short1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_short'] = 'static int try_pyarr_from_short(PyObject* obj,short* v) {\n TRYPYARRAYTEMPLATE(short,\'s\');\n}\n' +needs['try_pyarr_from_int'] = ['pyobj_from_int1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_int'] = 'static int try_pyarr_from_int(PyObject* obj,int* v) {\n TRYPYARRAYTEMPLATE(int,\'i\');\n}\n' +needs['try_pyarr_from_long'] = ['pyobj_from_long1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_long'] = 'static int try_pyarr_from_long(PyObject* obj,long* v) {\n TRYPYARRAYTEMPLATE(long,\'l\');\n}\n' +needs['try_pyarr_from_long_long'] = [ + 'pyobj_from_long_long1', 'TRYPYARRAYTEMPLATE', 'long_long'] +cfuncs[ + 'try_pyarr_from_long_long'] = 'static int try_pyarr_from_long_long(PyObject* obj,long_long* v) {\n TRYPYARRAYTEMPLATE(long_long,\'L\');\n}\n' +needs['try_pyarr_from_float'] = ['pyobj_from_float1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_float'] = 'static int try_pyarr_from_float(PyObject* obj,float* v) {\n TRYPYARRAYTEMPLATE(float,\'f\');\n}\n' +needs['try_pyarr_from_double'] = ['pyobj_from_double1', 'TRYPYARRAYTEMPLATE'] +cfuncs[ + 'try_pyarr_from_double'] = 'static int try_pyarr_from_double(PyObject* obj,double* v) {\n TRYPYARRAYTEMPLATE(double,\'d\');\n}\n' +needs['try_pyarr_from_complex_float'] = [ + 'pyobj_from_complex_float1', 'TRYCOMPLEXPYARRAYTEMPLATE', 'complex_float'] +cfuncs[ + 'try_pyarr_from_complex_float'] = 'static int try_pyarr_from_complex_float(PyObject* obj,complex_float* v) {\n TRYCOMPLEXPYARRAYTEMPLATE(float,\'F\');\n}\n' +needs['try_pyarr_from_complex_double'] = [ + 'pyobj_from_complex_double1', 'TRYCOMPLEXPYARRAYTEMPLATE', 'complex_double'] +cfuncs[ + 'try_pyarr_from_complex_double'] = 'static int try_pyarr_from_complex_double(PyObject* obj,complex_double* v) {\n TRYCOMPLEXPYARRAYTEMPLATE(double,\'D\');\n}\n' + + +needs['create_cb_arglist'] = ['CFUNCSMESS', 'PRINTPYOBJERR', 'MINMAX'] +# create the list of arguments to be used when calling back to python +cfuncs['create_cb_arglist'] = """ +static int +create_cb_arglist(PyObject* fun, PyTupleObject* xa , const int maxnofargs, + const int nofoptargs, int *nofargs, PyTupleObject **args, + const char *errmess) +{ + PyObject *tmp = NULL; + PyObject *tmp_fun = NULL; + Py_ssize_t tot, opt, ext, siz, i, di = 0; + CFUNCSMESS(\"create_cb_arglist\\n\"); + tot=opt=ext=siz=0; + /* Get the total number of arguments */ + if (PyFunction_Check(fun)) { + tmp_fun = fun; + Py_INCREF(tmp_fun); + } + else { + di = 1; + if (PyObject_HasAttrString(fun,\"im_func\")) { + tmp_fun = PyObject_GetAttrString(fun,\"im_func\"); + } + else if (PyObject_HasAttrString(fun,\"__call__\")) { + tmp = PyObject_GetAttrString(fun,\"__call__\"); + if (PyObject_HasAttrString(tmp,\"im_func\")) + tmp_fun = PyObject_GetAttrString(tmp,\"im_func\"); + else { + tmp_fun = fun; /* built-in function */ + Py_INCREF(tmp_fun); + tot = maxnofargs; + if (PyCFunction_Check(fun)) { + /* In case the function has a co_argcount (like on PyPy) */ + di = 0; + } + if (xa != NULL) + tot += PyTuple_Size((PyObject *)xa); + } + Py_XDECREF(tmp); + } + else if (PyFortran_Check(fun) || PyFortran_Check1(fun)) { + tot = maxnofargs; + if (xa != NULL) + tot += PyTuple_Size((PyObject *)xa); + tmp_fun = fun; + Py_INCREF(tmp_fun); + } + else if (F2PyCapsule_Check(fun)) { + tot = maxnofargs; + if (xa != NULL) + ext = PyTuple_Size((PyObject *)xa); + if(ext>0) { + fprintf(stderr,\"extra arguments tuple cannot be used with PyCapsule call-back\\n\"); + goto capi_fail; + } + tmp_fun = fun; + Py_INCREF(tmp_fun); + } + } + + if (tmp_fun == NULL) { + fprintf(stderr, + \"Call-back argument must be function|instance|instance.__call__|f2py-function \" + \"but got %s.\\n\", + ((fun == NULL) ? \"NULL\" : Py_TYPE(fun)->tp_name)); + goto capi_fail; + } + + if (PyObject_HasAttrString(tmp_fun,\"__code__\")) { + if (PyObject_HasAttrString(tmp = PyObject_GetAttrString(tmp_fun,\"__code__\"),\"co_argcount\")) { + PyObject *tmp_argcount = PyObject_GetAttrString(tmp,\"co_argcount\"); + Py_DECREF(tmp); + if (tmp_argcount == NULL) { + goto capi_fail; + } + tot = PyLong_AsSsize_t(tmp_argcount) - di; + Py_DECREF(tmp_argcount); + } + } + /* Get the number of optional arguments */ + if (PyObject_HasAttrString(tmp_fun,\"__defaults__\")) { + if (PyTuple_Check(tmp = PyObject_GetAttrString(tmp_fun,\"__defaults__\"))) + opt = PyTuple_Size(tmp); + Py_XDECREF(tmp); + } + /* Get the number of extra arguments */ + if (xa != NULL) + ext = PyTuple_Size((PyObject *)xa); + /* Calculate the size of call-backs argument list */ + siz = MIN(maxnofargs+ext,tot); + *nofargs = MAX(0,siz-ext); + +#ifdef DEBUGCFUNCS + fprintf(stderr, + \"debug-capi:create_cb_arglist:maxnofargs(-nofoptargs),\" + \"tot,opt,ext,siz,nofargs = %d(-%d), %zd, %zd, %zd, %zd, %d\\n\", + maxnofargs, nofoptargs, tot, opt, ext, siz, *nofargs); +#endif + + if (siz < tot-opt) { + fprintf(stderr, + \"create_cb_arglist: Failed to build argument list \" + \"(siz) with enough arguments (tot-opt) required by \" + \"user-supplied function (siz,tot,opt=%zd, %zd, %zd).\\n\", + siz, tot, opt); + goto capi_fail; + } + + /* Initialize argument list */ + *args = (PyTupleObject *)PyTuple_New(siz); + for (i=0;i<*nofargs;i++) { + Py_INCREF(Py_None); + PyTuple_SET_ITEM((PyObject *)(*args),i,Py_None); + } + if (xa != NULL) + for (i=(*nofargs);i 0: + if outneeds[n][0] not in needs: + out.append(outneeds[n][0]) + del outneeds[n][0] + else: + flag = 0 + for k in outneeds[n][1:]: + if k in needs[outneeds[n][0]]: + flag = 1 + break + if flag: + outneeds[n] = outneeds[n][1:] + [outneeds[n][0]] + else: + out.append(outneeds[n][0]) + del outneeds[n][0] + if saveout and (0 not in map(lambda x, y: x == y, saveout, outneeds[n])) \ + and outneeds[n] != []: + print(n, saveout) + errmess( + 'get_needs: no progress in sorting needs, probably circular dependence, skipping.\n') + out = out + saveout + break + saveout = copy.copy(outneeds[n]) + if out == []: + out = [n] + res[n] = out + return res diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/common_rules.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/common_rules.py new file mode 100644 index 0000000000000000000000000000000000000000..64347b737454fe1bae544b6630de2729157d7f71 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/common_rules.py @@ -0,0 +1,146 @@ +""" +Build common block mechanism for f2py2e. + +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +Permission to use, modify, and distribute this software is given under the +terms of the NumPy License + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +""" +from . import __version__ +f2py_version = __version__.version + +from .auxfuncs import ( + hasbody, hascommon, hasnote, isintent_hide, outmess, getuseblocks +) +from . import capi_maps +from . import func2subr +from .crackfortran import rmbadname + + +def findcommonblocks(block, top=1): + ret = [] + if hascommon(block): + for key, value in block['common'].items(): + vars_ = {v: block['vars'][v] for v in value} + ret.append((key, value, vars_)) + elif hasbody(block): + for b in block['body']: + ret = ret + findcommonblocks(b, 0) + if top: + tret = [] + names = [] + for t in ret: + if t[0] not in names: + names.append(t[0]) + tret.append(t) + return tret + return ret + + +def buildhooks(m): + ret = {'commonhooks': [], 'initcommonhooks': [], + 'docs': ['"COMMON blocks:\\n"']} + fwrap = [''] + + def fadd(line, s=fwrap): + s[0] = '%s\n %s' % (s[0], line) + chooks = [''] + + def cadd(line, s=chooks): + s[0] = '%s\n%s' % (s[0], line) + ihooks = [''] + + def iadd(line, s=ihooks): + s[0] = '%s\n%s' % (s[0], line) + doc = [''] + + def dadd(line, s=doc): + s[0] = '%s\n%s' % (s[0], line) + for (name, vnames, vars) in findcommonblocks(m): + lower_name = name.lower() + hnames, inames = [], [] + for n in vnames: + if isintent_hide(vars[n]): + hnames.append(n) + else: + inames.append(n) + if hnames: + outmess('\t\tConstructing COMMON block support for "%s"...\n\t\t %s\n\t\t Hidden: %s\n' % ( + name, ','.join(inames), ','.join(hnames))) + else: + outmess('\t\tConstructing COMMON block support for "%s"...\n\t\t %s\n' % ( + name, ','.join(inames))) + fadd('subroutine f2pyinit%s(setupfunc)' % name) + for usename in getuseblocks(m): + fadd(f'use {usename}') + fadd('external setupfunc') + for n in vnames: + fadd(func2subr.var2fixfortran(vars, n)) + if name == '_BLNK_': + fadd('common %s' % (','.join(vnames))) + else: + fadd('common /%s/ %s' % (name, ','.join(vnames))) + fadd('call setupfunc(%s)' % (','.join(inames))) + fadd('end\n') + cadd('static FortranDataDef f2py_%s_def[] = {' % (name)) + idims = [] + for n in inames: + ct = capi_maps.getctype(vars[n]) + elsize = capi_maps.get_elsize(vars[n]) + at = capi_maps.c2capi_map[ct] + dm = capi_maps.getarrdims(n, vars[n]) + if dm['dims']: + idims.append('(%s)' % (dm['dims'])) + else: + idims.append('') + dms = dm['dims'].strip() + if not dms: + dms = '-1' + cadd('\t{\"%s\",%s,{{%s}},%s, %s},' + % (n, dm['rank'], dms, at, elsize)) + cadd('\t{NULL}\n};') + inames1 = rmbadname(inames) + inames1_tps = ','.join(['char *' + s for s in inames1]) + cadd('static void f2py_setup_%s(%s) {' % (name, inames1_tps)) + cadd('\tint i_f2py=0;') + for n in inames1: + cadd('\tf2py_%s_def[i_f2py++].data = %s;' % (name, n)) + cadd('}') + if '_' in lower_name: + F_FUNC = 'F_FUNC_US' + else: + F_FUNC = 'F_FUNC' + cadd('extern void %s(f2pyinit%s,F2PYINIT%s)(void(*)(%s));' + % (F_FUNC, lower_name, name.upper(), + ','.join(['char*'] * len(inames1)))) + cadd('static void f2py_init_%s(void) {' % name) + cadd('\t%s(f2pyinit%s,F2PYINIT%s)(f2py_setup_%s);' + % (F_FUNC, lower_name, name.upper(), name)) + cadd('}\n') + iadd('\ttmp = PyFortranObject_New(f2py_%s_def,f2py_init_%s);' % (name, name)) + iadd('\tif (tmp == NULL) return NULL;') + iadd('\tif (F2PyDict_SetItemString(d, \"%s\", tmp) == -1) return NULL;' + % name) + iadd('\tPy_DECREF(tmp);') + tname = name.replace('_', '\\_') + dadd('\\subsection{Common block \\texttt{%s}}\n' % (tname)) + dadd('\\begin{description}') + for n in inames: + dadd('\\item[]{{}\\verb@%s@{}}' % + (capi_maps.getarrdocsign(n, vars[n]))) + if hasnote(vars[n]): + note = vars[n]['note'] + if isinstance(note, list): + note = '\n'.join(note) + dadd('--- %s' % (note)) + dadd('\\end{description}') + ret['docs'].append( + '"\t/%s/ %s\\n"' % (name, ','.join(map(lambda v, d: v + d, inames, idims)))) + ret['commonhooks'] = chooks + ret['initcommonhooks'] = ihooks + ret['latexdoc'] = doc[0] + if len(ret['docs']) <= 1: + ret['docs'] = '' + return ret, fwrap[0] diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f2py2e.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f2py2e.py new file mode 100644 index 0000000000000000000000000000000000000000..ce22b2d8a9ec87b23df1b2a6328c24cf26f8e1dd --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f2py2e.py @@ -0,0 +1,768 @@ +#!/usr/bin/env python3 +""" + +f2py2e - Fortran to Python C/API generator. 2nd Edition. + See __usage__ below. + +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +Permission to use, modify, and distribute this software is given under the +terms of the NumPy License. + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +""" +import sys +import os +import pprint +import re +from pathlib import Path +from itertools import dropwhile +import argparse +import copy + +from . import crackfortran +from . import rules +from . import cb_rules +from . import auxfuncs +from . import cfuncs +from . import f90mod_rules +from . import __version__ +from . import capi_maps +from numpy.f2py._backends import f2py_build_generator + +f2py_version = __version__.version +numpy_version = __version__.version +errmess = sys.stderr.write +# outmess=sys.stdout.write +show = pprint.pprint +outmess = auxfuncs.outmess +MESON_ONLY_VER = (sys.version_info >= (3, 12)) + +__usage__ =\ +f"""Usage: + +1) To construct extension module sources: + + f2py [] [[[only:]||[skip:]] \\ + ] \\ + [: ...] + +2) To compile fortran files and build extension modules: + + f2py -c [, , ] + +3) To generate signature files: + + f2py -h ...< same options as in (1) > + +Description: This program generates a Python C/API file (module.c) + that contains wrappers for given fortran functions so that they + can be called from Python. With the -c option the corresponding + extension modules are built. + +Options: + + -h Write signatures of the fortran routines to file + and exit. You can then edit and use it instead + of . If ==stdout then the + signatures are printed to stdout. + Names of fortran routines for which Python C/API + functions will be generated. Default is all that are found + in . + Paths to fortran/signature files that will be scanned for + in order to determine their signatures. + skip: Ignore fortran functions that follow until `:'. + only: Use only fortran functions that follow until `:'. + : Get back to mode. + + -m Name of the module; f2py generates a Python/C API + file module.c or extension module . + Default is 'untitled'. + + '-include
' Writes additional headers in the C wrapper, can be passed + multiple times, generates #include
each time. + + --[no-]lower Do [not] lower the cases in . By default, + --lower is assumed with -h key, and --no-lower without -h key. + + --build-dir All f2py generated files are created in . + Default is tempfile.mkdtemp(). + + --overwrite-signature Overwrite existing signature file. + + --[no-]latex-doc Create (or not) module.tex. + Default is --no-latex-doc. + --short-latex Create 'incomplete' LaTeX document (without commands + \\documentclass, \\tableofcontents, and \\begin{{document}}, + \\end{{document}}). + + --[no-]rest-doc Create (or not) module.rst. + Default is --no-rest-doc. + + --debug-capi Create C/API code that reports the state of the wrappers + during runtime. Useful for debugging. + + --[no-]wrap-functions Create Fortran subroutine wrappers to Fortran 77 + functions. --wrap-functions is default because it ensures + maximum portability/compiler independence. + + --include-paths ::... Search include files from the given + directories. + + --help-link [..] List system resources found by system_info.py. See also + --link- switch below. [..] is optional list + of resources names. E.g. try 'f2py --help-link lapack_opt'. + + --f2cmap Load Fortran-to-Python KIND specification from the given + file. Default: .f2py_f2cmap in current directory. + + --quiet Run quietly. + --verbose Run with extra verbosity. + --skip-empty-wrappers Only generate wrapper files when needed. + -v Print f2py version ID and exit. + + +build backend options (only effective with -c) +[NO_MESON] is used to indicate an option not meant to be used +with the meson backend or above Python 3.12: + + --fcompiler= Specify Fortran compiler type by vendor [NO_MESON] + --compiler= Specify distutils C compiler type [NO_MESON] + + --help-fcompiler List available Fortran compilers and exit [NO_MESON] + --f77exec= Specify the path to F77 compiler [NO_MESON] + --f90exec= Specify the path to F90 compiler [NO_MESON] + --f77flags= Specify F77 compiler flags + --f90flags= Specify F90 compiler flags + --opt= Specify optimization flags [NO_MESON] + --arch= Specify architecture specific optimization flags [NO_MESON] + --noopt Compile without optimization [NO_MESON] + --noarch Compile without arch-dependent optimization [NO_MESON] + --debug Compile with debugging information + + --dep + Specify a meson dependency for the module. This may + be passed multiple times for multiple dependencies. + Dependencies are stored in a list for further processing. + + Example: --dep lapack --dep scalapack + This will identify "lapack" and "scalapack" as dependencies + and remove them from argv, leaving a dependencies list + containing ["lapack", "scalapack"]. + + --backend + Specify the build backend for the compilation process. + The supported backends are 'meson' and 'distutils'. + If not specified, defaults to 'distutils'. On + Python 3.12 or higher, the default is 'meson'. + +Extra options (only effective with -c): + + --link- Link extension module with as defined + by numpy.distutils/system_info.py. E.g. to link + with optimized LAPACK libraries (vecLib on MacOSX, + ATLAS elsewhere), use --link-lapack_opt. + See also --help-link switch. [NO_MESON] + + -L/path/to/lib/ -l + -D -U + -I/path/to/include/ + .o .so .a + + Using the following macros may be required with non-gcc Fortran + compilers: + -DPREPEND_FORTRAN -DNO_APPEND_FORTRAN -DUPPERCASE_FORTRAN + -DUNDERSCORE_G77 + + When using -DF2PY_REPORT_ATEXIT, a performance report of F2PY + interface is printed out at exit (platforms: Linux). + + When using -DF2PY_REPORT_ON_ARRAY_COPY=, a message is + sent to stderr whenever F2PY interface makes a copy of an + array. Integer sets the threshold for array sizes when + a message should be shown. + +Version: {f2py_version} +numpy Version: {numpy_version} +License: NumPy license (see LICENSE.txt in the NumPy source code) +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +https://numpy.org/doc/stable/f2py/index.html\n""" + + +def scaninputline(inputline): + files, skipfuncs, onlyfuncs, debug = [], [], [], [] + f, f2, f3, f5, f6, f8, f9, f10 = 1, 0, 0, 0, 0, 0, 0, 0 + verbose = 1 + emptygen = True + dolc = -1 + dolatexdoc = 0 + dorestdoc = 0 + wrapfuncs = 1 + buildpath = '.' + include_paths, inputline = get_includes(inputline) + signsfile, modulename = None, None + options = {'buildpath': buildpath, + 'coutput': None, + 'f2py_wrapper_output': None} + for l in inputline: + if l == '': + pass + elif l == 'only:': + f = 0 + elif l == 'skip:': + f = -1 + elif l == ':': + f = 1 + elif l[:8] == '--debug-': + debug.append(l[8:]) + elif l == '--lower': + dolc = 1 + elif l == '--build-dir': + f6 = 1 + elif l == '--no-lower': + dolc = 0 + elif l == '--quiet': + verbose = 0 + elif l == '--verbose': + verbose += 1 + elif l == '--latex-doc': + dolatexdoc = 1 + elif l == '--no-latex-doc': + dolatexdoc = 0 + elif l == '--rest-doc': + dorestdoc = 1 + elif l == '--no-rest-doc': + dorestdoc = 0 + elif l == '--wrap-functions': + wrapfuncs = 1 + elif l == '--no-wrap-functions': + wrapfuncs = 0 + elif l == '--short-latex': + options['shortlatex'] = 1 + elif l == '--coutput': + f8 = 1 + elif l == '--f2py-wrapper-output': + f9 = 1 + elif l == '--f2cmap': + f10 = 1 + elif l == '--overwrite-signature': + options['h-overwrite'] = 1 + elif l == '-h': + f2 = 1 + elif l == '-m': + f3 = 1 + elif l[:2] == '-v': + print(f2py_version) + sys.exit() + elif l == '--show-compilers': + f5 = 1 + elif l[:8] == '-include': + cfuncs.outneeds['userincludes'].append(l[9:-1]) + cfuncs.userincludes[l[9:-1]] = '#include ' + l[8:] + elif l == '--skip-empty-wrappers': + emptygen = False + elif l[0] == '-': + errmess('Unknown option %s\n' % repr(l)) + sys.exit() + elif f2: + f2 = 0 + signsfile = l + elif f3: + f3 = 0 + modulename = l + elif f6: + f6 = 0 + buildpath = l + elif f8: + f8 = 0 + options["coutput"] = l + elif f9: + f9 = 0 + options["f2py_wrapper_output"] = l + elif f10: + f10 = 0 + options["f2cmap_file"] = l + elif f == 1: + try: + with open(l): + pass + files.append(l) + except OSError as detail: + errmess(f'OSError: {detail!s}. Skipping file "{l!s}".\n') + elif f == -1: + skipfuncs.append(l) + elif f == 0: + onlyfuncs.append(l) + if not f5 and not files and not modulename: + print(__usage__) + sys.exit() + if not os.path.isdir(buildpath): + if not verbose: + outmess('Creating build directory %s\n' % (buildpath)) + os.mkdir(buildpath) + if signsfile: + signsfile = os.path.join(buildpath, signsfile) + if signsfile and os.path.isfile(signsfile) and 'h-overwrite' not in options: + errmess( + 'Signature file "%s" exists!!! Use --overwrite-signature to overwrite.\n' % (signsfile)) + sys.exit() + + options['emptygen'] = emptygen + options['debug'] = debug + options['verbose'] = verbose + if dolc == -1 and not signsfile: + options['do-lower'] = 0 + else: + options['do-lower'] = dolc + if modulename: + options['module'] = modulename + if signsfile: + options['signsfile'] = signsfile + if onlyfuncs: + options['onlyfuncs'] = onlyfuncs + if skipfuncs: + options['skipfuncs'] = skipfuncs + options['dolatexdoc'] = dolatexdoc + options['dorestdoc'] = dorestdoc + options['wrapfuncs'] = wrapfuncs + options['buildpath'] = buildpath + options['include_paths'] = include_paths + options.setdefault('f2cmap_file', None) + return files, options + + +def callcrackfortran(files, options): + rules.options = options + crackfortran.debug = options['debug'] + crackfortran.verbose = options['verbose'] + if 'module' in options: + crackfortran.f77modulename = options['module'] + if 'skipfuncs' in options: + crackfortran.skipfuncs = options['skipfuncs'] + if 'onlyfuncs' in options: + crackfortran.onlyfuncs = options['onlyfuncs'] + crackfortran.include_paths[:] = options['include_paths'] + crackfortran.dolowercase = options['do-lower'] + postlist = crackfortran.crackfortran(files) + if 'signsfile' in options: + outmess('Saving signatures to file "%s"\n' % (options['signsfile'])) + pyf = crackfortran.crack2fortran(postlist) + if options['signsfile'][-6:] == 'stdout': + sys.stdout.write(pyf) + else: + with open(options['signsfile'], 'w') as f: + f.write(pyf) + if options["coutput"] is None: + for mod in postlist: + mod["coutput"] = "%smodule.c" % mod["name"] + else: + for mod in postlist: + mod["coutput"] = options["coutput"] + if options["f2py_wrapper_output"] is None: + for mod in postlist: + mod["f2py_wrapper_output"] = "%s-f2pywrappers.f" % mod["name"] + else: + for mod in postlist: + mod["f2py_wrapper_output"] = options["f2py_wrapper_output"] + return postlist + + +def buildmodules(lst): + cfuncs.buildcfuncs() + outmess('Building modules...\n') + modules, mnames, isusedby = [], [], {} + for item in lst: + if '__user__' in item['name']: + cb_rules.buildcallbacks(item) + else: + if 'use' in item: + for u in item['use'].keys(): + if u not in isusedby: + isusedby[u] = [] + isusedby[u].append(item['name']) + modules.append(item) + mnames.append(item['name']) + ret = {} + for module, name in zip(modules, mnames): + if name in isusedby: + outmess('\tSkipping module "%s" which is used by %s.\n' % ( + name, ','.join('"%s"' % s for s in isusedby[name]))) + else: + um = [] + if 'use' in module: + for u in module['use'].keys(): + if u in isusedby and u in mnames: + um.append(modules[mnames.index(u)]) + else: + outmess( + f'\tModule "{name}" uses nonexisting "{u}" ' + 'which will be ignored.\n') + ret[name] = {} + dict_append(ret[name], rules.buildmodule(module, um)) + return ret + + +def dict_append(d_out, d_in): + for (k, v) in d_in.items(): + if k not in d_out: + d_out[k] = [] + if isinstance(v, list): + d_out[k] = d_out[k] + v + else: + d_out[k].append(v) + + +def run_main(comline_list): + """ + Equivalent to running:: + + f2py + + where ``=string.join(,' ')``, but in Python. Unless + ``-h`` is used, this function returns a dictionary containing + information on generated modules and their dependencies on source + files. + + You cannot build extension modules with this function, that is, + using ``-c`` is not allowed. Use the ``compile`` command instead. + + Examples + -------- + The command ``f2py -m scalar scalar.f`` can be executed from Python as + follows. + + .. literalinclude:: ../../source/f2py/code/results/run_main_session.dat + :language: python + + """ + crackfortran.reset_global_f2py_vars() + f2pydir = os.path.dirname(os.path.abspath(cfuncs.__file__)) + fobjhsrc = os.path.join(f2pydir, 'src', 'fortranobject.h') + fobjcsrc = os.path.join(f2pydir, 'src', 'fortranobject.c') + # gh-22819 -- begin + parser = make_f2py_compile_parser() + args, comline_list = parser.parse_known_args(comline_list) + pyf_files, _ = filter_files("", "[.]pyf([.]src|)", comline_list) + # Checks that no existing modulename is defined in a pyf file + # TODO: Remove all this when scaninputline is replaced + if args.module_name: + if "-h" in comline_list: + modname = ( + args.module_name + ) # Directly use from args when -h is present + else: + modname = validate_modulename( + pyf_files, args.module_name + ) # Validate modname when -h is not present + comline_list += ['-m', modname] # needed for the rest of scaninputline + # gh-22819 -- end + files, options = scaninputline(comline_list) + auxfuncs.options = options + capi_maps.load_f2cmap_file(options['f2cmap_file']) + postlist = callcrackfortran(files, options) + isusedby = {} + for plist in postlist: + if 'use' in plist: + for u in plist['use'].keys(): + if u not in isusedby: + isusedby[u] = [] + isusedby[u].append(plist['name']) + for plist in postlist: + if plist['block'] == 'python module' and '__user__' in plist['name']: + if plist['name'] in isusedby: + # if not quiet: + outmess( + f'Skipping Makefile build for module "{plist["name"]}" ' + 'which is used by {}\n'.format( + ','.join(f'"{s}"' for s in isusedby[plist['name']]))) + if 'signsfile' in options: + if options['verbose'] > 1: + outmess( + 'Stopping. Edit the signature file and then run f2py on the signature file: ') + outmess('%s %s\n' % + (os.path.basename(sys.argv[0]), options['signsfile'])) + return + for plist in postlist: + if plist['block'] != 'python module': + if 'python module' not in options: + errmess( + 'Tip: If your original code is Fortran source then you must use -m option.\n') + raise TypeError('All blocks must be python module blocks but got %s' % ( + repr(plist['block']))) + auxfuncs.debugoptions = options['debug'] + f90mod_rules.options = options + auxfuncs.wrapfuncs = options['wrapfuncs'] + + ret = buildmodules(postlist) + + for mn in ret.keys(): + dict_append(ret[mn], {'csrc': fobjcsrc, 'h': fobjhsrc}) + return ret + + +def filter_files(prefix, suffix, files, remove_prefix=None): + """ + Filter files by prefix and suffix. + """ + filtered, rest = [], [] + match = re.compile(prefix + r'.*' + suffix + r'\Z').match + if remove_prefix: + ind = len(prefix) + else: + ind = 0 + for file in [x.strip() for x in files]: + if match(file): + filtered.append(file[ind:]) + else: + rest.append(file) + return filtered, rest + + +def get_prefix(module): + p = os.path.dirname(os.path.dirname(module.__file__)) + return p + + +class CombineIncludePaths(argparse.Action): + def __call__(self, parser, namespace, values, option_string=None): + include_paths_set = set(getattr(namespace, 'include_paths', []) or []) + if option_string == "--include_paths": + outmess("Use --include-paths or -I instead of --include_paths which will be removed") + if option_string == "--include-paths" or option_string == "--include_paths": + include_paths_set.update(values.split(':')) + else: + include_paths_set.add(values) + setattr(namespace, 'include_paths', list(include_paths_set)) + +def include_parser(): + parser = argparse.ArgumentParser(add_help=False) + parser.add_argument("-I", dest="include_paths", action=CombineIncludePaths) + parser.add_argument("--include-paths", dest="include_paths", action=CombineIncludePaths) + parser.add_argument("--include_paths", dest="include_paths", action=CombineIncludePaths) + return parser + +def get_includes(iline): + iline = (' '.join(iline)).split() + parser = include_parser() + args, remain = parser.parse_known_args(iline) + ipaths = args.include_paths + if args.include_paths is None: + ipaths = [] + return ipaths, remain + +def make_f2py_compile_parser(): + parser = argparse.ArgumentParser(add_help=False) + parser.add_argument("--dep", action="append", dest="dependencies") + parser.add_argument("--backend", choices=['meson', 'distutils'], default='distutils') + parser.add_argument("-m", dest="module_name") + return parser + +def preparse_sysargv(): + # To keep backwards bug compatibility, newer flags are handled by argparse, + # and `sys.argv` is passed to the rest of `f2py` as is. + parser = make_f2py_compile_parser() + + args, remaining_argv = parser.parse_known_args() + sys.argv = [sys.argv[0]] + remaining_argv + + backend_key = args.backend + if MESON_ONLY_VER and backend_key == 'distutils': + outmess("Cannot use distutils backend with Python>=3.12," + " using meson backend instead.\n") + backend_key = "meson" + + return { + "dependencies": args.dependencies or [], + "backend": backend_key, + "modulename": args.module_name, + } + +def run_compile(): + """ + Do it all in one call! + """ + import tempfile + + # Collect dependency flags, preprocess sys.argv + argy = preparse_sysargv() + modulename = argy["modulename"] + if modulename is None: + modulename = 'untitled' + dependencies = argy["dependencies"] + backend_key = argy["backend"] + build_backend = f2py_build_generator(backend_key) + + i = sys.argv.index('-c') + del sys.argv[i] + + remove_build_dir = 0 + try: + i = sys.argv.index('--build-dir') + except ValueError: + i = None + if i is not None: + build_dir = sys.argv[i + 1] + del sys.argv[i + 1] + del sys.argv[i] + else: + remove_build_dir = 1 + build_dir = tempfile.mkdtemp() + + _reg1 = re.compile(r'--link-') + sysinfo_flags = [_m for _m in sys.argv[1:] if _reg1.match(_m)] + sys.argv = [_m for _m in sys.argv if _m not in sysinfo_flags] + if sysinfo_flags: + sysinfo_flags = [f[7:] for f in sysinfo_flags] + + _reg2 = re.compile( + r'--((no-|)(wrap-functions|lower)|debug-capi|quiet|skip-empty-wrappers)|-include') + f2py_flags = [_m for _m in sys.argv[1:] if _reg2.match(_m)] + sys.argv = [_m for _m in sys.argv if _m not in f2py_flags] + f2py_flags2 = [] + fl = 0 + for a in sys.argv[1:]: + if a in ['only:', 'skip:']: + fl = 1 + elif a == ':': + fl = 0 + if fl or a == ':': + f2py_flags2.append(a) + if f2py_flags2 and f2py_flags2[-1] != ':': + f2py_flags2.append(':') + f2py_flags.extend(f2py_flags2) + sys.argv = [_m for _m in sys.argv if _m not in f2py_flags2] + _reg3 = re.compile( + r'--((f(90)?compiler(-exec|)|compiler)=|help-compiler)') + flib_flags = [_m for _m in sys.argv[1:] if _reg3.match(_m)] + sys.argv = [_m for _m in sys.argv if _m not in flib_flags] + _reg4 = re.compile( + r'--((f(77|90)(flags|exec)|opt|arch)=|(debug|noopt|noarch|help-fcompiler))') + fc_flags = [_m for _m in sys.argv[1:] if _reg4.match(_m)] + sys.argv = [_m for _m in sys.argv if _m not in fc_flags] + + del_list = [] + for s in flib_flags: + v = '--fcompiler=' + if s[:len(v)] == v: + if MESON_ONLY_VER or backend_key == 'meson': + outmess( + "--fcompiler cannot be used with meson," + "set compiler with the FC environment variable\n" + ) + else: + from numpy.distutils import fcompiler + fcompiler.load_all_fcompiler_classes() + allowed_keys = list(fcompiler.fcompiler_class.keys()) + nv = ov = s[len(v):].lower() + if ov not in allowed_keys: + vmap = {} # XXX + try: + nv = vmap[ov] + except KeyError: + if ov not in vmap.values(): + print('Unknown vendor: "%s"' % (s[len(v):])) + nv = ov + i = flib_flags.index(s) + flib_flags[i] = '--fcompiler=' + nv + continue + for s in del_list: + i = flib_flags.index(s) + del flib_flags[i] + assert len(flib_flags) <= 2, repr(flib_flags) + + _reg5 = re.compile(r'--(verbose)') + setup_flags = [_m for _m in sys.argv[1:] if _reg5.match(_m)] + sys.argv = [_m for _m in sys.argv if _m not in setup_flags] + + if '--quiet' in f2py_flags: + setup_flags.append('--quiet') + + # Ugly filter to remove everything but sources + sources = sys.argv[1:] + f2cmapopt = '--f2cmap' + if f2cmapopt in sys.argv: + i = sys.argv.index(f2cmapopt) + f2py_flags.extend(sys.argv[i:i + 2]) + del sys.argv[i + 1], sys.argv[i] + sources = sys.argv[1:] + + pyf_files, _sources = filter_files("", "[.]pyf([.]src|)", sources) + sources = pyf_files + _sources + modulename = validate_modulename(pyf_files, modulename) + extra_objects, sources = filter_files('', '[.](o|a|so|dylib)', sources) + library_dirs, sources = filter_files('-L', '', sources, remove_prefix=1) + libraries, sources = filter_files('-l', '', sources, remove_prefix=1) + undef_macros, sources = filter_files('-U', '', sources, remove_prefix=1) + define_macros, sources = filter_files('-D', '', sources, remove_prefix=1) + for i in range(len(define_macros)): + name_value = define_macros[i].split('=', 1) + if len(name_value) == 1: + name_value.append(None) + if len(name_value) == 2: + define_macros[i] = tuple(name_value) + else: + print('Invalid use of -D:', name_value) + + # Construct wrappers / signatures / things + if backend_key == 'meson': + if not pyf_files: + outmess('Using meson backend\nWill pass --lower to f2py\nSee https://numpy.org/doc/stable/f2py/buildtools/meson.html\n') + f2py_flags.append('--lower') + run_main(f" {' '.join(f2py_flags)} -m {modulename} {' '.join(sources)}".split()) + else: + run_main(f" {' '.join(f2py_flags)} {' '.join(pyf_files)}".split()) + + # Order matters here, includes are needed for run_main above + include_dirs, sources = get_includes(sources) + # Now use the builder + builder = build_backend( + modulename, + sources, + extra_objects, + build_dir, + include_dirs, + library_dirs, + libraries, + define_macros, + undef_macros, + f2py_flags, + sysinfo_flags, + fc_flags, + flib_flags, + setup_flags, + remove_build_dir, + {"dependencies": dependencies}, + ) + + builder.compile() + + +def validate_modulename(pyf_files, modulename='untitled'): + if len(pyf_files) > 1: + raise ValueError("Only one .pyf file per call") + if pyf_files: + pyff = pyf_files[0] + pyf_modname = auxfuncs.get_f2py_modulename(pyff) + if modulename != pyf_modname: + outmess( + f"Ignoring -m {modulename}.\n" + f"{pyff} defines {pyf_modname} to be the modulename.\n" + ) + modulename = pyf_modname + return modulename + +def main(): + if '--help-link' in sys.argv[1:]: + sys.argv.remove('--help-link') + if MESON_ONLY_VER: + outmess("Use --dep for meson builds\n") + else: + from numpy.distutils.system_info import show_all + show_all() + return + + if '-c' in sys.argv[1:]: + run_compile() + else: + run_main(sys.argv[1:]) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f90mod_rules.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f90mod_rules.py new file mode 100644 index 0000000000000000000000000000000000000000..2f8a8dc1878ad7670b96046a570d01a2d9b8ce3c --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/f90mod_rules.py @@ -0,0 +1,264 @@ +""" +Build F90 module support for f2py2e. + +Copyright 1999 -- 2011 Pearu Peterson all rights reserved. +Copyright 2011 -- present NumPy Developers. +Permission to use, modify, and distribute this software is given under the +terms of the NumPy License. + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +""" +__version__ = "$Revision: 1.27 $"[10:-1] + +f2py_version = 'See `f2py -v`' + +import numpy as np + +from . import capi_maps +from . import func2subr +from .crackfortran import undo_rmbadname, undo_rmbadname1 + +# The environment provided by auxfuncs.py is needed for some calls to eval. +# As the needed functions cannot be determined by static inspection of the +# code, it is safest to use import * pending a major refactoring of f2py. +from .auxfuncs import * + +options = {} + + +def findf90modules(m): + if ismodule(m): + return [m] + if not hasbody(m): + return [] + ret = [] + for b in m['body']: + if ismodule(b): + ret.append(b) + else: + ret = ret + findf90modules(b) + return ret + +fgetdims1 = """\ + external f2pysetdata + logical ns + integer r,i + integer(%d) s(*) + ns = .FALSE. + if (allocated(d)) then + do i=1,r + if ((size(d,i).ne.s(i)).and.(s(i).ge.0)) then + ns = .TRUE. + end if + end do + if (ns) then + deallocate(d) + end if + end if + if ((.not.allocated(d)).and.(s(1).ge.1)) then""" % np.intp().itemsize + +fgetdims2 = """\ + end if + if (allocated(d)) then + do i=1,r + s(i) = size(d,i) + end do + end if + flag = 1 + call f2pysetdata(d,allocated(d))""" + +fgetdims2_sa = """\ + end if + if (allocated(d)) then + do i=1,r + s(i) = size(d,i) + end do + !s(r) must be equal to len(d(1)) + end if + flag = 2 + call f2pysetdata(d,allocated(d))""" + + +def buildhooks(pymod): + from . import rules + ret = {'f90modhooks': [], 'initf90modhooks': [], 'body': [], + 'need': ['F_FUNC', 'arrayobject.h'], + 'separatorsfor': {'includes0': '\n', 'includes': '\n'}, + 'docs': ['"Fortran 90/95 modules:\\n"'], + 'latexdoc': []} + fhooks = [''] + + def fadd(line, s=fhooks): + s[0] = '%s\n %s' % (s[0], line) + doc = [''] + + def dadd(line, s=doc): + s[0] = '%s\n%s' % (s[0], line) + + usenames = getuseblocks(pymod) + for m in findf90modules(pymod): + sargs, fargs, efargs, modobjs, notvars, onlyvars = [], [], [], [], [ + m['name']], [] + sargsp = [] + ifargs = [] + mfargs = [] + if hasbody(m): + for b in m['body']: + notvars.append(b['name']) + for n in m['vars'].keys(): + var = m['vars'][n] + if (n not in notvars) and (not l_or(isintent_hide, isprivate)(var)): + onlyvars.append(n) + mfargs.append(n) + outmess('\t\tConstructing F90 module support for "%s"...\n' % + (m['name'])) + if m['name'] in usenames and not onlyvars: + outmess(f"\t\t\tSkipping {m['name']} since it is in 'use'...\n") + continue + if onlyvars: + outmess('\t\t Variables: %s\n' % (' '.join(onlyvars))) + chooks = [''] + + def cadd(line, s=chooks): + s[0] = '%s\n%s' % (s[0], line) + ihooks = [''] + + def iadd(line, s=ihooks): + s[0] = '%s\n%s' % (s[0], line) + + vrd = capi_maps.modsign2map(m) + cadd('static FortranDataDef f2py_%s_def[] = {' % (m['name'])) + dadd('\\subsection{Fortran 90/95 module \\texttt{%s}}\n' % (m['name'])) + if hasnote(m): + note = m['note'] + if isinstance(note, list): + note = '\n'.join(note) + dadd(note) + if onlyvars: + dadd('\\begin{description}') + for n in onlyvars: + var = m['vars'][n] + modobjs.append(n) + ct = capi_maps.getctype(var) + at = capi_maps.c2capi_map[ct] + dm = capi_maps.getarrdims(n, var) + dms = dm['dims'].replace('*', '-1').strip() + dms = dms.replace(':', '-1').strip() + if not dms: + dms = '-1' + use_fgetdims2 = fgetdims2 + cadd('\t{"%s",%s,{{%s}},%s, %s},' % + (undo_rmbadname1(n), dm['rank'], dms, at, + capi_maps.get_elsize(var))) + dadd('\\item[]{{}\\verb@%s@{}}' % + (capi_maps.getarrdocsign(n, var))) + if hasnote(var): + note = var['note'] + if isinstance(note, list): + note = '\n'.join(note) + dadd('--- %s' % (note)) + if isallocatable(var): + fargs.append('f2py_%s_getdims_%s' % (m['name'], n)) + efargs.append(fargs[-1]) + sargs.append( + 'void (*%s)(int*,npy_intp*,void(*)(char*,npy_intp*),int*)' % (n)) + sargsp.append('void (*)(int*,npy_intp*,void(*)(char*,npy_intp*),int*)') + iadd('\tf2py_%s_def[i_f2py++].func = %s;' % (m['name'], n)) + fadd('subroutine %s(r,s,f2pysetdata,flag)' % (fargs[-1])) + fadd('use %s, only: d => %s\n' % + (m['name'], undo_rmbadname1(n))) + fadd('integer flag\n') + fhooks[0] = fhooks[0] + fgetdims1 + dms = range(1, int(dm['rank']) + 1) + fadd(' allocate(d(%s))\n' % + (','.join(['s(%s)' % i for i in dms]))) + fhooks[0] = fhooks[0] + use_fgetdims2 + fadd('end subroutine %s' % (fargs[-1])) + else: + fargs.append(n) + sargs.append('char *%s' % (n)) + sargsp.append('char*') + iadd('\tf2py_%s_def[i_f2py++].data = %s;' % (m['name'], n)) + if onlyvars: + dadd('\\end{description}') + if hasbody(m): + for b in m['body']: + if not isroutine(b): + outmess("f90mod_rules.buildhooks:" + f" skipping {b['block']} {b['name']}\n") + continue + modobjs.append('%s()' % (b['name'])) + b['modulename'] = m['name'] + api, wrap = rules.buildapi(b) + if isfunction(b): + fhooks[0] = fhooks[0] + wrap + fargs.append('f2pywrap_%s_%s' % (m['name'], b['name'])) + ifargs.append(func2subr.createfuncwrapper(b, signature=1)) + else: + if wrap: + fhooks[0] = fhooks[0] + wrap + fargs.append('f2pywrap_%s_%s' % (m['name'], b['name'])) + ifargs.append( + func2subr.createsubrwrapper(b, signature=1)) + else: + fargs.append(b['name']) + mfargs.append(fargs[-1]) + api['externroutines'] = [] + ar = applyrules(api, vrd) + ar['docs'] = [] + ar['docshort'] = [] + ret = dictappend(ret, ar) + cadd(('\t{"%s",-1,{{-1}},0,0,NULL,(void *)' + 'f2py_rout_#modulename#_%s_%s,' + 'doc_f2py_rout_#modulename#_%s_%s},') + % (b['name'], m['name'], b['name'], m['name'], b['name'])) + sargs.append('char *%s' % (b['name'])) + sargsp.append('char *') + iadd('\tf2py_%s_def[i_f2py++].data = %s;' % + (m['name'], b['name'])) + cadd('\t{NULL}\n};\n') + iadd('}') + ihooks[0] = 'static void f2py_setup_%s(%s) {\n\tint i_f2py=0;%s' % ( + m['name'], ','.join(sargs), ihooks[0]) + if '_' in m['name']: + F_FUNC = 'F_FUNC_US' + else: + F_FUNC = 'F_FUNC' + iadd('extern void %s(f2pyinit%s,F2PYINIT%s)(void (*)(%s));' + % (F_FUNC, m['name'], m['name'].upper(), ','.join(sargsp))) + iadd('static void f2py_init_%s(void) {' % (m['name'])) + iadd('\t%s(f2pyinit%s,F2PYINIT%s)(f2py_setup_%s);' + % (F_FUNC, m['name'], m['name'].upper(), m['name'])) + iadd('}\n') + ret['f90modhooks'] = ret['f90modhooks'] + chooks + ihooks + ret['initf90modhooks'] = ['\tPyDict_SetItemString(d, "%s", PyFortranObject_New(f2py_%s_def,f2py_init_%s));' % ( + m['name'], m['name'], m['name'])] + ret['initf90modhooks'] + fadd('') + fadd('subroutine f2pyinit%s(f2pysetupfunc)' % (m['name'])) + if mfargs: + for a in undo_rmbadname(mfargs): + fadd('use %s, only : %s' % (m['name'], a)) + if ifargs: + fadd(' '.join(['interface'] + ifargs)) + fadd('end interface') + fadd('external f2pysetupfunc') + if efargs: + for a in undo_rmbadname(efargs): + fadd('external %s' % (a)) + fadd('call f2pysetupfunc(%s)' % (','.join(undo_rmbadname(fargs)))) + fadd('end subroutine f2pyinit%s\n' % (m['name'])) + + dadd('\n'.join(ret['latexdoc']).replace( + r'\subsection{', r'\subsubsection{')) + + ret['latexdoc'] = [] + ret['docs'].append('"\t%s --- %s"' % (m['name'], + ','.join(undo_rmbadname(modobjs)))) + + ret['routine_defs'] = '' + ret['doc'] = [] + ret['docshort'] = [] + ret['latexdoc'] = doc[0] + if len(ret['docs']) <= 1: + ret['docs'] = '' + return ret, fhooks[0] diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/setup.cfg b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/setup.cfg new file mode 100644 index 0000000000000000000000000000000000000000..14669544cc9ec345373bf5f719e321348fc96a40 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/setup.cfg @@ -0,0 +1,3 @@ +[bdist_rpm] +doc_files = docs/ + tests/ \ No newline at end of file diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/__init__.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/accesstype.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/accesstype.f90 new file mode 100644 index 0000000000000000000000000000000000000000..e2cbd445daf57f21e2d727f42a3891ec28725175 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/accesstype.f90 @@ -0,0 +1,13 @@ +module foo + public + type, private, bind(c) :: a + integer :: i + end type a + type, bind(c) :: b_ + integer :: j + end type b_ + public :: b_ + type :: c + integer :: k + end type c +end module foo diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_common.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_common.f new file mode 100644 index 0000000000000000000000000000000000000000..5ffd865c837997f8aae2d8faebfd519df61d8cd2 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_common.f @@ -0,0 +1,8 @@ + BLOCK DATA PARAM_INI + COMMON /MYCOM/ MYDATA + DATA MYDATA /0/ + END + SUBROUTINE SUB1 + COMMON /MYCOM/ MYDATA + MYDATA = MYDATA + 1 + END diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_multiplier.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_multiplier.f new file mode 100644 index 0000000000000000000000000000000000000000..19ff8a83e97b7a1fa9ef82a2f4d5241ec422cb01 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_multiplier.f @@ -0,0 +1,5 @@ + BLOCK DATA MYBLK + IMPLICIT DOUBLE PRECISION (A-H,O-Z) + COMMON /MYCOM/ IVAR1, IVAR2, IVAR3, IVAR4, EVAR5 + DATA IVAR1, IVAR2, IVAR3, IVAR4, EVAR5 /2*3,2*2,0.0D0/ + END diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_stmts.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_stmts.f90 new file mode 100644 index 0000000000000000000000000000000000000000..576c5e485baf209aea79f566fc09cb20138a0a25 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/data_stmts.f90 @@ -0,0 +1,20 @@ +! gh-23276 +module cmplxdat + implicit none + integer :: i, j + real :: x, y + real, dimension(2) :: z + real(kind=8) :: pi + complex(kind=8), target :: medium_ref_index + complex(kind=8), target :: ref_index_one, ref_index_two + complex(kind=8), dimension(2) :: my_array + real(kind=8), dimension(3) :: my_real_array = (/1.0d0, 2.0d0, 3.0d0/) + + data i, j / 2, 3 / + data x, y / 1.5, 2.0 / + data z / 3.5, 7.0 / + data medium_ref_index / (1.d0, 0.d0) / + data ref_index_one, ref_index_two / (13.0d0, 21.0d0), (-30.0d0, 43.0d0) / + data my_array / (1.0d0, 2.0d0), (-3.0d0, 4.0d0) / + data pi / 3.1415926535897932384626433832795028841971693993751058209749445923078164062d0 / +end module cmplxdat diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh15035.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh15035.f new file mode 100644 index 0000000000000000000000000000000000000000..1bb2e6745952cb10067116e9ae3337c8314061ee --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh15035.f @@ -0,0 +1,16 @@ + subroutine subb(k) + real(8), intent(inout) :: k(:) + k=k+1 + endsubroutine + + subroutine subc(w,k) + real(8), intent(in) :: w(:) + real(8), intent(out) :: k(size(w)) + k=w+1 + endsubroutine + + function t0(value) + character value + character t0 + t0 = value + endfunction diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh17859.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh17859.f new file mode 100644 index 0000000000000000000000000000000000000000..995953845c5eb1b4fa2bdf70c18e0296d38e5252 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh17859.f @@ -0,0 +1,12 @@ + integer(8) function external_as_statement(fcn) + implicit none + external fcn + integer(8) :: fcn + external_as_statement = fcn(0) + end + + integer(8) function external_as_attribute(fcn) + implicit none + integer(8), external :: fcn + external_as_attribute = fcn(0) + end diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh22648.pyf b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh22648.pyf new file mode 100644 index 0000000000000000000000000000000000000000..b3454f18635fc8fe2b8ea5d15f85a9d77af9a22b --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh22648.pyf @@ -0,0 +1,7 @@ +python module iri16py ! in + interface ! in :iri16py + block data ! in :iri16py:iridreg_modified.for + COMMON /fircom/ eden,tabhe,tabla,tabmo,tabza,tabfl + end block data + end interface +end python module iri16py diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23533.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23533.f new file mode 100644 index 0000000000000000000000000000000000000000..db522afa7d2fdd09e26f2d02a649a659d9ed7d60 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23533.f @@ -0,0 +1,5 @@ + SUBROUTINE EXAMPLE( ) + IF( .TRUE. ) THEN + CALL DO_SOMETHING() + END IF ! ** .TRUE. ** + END diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23598.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23598.f90 new file mode 100644 index 0000000000000000000000000000000000000000..e0dffb5ef29e3d5ba853ff4dfeda57b2bed6a9dc --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23598.f90 @@ -0,0 +1,4 @@ +integer function intproduct(a, b) result(res) + integer, intent(in) :: a, b + res = a*b +end function diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23879.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23879.f90 new file mode 100644 index 0000000000000000000000000000000000000000..fac262d53c9d3f0f3a5ba1138594f5b694b95717 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh23879.f90 @@ -0,0 +1,20 @@ +module gh23879 + implicit none + private + public :: foo + + contains + + subroutine foo(a, b) + integer, intent(in) :: a + integer, intent(out) :: b + b = a + call bar(b) + end subroutine + + subroutine bar(x) + integer, intent(inout) :: x + x = 2*x + end subroutine + + end module gh23879 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh2848.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh2848.f90 new file mode 100644 index 0000000000000000000000000000000000000000..31ea9327a4d9134011cfc668cc88961968756d77 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/gh2848.f90 @@ -0,0 +1,13 @@ + subroutine gh2848( & + ! first 2 parameters + par1, par2,& + ! last 2 parameters + par3, par4) + + integer, intent(in) :: par1, par2 + integer, intent(out) :: par3, par4 + + par3 = par1 + par4 = par2 + + end subroutine gh2848 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/operators.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/operators.f90 new file mode 100644 index 0000000000000000000000000000000000000000..1d060a3d2bd5abd12732e6003cec53f36baeba7c --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/operators.f90 @@ -0,0 +1,49 @@ +module foo + type bar + character(len = 32) :: item + end type bar + interface operator(.item.) + module procedure item_int, item_real + end interface operator(.item.) + interface operator(==) + module procedure items_are_equal + end interface operator(==) + interface assignment(=) + module procedure get_int, get_real + end interface assignment(=) +contains + function item_int(val) result(elem) + integer, intent(in) :: val + type(bar) :: elem + + write(elem%item, "(I32)") val + end function item_int + + function item_real(val) result(elem) + real, intent(in) :: val + type(bar) :: elem + + write(elem%item, "(1PE32.12)") val + end function item_real + + function items_are_equal(val1, val2) result(equal) + type(bar), intent(in) :: val1, val2 + logical :: equal + + equal = (val1%item == val2%item) + end function items_are_equal + + subroutine get_real(rval, item) + real, intent(out) :: rval + type(bar), intent(in) :: item + + read(item%item, *) rval + end subroutine get_real + + subroutine get_int(rval, item) + integer, intent(out) :: rval + type(bar), intent(in) :: item + + read(item%item, *) rval + end subroutine get_int +end module foo diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/privatemod.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/privatemod.f90 new file mode 100644 index 0000000000000000000000000000000000000000..2674c214767b33663e51ee1d32ad7a1792c92680 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/privatemod.f90 @@ -0,0 +1,11 @@ +module foo + private + integer :: a + public :: setA + integer :: b +contains + subroutine setA(v) + integer, intent(in) :: v + a = v + end subroutine setA +end module foo diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/pubprivmod.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/pubprivmod.f90 new file mode 100644 index 0000000000000000000000000000000000000000..46bef7cb91122281ddac7d0f0474c2c01b2a5e6f --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/crackfortran/pubprivmod.f90 @@ -0,0 +1,10 @@ +module foo + public + integer, private :: a + integer :: b +contains + subroutine setA(v) + integer, intent(in) :: v + a = v + end subroutine setA +end module foo diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_both.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_both.f90 new file mode 100644 index 0000000000000000000000000000000000000000..ac90cedc525a6172a9b72f3bc76f57b79d641b6c --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_both.f90 @@ -0,0 +1,57 @@ +! Check that parameters are correct intercepted. +! Constants with comma separations are commonly +! used, for instance Pi = 3._dp +subroutine foo(x) + implicit none + integer, parameter :: sp = selected_real_kind(6) + integer, parameter :: dp = selected_real_kind(15) + integer, parameter :: ii = selected_int_kind(9) + integer, parameter :: il = selected_int_kind(18) + real(dp), intent(inout) :: x + dimension x(3) + real(sp), parameter :: three_s = 3._sp + real(dp), parameter :: three_d = 3._dp + integer(ii), parameter :: three_i = 3_ii + integer(il), parameter :: three_l = 3_il + x(1) = x(1) + x(2) * three_s * three_i + x(3) * three_d * three_l + x(2) = x(2) * three_s + x(3) = x(3) * three_l + return +end subroutine + + +subroutine foo_no(x) + implicit none + integer, parameter :: sp = selected_real_kind(6) + integer, parameter :: dp = selected_real_kind(15) + integer, parameter :: ii = selected_int_kind(9) + integer, parameter :: il = selected_int_kind(18) + real(dp), intent(inout) :: x + dimension x(3) + real(sp), parameter :: three_s = 3. + real(dp), parameter :: three_d = 3. + integer(ii), parameter :: three_i = 3 + integer(il), parameter :: three_l = 3 + x(1) = x(1) + x(2) * three_s * three_i + x(3) * three_d * three_l + x(2) = x(2) * three_s + x(3) = x(3) * three_l + return +end subroutine + +subroutine foo_sum(x) + implicit none + integer, parameter :: sp = selected_real_kind(6) + integer, parameter :: dp = selected_real_kind(15) + integer, parameter :: ii = selected_int_kind(9) + integer, parameter :: il = selected_int_kind(18) + real(dp), intent(inout) :: x + dimension x(3) + real(sp), parameter :: three_s = 2._sp + 1._sp + real(dp), parameter :: three_d = 1._dp + 2._dp + integer(ii), parameter :: three_i = 2_ii + 1_ii + integer(il), parameter :: three_l = 1_il + 2_il + x(1) = x(1) + x(2) * three_s * three_i + x(3) * three_d * three_l + x(2) = x(2) * three_s + x(3) = x(3) * three_l + return +end subroutine diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_compound.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_compound.f90 new file mode 100644 index 0000000000000000000000000000000000000000..e51f5e9b2fb166a6b7d9cba57af03617024b7f2a --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_compound.f90 @@ -0,0 +1,15 @@ +! Check that parameters are correct intercepted. +! Constants with comma separations are commonly +! used, for instance Pi = 3._dp +subroutine foo_compound_int(x) + implicit none + integer, parameter :: ii = selected_int_kind(9) + integer(ii), intent(inout) :: x + dimension x(3) + integer(ii), parameter :: three = 3_ii + integer(ii), parameter :: two = 2_ii + integer(ii), parameter :: six = three * 1_ii * two + + x(1) = x(1) + x(2) + x(3) * six + return +end subroutine diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_integer.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_integer.f90 new file mode 100644 index 0000000000000000000000000000000000000000..aaa83d2eb241274231130b6243ca2c970b5664e0 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_integer.f90 @@ -0,0 +1,22 @@ +! Check that parameters are correct intercepted. +! Constants with comma separations are commonly +! used, for instance Pi = 3._dp +subroutine foo_int(x) + implicit none + integer, parameter :: ii = selected_int_kind(9) + integer(ii), intent(inout) :: x + dimension x(3) + integer(ii), parameter :: three = 3_ii + x(1) = x(1) + x(2) + x(3) * three + return +end subroutine + +subroutine foo_long(x) + implicit none + integer, parameter :: ii = selected_int_kind(18) + integer(ii), intent(inout) :: x + dimension x(3) + integer(ii), parameter :: three = 3_ii + x(1) = x(1) + x(2) + x(3) * three + return +end subroutine diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_non_compound.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_non_compound.f90 new file mode 100644 index 0000000000000000000000000000000000000000..62c9a5b943cb768c9270a04d1dbf36d526a4e6e8 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_non_compound.f90 @@ -0,0 +1,23 @@ +! Check that parameters are correct intercepted. +! Specifically that types of constants without +! compound kind specs are correctly inferred +! adapted Gibbs iteration code from pymc +! for this test case +subroutine foo_non_compound_int(x) + implicit none + integer, parameter :: ii = selected_int_kind(9) + + integer(ii) maxiterates + parameter (maxiterates=2) + + integer(ii) maxseries + parameter (maxseries=2) + + integer(ii) wasize + parameter (wasize=maxiterates*maxseries) + integer(ii), intent(inout) :: x + dimension x(wasize) + + x(1) = x(1) + x(2) + x(3) + x(4) * wasize + return +end subroutine diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_real.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_real.f90 new file mode 100644 index 0000000000000000000000000000000000000000..02ac9dd993b39dbb69a233ed1f0d031f15f84639 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/parameter/constant_real.f90 @@ -0,0 +1,23 @@ +! Check that parameters are correct intercepted. +! Constants with comma separations are commonly +! used, for instance Pi = 3._dp +subroutine foo_single(x) + implicit none + integer, parameter :: rp = selected_real_kind(6) + real(rp), intent(inout) :: x + dimension x(3) + real(rp), parameter :: three = 3._rp + x(1) = x(1) + x(2) + x(3) * three + return +end subroutine + +subroutine foo_double(x) + implicit none + integer, parameter :: rp = selected_real_kind(15) + real(rp), intent(inout) :: x + dimension x(3) + real(rp), parameter :: three = 3._rp + x(1) = x(1) + x(2) + x(3) * three + return +end subroutine + diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo77.f b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo77.f new file mode 100644 index 0000000000000000000000000000000000000000..facae1016a39010cca10929837d0a95c44376e21 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo77.f @@ -0,0 +1,45 @@ + function t0(value) + character value + character t0 + t0 = value + end + function t1(value) + character*1 value + character*1 t1 + t1 = value + end + function t5(value) + character*5 value + character*5 t5 + t5 = value + end + function ts(value) + character*(*) value + character*(*) ts + ts = value + end + + subroutine s0(t0,value) + character value + character t0 +cf2py intent(out) t0 + t0 = value + end + subroutine s1(t1,value) + character*1 value + character*1 t1 +cf2py intent(out) t1 + t1 = value + end + subroutine s5(t5,value) + character*5 value + character*5 t5 +cf2py intent(out) t5 + t5 = value + end + subroutine ss(ts,value) + character*(*) value + character*10 ts +cf2py intent(out) ts + ts = value + end diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo90.f90 b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo90.f90 new file mode 100644 index 0000000000000000000000000000000000000000..36182bcf2dd71649130f5afe7ef665ac80d64af9 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/src/return_character/foo90.f90 @@ -0,0 +1,48 @@ +module f90_return_char + contains + function t0(value) + character :: value + character :: t0 + t0 = value + end function t0 + function t1(value) + character(len=1) :: value + character(len=1) :: t1 + t1 = value + end function t1 + function t5(value) + character(len=5) :: value + character(len=5) :: t5 + t5 = value + end function t5 + function ts(value) + character(len=*) :: value + character(len=10) :: ts + ts = value + end function ts + + subroutine s0(t0,value) + character :: value + character :: t0 +!f2py intent(out) t0 + t0 = value + end subroutine s0 + subroutine s1(t1,value) + character(len=1) :: value + character(len=1) :: t1 +!f2py intent(out) t1 + t1 = value + end subroutine s1 + subroutine s5(t5,value) + character(len=5) :: value + character(len=5) :: t5 +!f2py intent(out) t5 + t5 = value + end subroutine s5 + subroutine ss(ts,value) + character(len=*) :: value + character(len=10) :: ts +!f2py intent(out) ts + ts = value + end subroutine ss +end module f90_return_char diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_abstract_interface.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_abstract_interface.py new file mode 100644 index 0000000000000000000000000000000000000000..42902913ed755122011587f7834a8babd86ff27e --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_abstract_interface.py @@ -0,0 +1,25 @@ +from pathlib import Path +import pytest +import textwrap +from . import util +from numpy.f2py import crackfortran +from numpy.testing import IS_WASM + + +@pytest.mark.skipif(IS_WASM, reason="Cannot start subprocess") +class TestAbstractInterface(util.F2PyTest): + sources = [util.getpath("tests", "src", "abstract_interface", "foo.f90")] + + skip = ["add1", "add2"] + + def test_abstract_interface(self): + assert self.module.ops_module.foo(3, 5) == (8, 13) + + def test_parse_abstract_interface(self): + # Test gh18403 + fpath = util.getpath("tests", "src", "abstract_interface", + "gh18403_mod.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + assert len(mod[0]["body"]) == 1 + assert mod[0]["body"][0]["block"] == "abstract interface" diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_array_from_pyobj.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_array_from_pyobj.py new file mode 100644 index 0000000000000000000000000000000000000000..2b8c8defca5a8b40cf09dab149925c3c8561a0ef --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_array_from_pyobj.py @@ -0,0 +1,686 @@ +import os +import sys +import copy +import platform +import pytest + +import numpy as np + +from numpy.testing import assert_, assert_equal +from numpy.core.multiarray import typeinfo as _typeinfo +from . import util + +wrap = None + +# Extend core typeinfo with CHARACTER to test dtype('c') +_ti = _typeinfo['STRING'] +typeinfo = dict( + CHARACTER=type(_ti)(('c', _ti.num, 8, _ti.alignment, _ti.type)), + **_typeinfo) + + +def setup_module(): + """ + Build the required testing extension module + + """ + global wrap + + # Check compiler availability first + if not util.has_c_compiler(): + pytest.skip("No C compiler available") + + if wrap is None: + config_code = """ + config.add_extension('test_array_from_pyobj_ext', + sources=['wrapmodule.c', 'fortranobject.c'], + define_macros=[]) + """ + d = os.path.dirname(__file__) + src = [ + util.getpath("tests", "src", "array_from_pyobj", "wrapmodule.c"), + util.getpath("src", "fortranobject.c"), + util.getpath("src", "fortranobject.h"), + ] + wrap = util.build_module_distutils(src, config_code, + "test_array_from_pyobj_ext") + + +def flags_info(arr): + flags = wrap.array_attrs(arr)[6] + return flags2names(flags) + + +def flags2names(flags): + info = [] + for flagname in [ + "CONTIGUOUS", + "FORTRAN", + "OWNDATA", + "ENSURECOPY", + "ENSUREARRAY", + "ALIGNED", + "NOTSWAPPED", + "WRITEABLE", + "WRITEBACKIFCOPY", + "UPDATEIFCOPY", + "BEHAVED", + "BEHAVED_RO", + "CARRAY", + "FARRAY", + ]: + if abs(flags) & getattr(wrap, flagname, 0): + info.append(flagname) + return info + + +class Intent: + def __init__(self, intent_list=[]): + self.intent_list = intent_list[:] + flags = 0 + for i in intent_list: + if i == "optional": + flags |= wrap.F2PY_OPTIONAL + else: + flags |= getattr(wrap, "F2PY_INTENT_" + i.upper()) + self.flags = flags + + def __getattr__(self, name): + name = name.lower() + if name == "in_": + name = "in" + return self.__class__(self.intent_list + [name]) + + def __str__(self): + return "intent(%s)" % (",".join(self.intent_list)) + + def __repr__(self): + return "Intent(%r)" % (self.intent_list) + + def is_intent(self, *names): + for name in names: + if name not in self.intent_list: + return False + return True + + def is_intent_exact(self, *names): + return len(self.intent_list) == len(names) and self.is_intent(*names) + + +intent = Intent() + +_type_names = [ + "BOOL", + "BYTE", + "UBYTE", + "SHORT", + "USHORT", + "INT", + "UINT", + "LONG", + "ULONG", + "LONGLONG", + "ULONGLONG", + "FLOAT", + "DOUBLE", + "CFLOAT", + "STRING1", + "STRING5", + "CHARACTER", +] + +_cast_dict = {"BOOL": ["BOOL"]} +_cast_dict["BYTE"] = _cast_dict["BOOL"] + ["BYTE"] +_cast_dict["UBYTE"] = _cast_dict["BOOL"] + ["UBYTE"] +_cast_dict["BYTE"] = ["BYTE"] +_cast_dict["UBYTE"] = ["UBYTE"] +_cast_dict["SHORT"] = _cast_dict["BYTE"] + ["UBYTE", "SHORT"] +_cast_dict["USHORT"] = _cast_dict["UBYTE"] + ["BYTE", "USHORT"] +_cast_dict["INT"] = _cast_dict["SHORT"] + ["USHORT", "INT"] +_cast_dict["UINT"] = _cast_dict["USHORT"] + ["SHORT", "UINT"] + +_cast_dict["LONG"] = _cast_dict["INT"] + ["LONG"] +_cast_dict["ULONG"] = _cast_dict["UINT"] + ["ULONG"] + +_cast_dict["LONGLONG"] = _cast_dict["LONG"] + ["LONGLONG"] +_cast_dict["ULONGLONG"] = _cast_dict["ULONG"] + ["ULONGLONG"] + +_cast_dict["FLOAT"] = _cast_dict["SHORT"] + ["USHORT", "FLOAT"] +_cast_dict["DOUBLE"] = _cast_dict["INT"] + ["UINT", "FLOAT", "DOUBLE"] + +_cast_dict["CFLOAT"] = _cast_dict["FLOAT"] + ["CFLOAT"] + +_cast_dict['STRING1'] = ['STRING1'] +_cast_dict['STRING5'] = ['STRING5'] +_cast_dict['CHARACTER'] = ['CHARACTER'] + +# 32 bit system malloc typically does not provide the alignment required by +# 16 byte long double types this means the inout intent cannot be satisfied +# and several tests fail as the alignment flag can be randomly true or fals +# when numpy gains an aligned allocator the tests could be enabled again +# +# Furthermore, on macOS ARM64, LONGDOUBLE is an alias for DOUBLE. +if ((np.intp().dtype.itemsize != 4 or np.clongdouble().dtype.alignment <= 8) + and sys.platform != "win32" + and (platform.system(), platform.processor()) != ("Darwin", "arm")): + _type_names.extend(["LONGDOUBLE", "CDOUBLE", "CLONGDOUBLE"]) + _cast_dict["LONGDOUBLE"] = _cast_dict["LONG"] + [ + "ULONG", + "FLOAT", + "DOUBLE", + "LONGDOUBLE", + ] + _cast_dict["CLONGDOUBLE"] = _cast_dict["LONGDOUBLE"] + [ + "CFLOAT", + "CDOUBLE", + "CLONGDOUBLE", + ] + _cast_dict["CDOUBLE"] = _cast_dict["DOUBLE"] + ["CFLOAT", "CDOUBLE"] + + +class Type: + _type_cache = {} + + def __new__(cls, name): + if isinstance(name, np.dtype): + dtype0 = name + name = None + for n, i in typeinfo.items(): + if not isinstance(i, type) and dtype0.type is i.type: + name = n + break + obj = cls._type_cache.get(name.upper(), None) + if obj is not None: + return obj + obj = object.__new__(cls) + obj._init(name) + cls._type_cache[name.upper()] = obj + return obj + + def _init(self, name): + self.NAME = name.upper() + + if self.NAME == 'CHARACTER': + info = typeinfo[self.NAME] + self.type_num = getattr(wrap, 'NPY_STRING') + self.elsize = 1 + self.dtype = np.dtype('c') + elif self.NAME.startswith('STRING'): + info = typeinfo[self.NAME[:6]] + self.type_num = getattr(wrap, 'NPY_STRING') + self.elsize = int(self.NAME[6:] or 0) + self.dtype = np.dtype(f'S{self.elsize}') + else: + info = typeinfo[self.NAME] + self.type_num = getattr(wrap, 'NPY_' + self.NAME) + self.elsize = info.bits // 8 + self.dtype = np.dtype(info.type) + + assert self.type_num == info.num + self.type = info.type + self.dtypechar = info.char + + def __repr__(self): + return (f"Type({self.NAME})|type_num={self.type_num}," + f" dtype={self.dtype}," + f" type={self.type}, elsize={self.elsize}," + f" dtypechar={self.dtypechar}") + + def cast_types(self): + return [self.__class__(_m) for _m in _cast_dict[self.NAME]] + + def all_types(self): + return [self.__class__(_m) for _m in _type_names] + + def smaller_types(self): + bits = typeinfo[self.NAME].alignment + types = [] + for name in _type_names: + if typeinfo[name].alignment < bits: + types.append(Type(name)) + return types + + def equal_types(self): + bits = typeinfo[self.NAME].alignment + types = [] + for name in _type_names: + if name == self.NAME: + continue + if typeinfo[name].alignment == bits: + types.append(Type(name)) + return types + + def larger_types(self): + bits = typeinfo[self.NAME].alignment + types = [] + for name in _type_names: + if typeinfo[name].alignment > bits: + types.append(Type(name)) + return types + + +class Array: + + def __repr__(self): + return (f'Array({self.type}, {self.dims}, {self.intent},' + f' {self.obj})|arr={self.arr}') + + def __init__(self, typ, dims, intent, obj): + self.type = typ + self.dims = dims + self.intent = intent + self.obj_copy = copy.deepcopy(obj) + self.obj = obj + + # arr.dtypechar may be different from typ.dtypechar + self.arr = wrap.call(typ.type_num, + typ.elsize, + dims, intent.flags, obj) + + assert isinstance(self.arr, np.ndarray) + + self.arr_attr = wrap.array_attrs(self.arr) + + if len(dims) > 1: + if self.intent.is_intent("c"): + assert (intent.flags & wrap.F2PY_INTENT_C) + assert not self.arr.flags["FORTRAN"] + assert self.arr.flags["CONTIGUOUS"] + assert (not self.arr_attr[6] & wrap.FORTRAN) + else: + assert (not intent.flags & wrap.F2PY_INTENT_C) + assert self.arr.flags["FORTRAN"] + assert not self.arr.flags["CONTIGUOUS"] + assert (self.arr_attr[6] & wrap.FORTRAN) + + if obj is None: + self.pyarr = None + self.pyarr_attr = None + return + + if intent.is_intent("cache"): + assert isinstance(obj, np.ndarray), repr(type(obj)) + self.pyarr = np.array(obj).reshape(*dims).copy() + else: + self.pyarr = np.array( + np.array(obj, dtype=typ.dtypechar).reshape(*dims), + order=self.intent.is_intent("c") and "C" or "F", + ) + assert self.pyarr.dtype == typ + self.pyarr.setflags(write=self.arr.flags["WRITEABLE"]) + assert self.pyarr.flags["OWNDATA"], (obj, intent) + self.pyarr_attr = wrap.array_attrs(self.pyarr) + + if len(dims) > 1: + if self.intent.is_intent("c"): + assert not self.pyarr.flags["FORTRAN"] + assert self.pyarr.flags["CONTIGUOUS"] + assert (not self.pyarr_attr[6] & wrap.FORTRAN) + else: + assert self.pyarr.flags["FORTRAN"] + assert not self.pyarr.flags["CONTIGUOUS"] + assert (self.pyarr_attr[6] & wrap.FORTRAN) + + assert self.arr_attr[1] == self.pyarr_attr[1] # nd + assert self.arr_attr[2] == self.pyarr_attr[2] # dimensions + if self.arr_attr[1] <= 1: + assert self.arr_attr[3] == self.pyarr_attr[3], repr(( + self.arr_attr[3], + self.pyarr_attr[3], + self.arr.tobytes(), + self.pyarr.tobytes(), + )) # strides + assert self.arr_attr[5][-2:] == self.pyarr_attr[5][-2:], repr(( + self.arr_attr[5], self.pyarr_attr[5] + )) # descr + assert self.arr_attr[6] == self.pyarr_attr[6], repr(( + self.arr_attr[6], + self.pyarr_attr[6], + flags2names(0 * self.arr_attr[6] - self.pyarr_attr[6]), + flags2names(self.arr_attr[6]), + intent, + )) # flags + + if intent.is_intent("cache"): + assert self.arr_attr[5][3] >= self.type.elsize + else: + assert self.arr_attr[5][3] == self.type.elsize + assert (self.arr_equal(self.pyarr, self.arr)) + + if isinstance(self.obj, np.ndarray): + if typ.elsize == Type(obj.dtype).elsize: + if not intent.is_intent("copy") and self.arr_attr[1] <= 1: + assert self.has_shared_memory() + + def arr_equal(self, arr1, arr2): + if arr1.shape != arr2.shape: + return False + return (arr1 == arr2).all() + + def __str__(self): + return str(self.arr) + + def has_shared_memory(self): + """Check that created array shares data with input array.""" + if self.obj is self.arr: + return True + if not isinstance(self.obj, np.ndarray): + return False + obj_attr = wrap.array_attrs(self.obj) + return obj_attr[0] == self.arr_attr[0] + + +class TestIntent: + def test_in_out(self): + assert str(intent.in_.out) == "intent(in,out)" + assert intent.in_.c.is_intent("c") + assert not intent.in_.c.is_intent_exact("c") + assert intent.in_.c.is_intent_exact("c", "in") + assert intent.in_.c.is_intent_exact("in", "c") + assert not intent.in_.is_intent("c") + + +class TestSharedMemory: + + @pytest.fixture(autouse=True, scope="class", params=_type_names) + def setup_type(self, request): + request.cls.type = Type(request.param) + request.cls.array = lambda self, dims, intent, obj: Array( + Type(request.param), dims, intent, obj) + + @property + def num2seq(self): + if self.type.NAME.startswith('STRING'): + elsize = self.type.elsize + return ['1' * elsize, '2' * elsize] + return [1, 2] + + @property + def num23seq(self): + if self.type.NAME.startswith('STRING'): + elsize = self.type.elsize + return [['1' * elsize, '2' * elsize, '3' * elsize], + ['4' * elsize, '5' * elsize, '6' * elsize]] + return [[1, 2, 3], [4, 5, 6]] + + def test_in_from_2seq(self): + a = self.array([2], intent.in_, self.num2seq) + assert not a.has_shared_memory() + + def test_in_from_2casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num2seq, dtype=t.dtype) + a = self.array([len(self.num2seq)], intent.in_, obj) + if t.elsize == self.type.elsize: + assert a.has_shared_memory(), repr((self.type.dtype, t.dtype)) + else: + assert not a.has_shared_memory() + + @pytest.mark.parametrize("write", ["w", "ro"]) + @pytest.mark.parametrize("order", ["C", "F"]) + @pytest.mark.parametrize("inp", ["2seq", "23seq"]) + def test_in_nocopy(self, write, order, inp): + """Test if intent(in) array can be passed without copies""" + seq = getattr(self, "num" + inp) + obj = np.array(seq, dtype=self.type.dtype, order=order) + obj.setflags(write=(write == 'w')) + a = self.array(obj.shape, + ((order == 'C' and intent.in_.c) or intent.in_), obj) + assert a.has_shared_memory() + + def test_inout_2seq(self): + obj = np.array(self.num2seq, dtype=self.type.dtype) + a = self.array([len(self.num2seq)], intent.inout, obj) + assert a.has_shared_memory() + + try: + a = self.array([2], intent.in_.inout, self.num2seq) + except TypeError as msg: + if not str(msg).startswith( + "failed to initialize intent(inout|inplace|cache) array"): + raise + else: + raise SystemError("intent(inout) should have failed on sequence") + + def test_f_inout_23seq(self): + obj = np.array(self.num23seq, dtype=self.type.dtype, order="F") + shape = (len(self.num23seq), len(self.num23seq[0])) + a = self.array(shape, intent.in_.inout, obj) + assert a.has_shared_memory() + + obj = np.array(self.num23seq, dtype=self.type.dtype, order="C") + shape = (len(self.num23seq), len(self.num23seq[0])) + try: + a = self.array(shape, intent.in_.inout, obj) + except ValueError as msg: + if not str(msg).startswith( + "failed to initialize intent(inout) array"): + raise + else: + raise SystemError( + "intent(inout) should have failed on improper array") + + def test_c_inout_23seq(self): + obj = np.array(self.num23seq, dtype=self.type.dtype) + shape = (len(self.num23seq), len(self.num23seq[0])) + a = self.array(shape, intent.in_.c.inout, obj) + assert a.has_shared_memory() + + def test_in_copy_from_2casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num2seq, dtype=t.dtype) + a = self.array([len(self.num2seq)], intent.in_.copy, obj) + assert not a.has_shared_memory() + + def test_c_in_from_23seq(self): + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_, + self.num23seq) + assert not a.has_shared_memory() + + def test_in_from_23casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num23seq, dtype=t.dtype) + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_, obj) + assert not a.has_shared_memory() + + def test_f_in_from_23casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num23seq, dtype=t.dtype, order="F") + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_, obj) + if t.elsize == self.type.elsize: + assert a.has_shared_memory() + else: + assert not a.has_shared_memory() + + def test_c_in_from_23casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num23seq, dtype=t.dtype) + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_.c, obj) + if t.elsize == self.type.elsize: + assert a.has_shared_memory() + else: + assert not a.has_shared_memory() + + def test_f_copy_in_from_23casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num23seq, dtype=t.dtype, order="F") + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_.copy, + obj) + assert not a.has_shared_memory() + + def test_c_copy_in_from_23casttype(self): + for t in self.type.cast_types(): + obj = np.array(self.num23seq, dtype=t.dtype) + a = self.array( + [len(self.num23seq), len(self.num23seq[0])], intent.in_.c.copy, + obj) + assert not a.has_shared_memory() + + def test_in_cache_from_2casttype(self): + for t in self.type.all_types(): + if t.elsize != self.type.elsize: + continue + obj = np.array(self.num2seq, dtype=t.dtype) + shape = (len(self.num2seq), ) + a = self.array(shape, intent.in_.c.cache, obj) + assert a.has_shared_memory() + + a = self.array(shape, intent.in_.cache, obj) + assert a.has_shared_memory() + + obj = np.array(self.num2seq, dtype=t.dtype, order="F") + a = self.array(shape, intent.in_.c.cache, obj) + assert a.has_shared_memory() + + a = self.array(shape, intent.in_.cache, obj) + assert a.has_shared_memory(), repr(t.dtype) + + try: + a = self.array(shape, intent.in_.cache, obj[::-1]) + except ValueError as msg: + if not str(msg).startswith( + "failed to initialize intent(cache) array"): + raise + else: + raise SystemError( + "intent(cache) should have failed on multisegmented array") + + def test_in_cache_from_2casttype_failure(self): + for t in self.type.all_types(): + if t.NAME == 'STRING': + # string elsize is 0, so skipping the test + continue + if t.elsize >= self.type.elsize: + continue + obj = np.array(self.num2seq, dtype=t.dtype) + shape = (len(self.num2seq), ) + try: + self.array(shape, intent.in_.cache, obj) # Should succeed + except ValueError as msg: + if not str(msg).startswith( + "failed to initialize intent(cache) array"): + raise + else: + raise SystemError( + "intent(cache) should have failed on smaller array") + + def test_cache_hidden(self): + shape = (2, ) + a = self.array(shape, intent.cache.hide, None) + assert a.arr.shape == shape + + shape = (2, 3) + a = self.array(shape, intent.cache.hide, None) + assert a.arr.shape == shape + + shape = (-1, 3) + try: + a = self.array(shape, intent.cache.hide, None) + except ValueError as msg: + if not str(msg).startswith( + "failed to create intent(cache|hide)|optional array"): + raise + else: + raise SystemError( + "intent(cache) should have failed on undefined dimensions") + + def test_hidden(self): + shape = (2, ) + a = self.array(shape, intent.hide, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + + shape = (2, 3) + a = self.array(shape, intent.hide, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + assert a.arr.flags["FORTRAN"] and not a.arr.flags["CONTIGUOUS"] + + shape = (2, 3) + a = self.array(shape, intent.c.hide, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + assert not a.arr.flags["FORTRAN"] and a.arr.flags["CONTIGUOUS"] + + shape = (-1, 3) + try: + a = self.array(shape, intent.hide, None) + except ValueError as msg: + if not str(msg).startswith( + "failed to create intent(cache|hide)|optional array"): + raise + else: + raise SystemError( + "intent(hide) should have failed on undefined dimensions") + + def test_optional_none(self): + shape = (2, ) + a = self.array(shape, intent.optional, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + + shape = (2, 3) + a = self.array(shape, intent.optional, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + assert a.arr.flags["FORTRAN"] and not a.arr.flags["CONTIGUOUS"] + + shape = (2, 3) + a = self.array(shape, intent.c.optional, None) + assert a.arr.shape == shape + assert a.arr_equal(a.arr, np.zeros(shape, dtype=self.type.dtype)) + assert not a.arr.flags["FORTRAN"] and a.arr.flags["CONTIGUOUS"] + + def test_optional_from_2seq(self): + obj = self.num2seq + shape = (len(obj), ) + a = self.array(shape, intent.optional, obj) + assert a.arr.shape == shape + assert not a.has_shared_memory() + + def test_optional_from_23seq(self): + obj = self.num23seq + shape = (len(obj), len(obj[0])) + a = self.array(shape, intent.optional, obj) + assert a.arr.shape == shape + assert not a.has_shared_memory() + + a = self.array(shape, intent.optional.c, obj) + assert a.arr.shape == shape + assert not a.has_shared_memory() + + def test_inplace(self): + obj = np.array(self.num23seq, dtype=self.type.dtype) + assert not obj.flags["FORTRAN"] and obj.flags["CONTIGUOUS"] + shape = obj.shape + a = self.array(shape, intent.inplace, obj) + assert obj[1][2] == a.arr[1][2], repr((obj, a.arr)) + a.arr[1][2] = 54 + assert obj[1][2] == a.arr[1][2] == np.array(54, dtype=self.type.dtype) + assert a.arr is obj + assert obj.flags["FORTRAN"] # obj attributes are changed inplace! + assert not obj.flags["CONTIGUOUS"] + + def test_inplace_from_casttype(self): + for t in self.type.cast_types(): + if t is self.type: + continue + obj = np.array(self.num23seq, dtype=t.dtype) + assert obj.dtype.type == t.type + assert obj.dtype.type is not self.type.type + assert not obj.flags["FORTRAN"] and obj.flags["CONTIGUOUS"] + shape = obj.shape + a = self.array(shape, intent.inplace, obj) + assert obj[1][2] == a.arr[1][2], repr((obj, a.arr)) + a.arr[1][2] = 54 + assert obj[1][2] == a.arr[1][2] == np.array(54, + dtype=self.type.dtype) + assert a.arr is obj + assert obj.flags["FORTRAN"] # obj attributes changed inplace! + assert not obj.flags["CONTIGUOUS"] + assert obj.dtype.type is self.type.type # obj changed inplace! diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_assumed_shape.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_assumed_shape.py new file mode 100644 index 0000000000000000000000000000000000000000..d4664cf88cbe9701105a5d428332e3aa0d623930 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_assumed_shape.py @@ -0,0 +1,49 @@ +import os +import pytest +import tempfile + +from . import util + + +class TestAssumedShapeSumExample(util.F2PyTest): + sources = [ + util.getpath("tests", "src", "assumed_shape", "foo_free.f90"), + util.getpath("tests", "src", "assumed_shape", "foo_use.f90"), + util.getpath("tests", "src", "assumed_shape", "precision.f90"), + util.getpath("tests", "src", "assumed_shape", "foo_mod.f90"), + util.getpath("tests", "src", "assumed_shape", ".f2py_f2cmap"), + ] + + @pytest.mark.slow + def test_all(self): + r = self.module.fsum([1, 2]) + assert r == 3 + r = self.module.sum([1, 2]) + assert r == 3 + r = self.module.sum_with_use([1, 2]) + assert r == 3 + + r = self.module.mod.sum([1, 2]) + assert r == 3 + r = self.module.mod.fsum([1, 2]) + assert r == 3 + + +class TestF2cmapOption(TestAssumedShapeSumExample): + def setup_method(self): + # Use a custom file name for .f2py_f2cmap + self.sources = list(self.sources) + f2cmap_src = self.sources.pop(-1) + + self.f2cmap_file = tempfile.NamedTemporaryFile(delete=False) + with open(f2cmap_src, "rb") as f: + self.f2cmap_file.write(f.read()) + self.f2cmap_file.close() + + self.sources.append(self.f2cmap_file.name) + self.options = ["--f2cmap", self.f2cmap_file.name] + + super().setup_method() + + def teardown_method(self): + os.unlink(self.f2cmap_file.name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_block_docstring.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_block_docstring.py new file mode 100644 index 0000000000000000000000000000000000000000..e0eacc0329c5e78733384c21397614a50601fce9 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_block_docstring.py @@ -0,0 +1,17 @@ +import sys +import pytest +from . import util + +from numpy.testing import IS_PYPY + + +class TestBlockDocString(util.F2PyTest): + sources = [util.getpath("tests", "src", "block_docstring", "foo.f")] + + @pytest.mark.skipif(sys.platform == "win32", + reason="Fails with MinGW64 Gfortran (Issue #9673)") + @pytest.mark.xfail(IS_PYPY, + reason="PyPy cannot modify tp_doc after PyType_Ready") + def test_block_docstring(self): + expected = "bar : 'i'-array(2,3)\n" + assert self.module.block.__doc__ == expected diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_callback.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_callback.py new file mode 100644 index 0000000000000000000000000000000000000000..5b6c294d33fcff10c5c1b5488c0124f42d9c1b70 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_callback.py @@ -0,0 +1,243 @@ +import math +import textwrap +import sys +import pytest +import threading +import traceback +import time + +import numpy as np +from numpy.testing import IS_PYPY +from . import util + + +class TestF77Callback(util.F2PyTest): + sources = [util.getpath("tests", "src", "callback", "foo.f")] + + @pytest.mark.parametrize("name", "t,t2".split(",")) + def test_all(self, name): + self.check_function(name) + + @pytest.mark.xfail(IS_PYPY, + reason="PyPy cannot modify tp_doc after PyType_Ready") + def test_docstring(self): + expected = textwrap.dedent("""\ + a = t(fun,[fun_extra_args]) + + Wrapper for ``t``. + + Parameters + ---------- + fun : call-back function + + Other Parameters + ---------------- + fun_extra_args : input tuple, optional + Default: () + + Returns + ------- + a : int + + Notes + ----- + Call-back functions:: + + def fun(): return a + Return objects: + a : int + """) + assert self.module.t.__doc__ == expected + + def check_function(self, name): + t = getattr(self.module, name) + r = t(lambda: 4) + assert r == 4 + r = t(lambda a: 5, fun_extra_args=(6, )) + assert r == 5 + r = t(lambda a: a, fun_extra_args=(6, )) + assert r == 6 + r = t(lambda a: 5 + a, fun_extra_args=(7, )) + assert r == 12 + r = t(lambda a: math.degrees(a), fun_extra_args=(math.pi, )) + assert r == 180 + r = t(math.degrees, fun_extra_args=(math.pi, )) + assert r == 180 + + r = t(self.module.func, fun_extra_args=(6, )) + assert r == 17 + r = t(self.module.func0) + assert r == 11 + r = t(self.module.func0._cpointer) + assert r == 11 + + class A: + def __call__(self): + return 7 + + def mth(self): + return 9 + + a = A() + r = t(a) + assert r == 7 + r = t(a.mth) + assert r == 9 + + @pytest.mark.skipif(sys.platform == 'win32', + reason='Fails with MinGW64 Gfortran (Issue #9673)') + def test_string_callback(self): + def callback(code): + if code == "r": + return 0 + else: + return 1 + + f = getattr(self.module, "string_callback") + r = f(callback) + assert r == 0 + + @pytest.mark.skipif(sys.platform == 'win32', + reason='Fails with MinGW64 Gfortran (Issue #9673)') + def test_string_callback_array(self): + # See gh-10027 + cu1 = np.zeros((1, ), "S8") + cu2 = np.zeros((1, 8), "c") + cu3 = np.array([""], "S8") + + def callback(cu, lencu): + if cu.shape != (lencu,): + return 1 + if cu.dtype != "S8": + return 2 + if not np.all(cu == b""): + return 3 + return 0 + + f = getattr(self.module, "string_callback_array") + for cu in [cu1, cu2, cu3]: + res = f(callback, cu, cu.size) + assert res == 0 + + def test_threadsafety(self): + # Segfaults if the callback handling is not threadsafe + + errors = [] + + def cb(): + # Sleep here to make it more likely for another thread + # to call their callback at the same time. + time.sleep(1e-3) + + # Check reentrancy + r = self.module.t(lambda: 123) + assert r == 123 + + return 42 + + def runner(name): + try: + for j in range(50): + r = self.module.t(cb) + assert r == 42 + self.check_function(name) + except Exception: + errors.append(traceback.format_exc()) + + threads = [ + threading.Thread(target=runner, args=(arg, )) + for arg in ("t", "t2") for n in range(20) + ] + + for t in threads: + t.start() + + for t in threads: + t.join() + + errors = "\n\n".join(errors) + if errors: + raise AssertionError(errors) + + def test_hidden_callback(self): + try: + self.module.hidden_callback(2) + except Exception as msg: + assert str(msg).startswith("Callback global_f not defined") + + try: + self.module.hidden_callback2(2) + except Exception as msg: + assert str(msg).startswith("cb: Callback global_f not defined") + + self.module.global_f = lambda x: x + 1 + r = self.module.hidden_callback(2) + assert r == 3 + + self.module.global_f = lambda x: x + 2 + r = self.module.hidden_callback(2) + assert r == 4 + + del self.module.global_f + try: + self.module.hidden_callback(2) + except Exception as msg: + assert str(msg).startswith("Callback global_f not defined") + + self.module.global_f = lambda x=0: x + 3 + r = self.module.hidden_callback(2) + assert r == 5 + + # reproducer of gh18341 + r = self.module.hidden_callback2(2) + assert r == 3 + + +class TestF77CallbackPythonTLS(TestF77Callback): + """ + Callback tests using Python thread-local storage instead of + compiler-provided + """ + + options = ["-DF2PY_USE_PYTHON_TLS"] + + +class TestF90Callback(util.F2PyTest): + sources = [util.getpath("tests", "src", "callback", "gh17797.f90")] + + def test_gh17797(self): + def incr(x): + return x + 123 + + y = np.array([1, 2, 3], dtype=np.int64) + r = self.module.gh17797(incr, y) + assert r == 123 + 1 + 2 + 3 + + +class TestGH18335(util.F2PyTest): + """The reproduction of the reported issue requires specific input that + extensions may break the issue conditions, so the reproducer is + implemented as a separate test class. Do not extend this test with + other tests! + """ + sources = [util.getpath("tests", "src", "callback", "gh18335.f90")] + + def test_gh18335(self): + def foo(x): + x[0] += 1 + + r = self.module.gh18335(foo) + assert r == 123 + 1 + + +class TestGH25211(util.F2PyTest): + sources = [util.getpath("tests", "src", "callback", "gh25211.f"), + util.getpath("tests", "src", "callback", "gh25211.pyf")] + module_name = "callback2" + + def test_gh18335(self): + def bar(x): + return x*x + + res = self.module.foo(bar) + assert res == 110 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_character.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_character.py new file mode 100644 index 0000000000000000000000000000000000000000..e55b1b6b233fd79bd7f8cb7167ced242e54b1120 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_character.py @@ -0,0 +1,636 @@ +import pytest +import textwrap +from numpy.testing import assert_array_equal, assert_equal, assert_raises +import numpy as np +from numpy.f2py.tests import util + + +class TestCharacterString(util.F2PyTest): + # options = ['--debug-capi', '--build-dir', '/tmp/test-build-f2py'] + suffix = '.f90' + fprefix = 'test_character_string' + length_list = ['1', '3', 'star'] + + code = '' + for length in length_list: + fsuffix = length + clength = dict(star='(*)').get(length, length) + + code += textwrap.dedent(f""" + + subroutine {fprefix}_input_{fsuffix}(c, o, n) + character*{clength}, intent(in) :: c + integer n + !f2py integer, depend(c), intent(hide) :: n = slen(c) + integer*1, dimension(n) :: o + !f2py intent(out) o + o = transfer(c, o) + end subroutine {fprefix}_input_{fsuffix} + + subroutine {fprefix}_output_{fsuffix}(c, o, n) + character*{clength}, intent(out) :: c + integer n + integer*1, dimension(n), intent(in) :: o + !f2py integer, depend(o), intent(hide) :: n = len(o) + c = transfer(o, c) + end subroutine {fprefix}_output_{fsuffix} + + subroutine {fprefix}_array_input_{fsuffix}(c, o, m, n) + integer m, i, n + character*{clength}, intent(in), dimension(m) :: c + !f2py integer, depend(c), intent(hide) :: m = len(c) + !f2py integer, depend(c), intent(hide) :: n = f2py_itemsize(c) + integer*1, dimension(m, n), intent(out) :: o + do i=1,m + o(i, :) = transfer(c(i), o(i, :)) + end do + end subroutine {fprefix}_array_input_{fsuffix} + + subroutine {fprefix}_array_output_{fsuffix}(c, o, m, n) + character*{clength}, intent(out), dimension(m) :: c + integer n + integer*1, dimension(m, n), intent(in) :: o + !f2py character(f2py_len=n) :: c + !f2py integer, depend(o), intent(hide) :: m = len(o) + !f2py integer, depend(o), intent(hide) :: n = shape(o, 1) + do i=1,m + c(i) = transfer(o(i, :), c(i)) + end do + end subroutine {fprefix}_array_output_{fsuffix} + + subroutine {fprefix}_2d_array_input_{fsuffix}(c, o, m1, m2, n) + integer m1, m2, i, j, n + character*{clength}, intent(in), dimension(m1, m2) :: c + !f2py integer, depend(c), intent(hide) :: m1 = len(c) + !f2py integer, depend(c), intent(hide) :: m2 = shape(c, 1) + !f2py integer, depend(c), intent(hide) :: n = f2py_itemsize(c) + integer*1, dimension(m1, m2, n), intent(out) :: o + do i=1,m1 + do j=1,m2 + o(i, j, :) = transfer(c(i, j), o(i, j, :)) + end do + end do + end subroutine {fprefix}_2d_array_input_{fsuffix} + """) + + @pytest.mark.parametrize("length", length_list) + def test_input(self, length): + fsuffix = {'(*)': 'star'}.get(length, length) + f = getattr(self.module, self.fprefix + '_input_' + fsuffix) + + a = {'1': 'a', '3': 'abc', 'star': 'abcde' * 3}[length] + + assert_array_equal(f(a), np.array(list(map(ord, a)), dtype='u1')) + + @pytest.mark.parametrize("length", length_list[:-1]) + def test_output(self, length): + fsuffix = length + f = getattr(self.module, self.fprefix + '_output_' + fsuffix) + + a = {'1': 'a', '3': 'abc'}[length] + + assert_array_equal(f(np.array(list(map(ord, a)), dtype='u1')), + a.encode()) + + @pytest.mark.parametrize("length", length_list) + def test_array_input(self, length): + fsuffix = length + f = getattr(self.module, self.fprefix + '_array_input_' + fsuffix) + + a = np.array([{'1': 'a', '3': 'abc', 'star': 'abcde' * 3}[length], + {'1': 'A', '3': 'ABC', 'star': 'ABCDE' * 3}[length], + ], dtype='S') + + expected = np.array([[c for c in s] for s in a], dtype='u1') + assert_array_equal(f(a), expected) + + @pytest.mark.parametrize("length", length_list) + def test_array_output(self, length): + fsuffix = length + f = getattr(self.module, self.fprefix + '_array_output_' + fsuffix) + + expected = np.array( + [{'1': 'a', '3': 'abc', 'star': 'abcde' * 3}[length], + {'1': 'A', '3': 'ABC', 'star': 'ABCDE' * 3}[length]], dtype='S') + + a = np.array([[c for c in s] for s in expected], dtype='u1') + assert_array_equal(f(a), expected) + + @pytest.mark.parametrize("length", length_list) + def test_2d_array_input(self, length): + fsuffix = length + f = getattr(self.module, self.fprefix + '_2d_array_input_' + fsuffix) + + a = np.array([[{'1': 'a', '3': 'abc', 'star': 'abcde' * 3}[length], + {'1': 'A', '3': 'ABC', 'star': 'ABCDE' * 3}[length]], + [{'1': 'f', '3': 'fgh', 'star': 'fghij' * 3}[length], + {'1': 'F', '3': 'FGH', 'star': 'FGHIJ' * 3}[length]]], + dtype='S') + expected = np.array([[[c for c in item] for item in row] for row in a], + dtype='u1', order='F') + assert_array_equal(f(a), expected) + + +class TestCharacter(util.F2PyTest): + # options = ['--debug-capi', '--build-dir', '/tmp/test-build-f2py'] + suffix = '.f90' + fprefix = 'test_character' + + code = textwrap.dedent(f""" + subroutine {fprefix}_input(c, o) + character, intent(in) :: c + integer*1 o + !f2py intent(out) o + o = transfer(c, o) + end subroutine {fprefix}_input + + subroutine {fprefix}_output(c, o) + character :: c + integer*1, intent(in) :: o + !f2py intent(out) c + c = transfer(o, c) + end subroutine {fprefix}_output + + subroutine {fprefix}_input_output(c, o) + character, intent(in) :: c + character o + !f2py intent(out) o + o = c + end subroutine {fprefix}_input_output + + subroutine {fprefix}_inout(c, n) + character :: c, n + !f2py intent(in) n + !f2py intent(inout) c + c = n + end subroutine {fprefix}_inout + + function {fprefix}_return(o) result (c) + character :: c + character, intent(in) :: o + c = transfer(o, c) + end function {fprefix}_return + + subroutine {fprefix}_array_input(c, o) + character, intent(in) :: c(3) + integer*1 o(3) + !f2py intent(out) o + integer i + do i=1,3 + o(i) = transfer(c(i), o(i)) + end do + end subroutine {fprefix}_array_input + + subroutine {fprefix}_2d_array_input(c, o) + character, intent(in) :: c(2, 3) + integer*1 o(2, 3) + !f2py intent(out) o + integer i, j + do i=1,2 + do j=1,3 + o(i, j) = transfer(c(i, j), o(i, j)) + end do + end do + end subroutine {fprefix}_2d_array_input + + subroutine {fprefix}_array_output(c, o) + character :: c(3) + integer*1, intent(in) :: o(3) + !f2py intent(out) c + do i=1,3 + c(i) = transfer(o(i), c(i)) + end do + end subroutine {fprefix}_array_output + + subroutine {fprefix}_array_inout(c, n) + character :: c(3), n(3) + !f2py intent(in) n(3) + !f2py intent(inout) c(3) + do i=1,3 + c(i) = n(i) + end do + end subroutine {fprefix}_array_inout + + subroutine {fprefix}_2d_array_inout(c, n) + character :: c(2, 3), n(2, 3) + !f2py intent(in) n(2, 3) + !f2py intent(inout) c(2. 3) + integer i, j + do i=1,2 + do j=1,3 + c(i, j) = n(i, j) + end do + end do + end subroutine {fprefix}_2d_array_inout + + function {fprefix}_array_return(o) result (c) + character, dimension(3) :: c + character, intent(in) :: o(3) + do i=1,3 + c(i) = o(i) + end do + end function {fprefix}_array_return + + function {fprefix}_optional(o) result (c) + character, intent(in) :: o + !f2py character o = "a" + character :: c + c = o + end function {fprefix}_optional + """) + + @pytest.mark.parametrize("dtype", ['c', 'S1']) + def test_input(self, dtype): + f = getattr(self.module, self.fprefix + '_input') + + assert_equal(f(np.array('a', dtype=dtype)), ord('a')) + assert_equal(f(np.array(b'a', dtype=dtype)), ord('a')) + assert_equal(f(np.array(['a'], dtype=dtype)), ord('a')) + assert_equal(f(np.array('abc', dtype=dtype)), ord('a')) + assert_equal(f(np.array([['a']], dtype=dtype)), ord('a')) + + def test_input_varia(self): + f = getattr(self.module, self.fprefix + '_input') + + assert_equal(f('a'), ord('a')) + assert_equal(f(b'a'), ord(b'a')) + assert_equal(f(''), 0) + assert_equal(f(b''), 0) + assert_equal(f(b'\0'), 0) + assert_equal(f('ab'), ord('a')) + assert_equal(f(b'ab'), ord('a')) + assert_equal(f(['a']), ord('a')) + + assert_equal(f(np.array(b'a')), ord('a')) + assert_equal(f(np.array([b'a'])), ord('a')) + a = np.array('a') + assert_equal(f(a), ord('a')) + a = np.array(['a']) + assert_equal(f(a), ord('a')) + + try: + f([]) + except IndexError as msg: + if not str(msg).endswith(' got 0-list'): + raise + else: + raise SystemError(f'{f.__name__} should have failed on empty list') + + try: + f(97) + except TypeError as msg: + if not str(msg).endswith(' got int instance'): + raise + else: + raise SystemError(f'{f.__name__} should have failed on int value') + + @pytest.mark.parametrize("dtype", ['c', 'S1', 'U1']) + def test_array_input(self, dtype): + f = getattr(self.module, self.fprefix + '_array_input') + + assert_array_equal(f(np.array(['a', 'b', 'c'], dtype=dtype)), + np.array(list(map(ord, 'abc')), dtype='i1')) + assert_array_equal(f(np.array([b'a', b'b', b'c'], dtype=dtype)), + np.array(list(map(ord, 'abc')), dtype='i1')) + + def test_array_input_varia(self): + f = getattr(self.module, self.fprefix + '_array_input') + assert_array_equal(f(['a', 'b', 'c']), + np.array(list(map(ord, 'abc')), dtype='i1')) + assert_array_equal(f([b'a', b'b', b'c']), + np.array(list(map(ord, 'abc')), dtype='i1')) + + try: + f(['a', 'b', 'c', 'd']) + except ValueError as msg: + if not str(msg).endswith( + 'th dimension must be fixed to 3 but got 4'): + raise + else: + raise SystemError( + f'{f.__name__} should have failed on wrong input') + + @pytest.mark.parametrize("dtype", ['c', 'S1', 'U1']) + def test_2d_array_input(self, dtype): + f = getattr(self.module, self.fprefix + '_2d_array_input') + + a = np.array([['a', 'b', 'c'], + ['d', 'e', 'f']], dtype=dtype, order='F') + expected = a.view(np.uint32 if dtype == 'U1' else np.uint8) + assert_array_equal(f(a), expected) + + def test_output(self): + f = getattr(self.module, self.fprefix + '_output') + + assert_equal(f(ord(b'a')), b'a') + assert_equal(f(0), b'\0') + + def test_array_output(self): + f = getattr(self.module, self.fprefix + '_array_output') + + assert_array_equal(f(list(map(ord, 'abc'))), + np.array(list('abc'), dtype='S1')) + + def test_input_output(self): + f = getattr(self.module, self.fprefix + '_input_output') + + assert_equal(f(b'a'), b'a') + assert_equal(f('a'), b'a') + assert_equal(f(''), b'\0') + + @pytest.mark.parametrize("dtype", ['c', 'S1']) + def test_inout(self, dtype): + f = getattr(self.module, self.fprefix + '_inout') + + a = np.array(list('abc'), dtype=dtype) + f(a, 'A') + assert_array_equal(a, np.array(list('Abc'), dtype=a.dtype)) + f(a[1:], 'B') + assert_array_equal(a, np.array(list('ABc'), dtype=a.dtype)) + + a = np.array(['abc'], dtype=dtype) + f(a, 'A') + assert_array_equal(a, np.array(['Abc'], dtype=a.dtype)) + + def test_inout_varia(self): + f = getattr(self.module, self.fprefix + '_inout') + a = np.array('abc', dtype='S3') + f(a, 'A') + assert_array_equal(a, np.array('Abc', dtype=a.dtype)) + + a = np.array(['abc'], dtype='S3') + f(a, 'A') + assert_array_equal(a, np.array(['Abc'], dtype=a.dtype)) + + try: + f('abc', 'A') + except ValueError as msg: + if not str(msg).endswith(' got 3-str'): + raise + else: + raise SystemError(f'{f.__name__} should have failed on str value') + + @pytest.mark.parametrize("dtype", ['c', 'S1']) + def test_array_inout(self, dtype): + f = getattr(self.module, self.fprefix + '_array_inout') + n = np.array(['A', 'B', 'C'], dtype=dtype, order='F') + + a = np.array(['a', 'b', 'c'], dtype=dtype, order='F') + f(a, n) + assert_array_equal(a, n) + + a = np.array(['a', 'b', 'c', 'd'], dtype=dtype) + f(a[1:], n) + assert_array_equal(a, np.array(['a', 'A', 'B', 'C'], dtype=dtype)) + + a = np.array([['a', 'b', 'c']], dtype=dtype, order='F') + f(a, n) + assert_array_equal(a, np.array([['A', 'B', 'C']], dtype=dtype)) + + a = np.array(['a', 'b', 'c', 'd'], dtype=dtype, order='F') + try: + f(a, n) + except ValueError as msg: + if not str(msg).endswith( + 'th dimension must be fixed to 3 but got 4'): + raise + else: + raise SystemError( + f'{f.__name__} should have failed on wrong input') + + @pytest.mark.parametrize("dtype", ['c', 'S1']) + def test_2d_array_inout(self, dtype): + f = getattr(self.module, self.fprefix + '_2d_array_inout') + n = np.array([['A', 'B', 'C'], + ['D', 'E', 'F']], + dtype=dtype, order='F') + a = np.array([['a', 'b', 'c'], + ['d', 'e', 'f']], + dtype=dtype, order='F') + f(a, n) + assert_array_equal(a, n) + + def test_return(self): + f = getattr(self.module, self.fprefix + '_return') + + assert_equal(f('a'), b'a') + + @pytest.mark.skip('fortran function returning array segfaults') + def test_array_return(self): + f = getattr(self.module, self.fprefix + '_array_return') + + a = np.array(list('abc'), dtype='S1') + assert_array_equal(f(a), a) + + def test_optional(self): + f = getattr(self.module, self.fprefix + '_optional') + + assert_equal(f(), b"a") + assert_equal(f(b'B'), b"B") + + +class TestMiscCharacter(util.F2PyTest): + # options = ['--debug-capi', '--build-dir', '/tmp/test-build-f2py'] + suffix = '.f90' + fprefix = 'test_misc_character' + + code = textwrap.dedent(f""" + subroutine {fprefix}_gh18684(x, y, m) + character(len=5), dimension(m), intent(in) :: x + character*5, dimension(m), intent(out) :: y + integer i, m + !f2py integer, intent(hide), depend(x) :: m = f2py_len(x) + do i=1,m + y(i) = x(i) + end do + end subroutine {fprefix}_gh18684 + + subroutine {fprefix}_gh6308(x, i) + integer i + !f2py check(i>=0 && i<12) i + character*5 name, x + common name(12) + name(i + 1) = x + end subroutine {fprefix}_gh6308 + + subroutine {fprefix}_gh4519(x) + character(len=*), intent(in) :: x(:) + !f2py intent(out) x + integer :: i + ! Uncomment for debug printing: + !do i=1, size(x) + ! print*, "x(",i,")=", x(i) + !end do + end subroutine {fprefix}_gh4519 + + pure function {fprefix}_gh3425(x) result (y) + character(len=*), intent(in) :: x + character(len=len(x)) :: y + integer :: i + do i = 1, len(x) + j = iachar(x(i:i)) + if (j>=iachar("a") .and. j<=iachar("z") ) then + y(i:i) = achar(j-32) + else + y(i:i) = x(i:i) + endif + end do + end function {fprefix}_gh3425 + + subroutine {fprefix}_character_bc_new(x, y, z) + character, intent(in) :: x + character, intent(out) :: y + !f2py character, depend(x) :: y = x + !f2py character, dimension((x=='a'?1:2)), depend(x), intent(out) :: z + character, dimension(*) :: z + !f2py character, optional, check(x == 'a' || x == 'b') :: x = 'a' + !f2py callstatement (*f2py_func)(&x, &y, z) + !f2py callprotoargument character*, character*, character* + if (y.eq.x) then + y = x + else + y = 'e' + endif + z(1) = 'c' + end subroutine {fprefix}_character_bc_new + + subroutine {fprefix}_character_bc_old(x, y, z) + character, intent(in) :: x + character, intent(out) :: y + !f2py character, depend(x) :: y = x[0] + !f2py character, dimension((*x=='a'?1:2)), depend(x), intent(out) :: z + character, dimension(*) :: z + !f2py character, optional, check(*x == 'a' || x[0] == 'b') :: x = 'a' + !f2py callstatement (*f2py_func)(x, y, z) + !f2py callprotoargument char*, char*, char* + if (y.eq.x) then + y = x + else + y = 'e' + endif + z(1) = 'c' + end subroutine {fprefix}_character_bc_old + """) + + def test_gh18684(self): + # Test character(len=5) and character*5 usages + f = getattr(self.module, self.fprefix + '_gh18684') + x = np.array(["abcde", "fghij"], dtype='S5') + y = f(x) + + assert_array_equal(x, y) + + def test_gh6308(self): + # Test character string array in a common block + f = getattr(self.module, self.fprefix + '_gh6308') + + assert_equal(self.module._BLNK_.name.dtype, np.dtype('S5')) + assert_equal(len(self.module._BLNK_.name), 12) + f("abcde", 0) + assert_equal(self.module._BLNK_.name[0], b"abcde") + f("12345", 5) + assert_equal(self.module._BLNK_.name[5], b"12345") + + def test_gh4519(self): + # Test array of assumed length strings + f = getattr(self.module, self.fprefix + '_gh4519') + + for x, expected in [ + ('a', dict(shape=(), dtype=np.dtype('S1'))), + ('text', dict(shape=(), dtype=np.dtype('S4'))), + (np.array(['1', '2', '3'], dtype='S1'), + dict(shape=(3,), dtype=np.dtype('S1'))), + (['1', '2', '34'], + dict(shape=(3,), dtype=np.dtype('S2'))), + (['', ''], dict(shape=(2,), dtype=np.dtype('S1')))]: + r = f(x) + for k, v in expected.items(): + assert_equal(getattr(r, k), v) + + def test_gh3425(self): + # Test returning a copy of assumed length string + f = getattr(self.module, self.fprefix + '_gh3425') + # f is equivalent to bytes.upper + + assert_equal(f('abC'), b'ABC') + assert_equal(f(''), b'') + assert_equal(f('abC12d'), b'ABC12D') + + @pytest.mark.parametrize("state", ['new', 'old']) + def test_character_bc(self, state): + f = getattr(self.module, self.fprefix + '_character_bc_' + state) + + c, a = f() + assert_equal(c, b'a') + assert_equal(len(a), 1) + + c, a = f(b'b') + assert_equal(c, b'b') + assert_equal(len(a), 2) + + assert_raises(Exception, lambda: f(b'c')) + + +class TestStringScalarArr(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "scalar_string.f90")] + + def test_char(self): + for out in (self.module.string_test.string, + self.module.string_test.string77): + expected = () + assert out.shape == expected + expected = '|S8' + assert out.dtype == expected + + def test_char_arr(self): + for out in (self.module.string_test.strarr, + self.module.string_test.strarr77): + expected = (5,7) + assert out.shape == expected + expected = '|S12' + assert out.dtype == expected + +class TestStringAssumedLength(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "gh24008.f")] + + def test_gh24008(self): + self.module.greet("joe", "bob") + +class TestStringOptionalInOut(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "gh24662.f90")] + + def test_gh24662(self): + self.module.string_inout_optional() + a = np.array('hi', dtype='S32') + self.module.string_inout_optional(a) + assert "output string" in a.tobytes().decode() + with pytest.raises(Exception): + aa = "Hi" + self.module.string_inout_optional(aa) + + +@pytest.mark.slow +class TestNewCharHandling(util.F2PyTest): + # from v1.24 onwards, gh-19388 + sources = [ + util.getpath("tests", "src", "string", "gh25286.pyf"), + util.getpath("tests", "src", "string", "gh25286.f90") + ] + module_name = "_char_handling_test" + + def test_gh25286(self): + info = self.module.charint('T') + assert info == 2 + +@pytest.mark.slow +class TestBCCharHandling(util.F2PyTest): + # SciPy style, "incorrect" bindings with a hook + sources = [ + util.getpath("tests", "src", "string", "gh25286_bc.pyf"), + util.getpath("tests", "src", "string", "gh25286.f90") + ] + module_name = "_char_handling_test" + + def test_gh25286(self): + info = self.module.charint('T') + assert info == 2 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_common.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_common.py new file mode 100644 index 0000000000000000000000000000000000000000..68c1b3b31c5dea2377fec414bb2dd3b95aa7c88a --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_common.py @@ -0,0 +1,27 @@ +import os +import sys +import pytest + +import numpy as np +from . import util + + +class TestCommonBlock(util.F2PyTest): + sources = [util.getpath("tests", "src", "common", "block.f")] + + @pytest.mark.skipif(sys.platform == "win32", + reason="Fails with MinGW64 Gfortran (Issue #9673)") + def test_common_block(self): + self.module.initcb() + assert self.module.block.long_bn == np.array(1.0, dtype=np.float64) + assert self.module.block.string_bn == np.array("2", dtype="|S1") + assert self.module.block.ok == np.array(3, dtype=np.int32) + + +class TestCommonWithUse(util.F2PyTest): + sources = [util.getpath("tests", "src", "common", "gh19161.f90")] + + @pytest.mark.skipif(sys.platform == "win32", + reason="Fails with MinGW64 Gfortran (Issue #9673)") + def test_common_gh19161(self): + assert self.module.data.x == 0 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_crackfortran.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_crackfortran.py new file mode 100644 index 0000000000000000000000000000000000000000..c8d9ddb884601bb6db8ff8ecb65f462d77d1b393 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_crackfortran.py @@ -0,0 +1,350 @@ +import importlib +import codecs +import time +import unicodedata +import pytest +import numpy as np +from numpy.f2py.crackfortran import markinnerspaces, nameargspattern +from . import util +from numpy.f2py import crackfortran +import textwrap +import contextlib +import io + + +class TestNoSpace(util.F2PyTest): + # issue gh-15035: add handling for endsubroutine, endfunction with no space + # between "end" and the block name + sources = [util.getpath("tests", "src", "crackfortran", "gh15035.f")] + + def test_module(self): + k = np.array([1, 2, 3], dtype=np.float64) + w = np.array([1, 2, 3], dtype=np.float64) + self.module.subb(k) + assert np.allclose(k, w + 1) + self.module.subc([w, k]) + assert np.allclose(k, w + 1) + assert self.module.t0("23") == b"2" + + +class TestPublicPrivate: + def test_defaultPrivate(self): + fpath = util.getpath("tests", "src", "crackfortran", "privatemod.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + mod = mod[0] + assert "private" in mod["vars"]["a"]["attrspec"] + assert "public" not in mod["vars"]["a"]["attrspec"] + assert "private" in mod["vars"]["b"]["attrspec"] + assert "public" not in mod["vars"]["b"]["attrspec"] + assert "private" not in mod["vars"]["seta"]["attrspec"] + assert "public" in mod["vars"]["seta"]["attrspec"] + + def test_defaultPublic(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "publicmod.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + mod = mod[0] + assert "private" in mod["vars"]["a"]["attrspec"] + assert "public" not in mod["vars"]["a"]["attrspec"] + assert "private" not in mod["vars"]["seta"]["attrspec"] + assert "public" in mod["vars"]["seta"]["attrspec"] + + def test_access_type(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "accesstype.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + tt = mod[0]['vars'] + assert set(tt['a']['attrspec']) == {'private', 'bind(c)'} + assert set(tt['b_']['attrspec']) == {'public', 'bind(c)'} + assert set(tt['c']['attrspec']) == {'public'} + + def test_nowrap_private_proceedures(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "gh23879.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + pyf = crackfortran.crack2fortran(mod) + assert 'bar' not in pyf + +class TestModuleProcedure(): + def test_moduleOperators(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "operators.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + mod = mod[0] + assert "body" in mod and len(mod["body"]) == 9 + assert mod["body"][1]["name"] == "operator(.item.)" + assert "implementedby" in mod["body"][1] + assert mod["body"][1]["implementedby"] == \ + ["item_int", "item_real"] + assert mod["body"][2]["name"] == "operator(==)" + assert "implementedby" in mod["body"][2] + assert mod["body"][2]["implementedby"] == ["items_are_equal"] + assert mod["body"][3]["name"] == "assignment(=)" + assert "implementedby" in mod["body"][3] + assert mod["body"][3]["implementedby"] == \ + ["get_int", "get_real"] + + def test_notPublicPrivate(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "pubprivmod.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + mod = mod[0] + assert mod['vars']['a']['attrspec'] == ['private', ] + assert mod['vars']['b']['attrspec'] == ['public', ] + assert mod['vars']['seta']['attrspec'] == ['public', ] + + +class TestExternal(util.F2PyTest): + # issue gh-17859: add external attribute support + sources = [util.getpath("tests", "src", "crackfortran", "gh17859.f")] + + def test_external_as_statement(self): + def incr(x): + return x + 123 + + r = self.module.external_as_statement(incr) + assert r == 123 + + def test_external_as_attribute(self): + def incr(x): + return x + 123 + + r = self.module.external_as_attribute(incr) + assert r == 123 + + +class TestCrackFortran(util.F2PyTest): + # gh-2848: commented lines between parameters in subroutine parameter lists + sources = [util.getpath("tests", "src", "crackfortran", "gh2848.f90")] + + def test_gh2848(self): + r = self.module.gh2848(1, 2) + assert r == (1, 2) + + +class TestMarkinnerspaces: + # gh-14118: markinnerspaces does not handle multiple quotations + + def test_do_not_touch_normal_spaces(self): + test_list = ["a ", " a", "a b c", "'abcdefghij'"] + for i in test_list: + assert markinnerspaces(i) == i + + def test_one_relevant_space(self): + assert markinnerspaces("a 'b c' \\' \\'") == "a 'b@_@c' \\' \\'" + assert markinnerspaces(r'a "b c" \" \"') == r'a "b@_@c" \" \"' + + def test_ignore_inner_quotes(self): + assert markinnerspaces("a 'b c\" \" d' e") == "a 'b@_@c\"@_@\"@_@d' e" + assert markinnerspaces("a \"b c' ' d\" e") == "a \"b@_@c'@_@'@_@d\" e" + + def test_multiple_relevant_spaces(self): + assert markinnerspaces("a 'b c' 'd e'") == "a 'b@_@c' 'd@_@e'" + assert markinnerspaces(r'a "b c" "d e"') == r'a "b@_@c" "d@_@e"' + + +class TestDimSpec(util.F2PyTest): + """This test suite tests various expressions that are used as dimension + specifications. + + There exists two usage cases where analyzing dimensions + specifications are important. + + In the first case, the size of output arrays must be defined based + on the inputs to a Fortran function. Because Fortran supports + arbitrary bases for indexing, for instance, `arr(lower:upper)`, + f2py has to evaluate an expression `upper - lower + 1` where + `lower` and `upper` are arbitrary expressions of input parameters. + The evaluation is performed in C, so f2py has to translate Fortran + expressions to valid C expressions (an alternative approach is + that a developer specifies the corresponding C expressions in a + .pyf file). + + In the second case, when user provides an input array with a given + size but some hidden parameters used in dimensions specifications + need to be determined based on the input array size. This is a + harder problem because f2py has to solve the inverse problem: find + a parameter `p` such that `upper(p) - lower(p) + 1` equals to the + size of input array. In the case when this equation cannot be + solved (e.g. because the input array size is wrong), raise an + error before calling the Fortran function (that otherwise would + likely crash Python process when the size of input arrays is + wrong). f2py currently supports this case only when the equation + is linear with respect to unknown parameter. + + """ + + suffix = ".f90" + + code_template = textwrap.dedent(""" + function get_arr_size_{count}(a, n) result (length) + integer, intent(in) :: n + integer, dimension({dimspec}), intent(out) :: a + integer length + length = size(a) + end function + + subroutine get_inv_arr_size_{count}(a, n) + integer :: n + ! the value of n is computed in f2py wrapper + !f2py intent(out) n + integer, dimension({dimspec}), intent(in) :: a + end subroutine + """) + + linear_dimspecs = [ + "n", "2*n", "2:n", "n/2", "5 - n/2", "3*n:20", "n*(n+1):n*(n+5)", + "2*n, n" + ] + nonlinear_dimspecs = ["2*n:3*n*n+2*n"] + all_dimspecs = linear_dimspecs + nonlinear_dimspecs + + code = "" + for count, dimspec in enumerate(all_dimspecs): + lst = [(d.split(":")[0] if ":" in d else "1") for d in dimspec.split(',')] + code += code_template.format( + count=count, + dimspec=dimspec, + first=", ".join(lst), + ) + + @pytest.mark.parametrize("dimspec", all_dimspecs) + def test_array_size(self, dimspec): + + count = self.all_dimspecs.index(dimspec) + get_arr_size = getattr(self.module, f"get_arr_size_{count}") + + for n in [1, 2, 3, 4, 5]: + sz, a = get_arr_size(n) + assert a.size == sz + + @pytest.mark.parametrize("dimspec", all_dimspecs) + def test_inv_array_size(self, dimspec): + + count = self.all_dimspecs.index(dimspec) + get_arr_size = getattr(self.module, f"get_arr_size_{count}") + get_inv_arr_size = getattr(self.module, f"get_inv_arr_size_{count}") + + for n in [1, 2, 3, 4, 5]: + sz, a = get_arr_size(n) + if dimspec in self.nonlinear_dimspecs: + # one must specify n as input, the call we'll ensure + # that a and n are compatible: + n1 = get_inv_arr_size(a, n) + else: + # in case of linear dependence, n can be determined + # from the shape of a: + n1 = get_inv_arr_size(a) + # n1 may be different from n (for instance, when `a` size + # is a function of some `n` fraction) but it must produce + # the same sized array + sz1, _ = get_arr_size(n1) + assert sz == sz1, (n, n1, sz, sz1) + + +class TestModuleDeclaration: + def test_dependencies(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "foo_deps.f90") + mod = crackfortran.crackfortran([str(fpath)]) + assert len(mod) == 1 + assert mod[0]["vars"]["abar"]["="] == "bar('abar')" + + +class TestEval(util.F2PyTest): + def test_eval_scalar(self): + eval_scalar = crackfortran._eval_scalar + + assert eval_scalar('123', {}) == '123' + assert eval_scalar('12 + 3', {}) == '15' + assert eval_scalar('a + b', dict(a=1, b=2)) == '3' + assert eval_scalar('"123"', {}) == "'123'" + + +class TestFortranReader(util.F2PyTest): + @pytest.mark.parametrize("encoding", + ['ascii', 'utf-8', 'utf-16', 'utf-32']) + def test_input_encoding(self, tmp_path, encoding): + # gh-635 + f_path = tmp_path / f"input_with_{encoding}_encoding.f90" + with f_path.open('w', encoding=encoding) as ff: + ff.write(""" + subroutine foo() + end subroutine foo + """) + mod = crackfortran.crackfortran([str(f_path)]) + assert mod[0]['name'] == 'foo' + + +class TestUnicodeComment(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "unicode_comment.f90")] + + @pytest.mark.skipif( + (importlib.util.find_spec("charset_normalizer") is None), + reason="test requires charset_normalizer which is not installed", + ) + def test_encoding_comment(self): + self.module.foo(3) + + +class TestNameArgsPatternBacktracking: + @pytest.mark.parametrize( + ['adversary'], + [ + ('@)@bind@(@',), + ('@)@bind @(@',), + ('@)@bind foo bar baz@(@',) + ] + ) + def test_nameargspattern_backtracking(self, adversary): + '''address ReDOS vulnerability: + https://github.com/numpy/numpy/issues/23338''' + trials_per_batch = 12 + batches_per_regex = 4 + start_reps, end_reps = 15, 25 + for ii in range(start_reps, end_reps): + repeated_adversary = adversary * ii + # test times in small batches. + # this gives us more chances to catch a bad regex + # while still catching it before too long if it is bad + for _ in range(batches_per_regex): + times = [] + for _ in range(trials_per_batch): + t0 = time.perf_counter() + mtch = nameargspattern.search(repeated_adversary) + times.append(time.perf_counter() - t0) + # our pattern should be much faster than 0.2s per search + # it's unlikely that a bad regex will pass even on fast CPUs + assert np.median(times) < 0.2 + assert not mtch + # if the adversary is capped with @)@, it becomes acceptable + # according to the old version of the regex. + # that should still be true. + good_version_of_adversary = repeated_adversary + '@)@' + assert nameargspattern.search(good_version_of_adversary) + + +class TestFunctionReturn(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "gh23598.f90")] + + def test_function_rettype(self): + # gh-23598 + assert self.module.intproduct(3, 4) == 12 + + +class TestFortranGroupCounters(util.F2PyTest): + def test_end_if_comment(self): + # gh-23533 + fpath = util.getpath("tests", "src", "crackfortran", "gh23533.f") + try: + crackfortran.crackfortran([str(fpath)]) + except Exception as exc: + assert False, f"'crackfortran.crackfortran' raised an exception {exc}" + + +class TestF77CommonBlockReader(): + def test_gh22648(self, tmp_path): + fpath = util.getpath("tests", "src", "crackfortran", "gh22648.pyf") + with contextlib.redirect_stdout(io.StringIO()) as stdout_f2py: + mod = crackfortran.crackfortran([str(fpath)]) + assert "Mismatch" not in stdout_f2py.getvalue() diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_data.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_data.py new file mode 100644 index 0000000000000000000000000000000000000000..4e5604c006b1358fb3edf1e055bf1d5ddbb933eb --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_data.py @@ -0,0 +1,70 @@ +import os +import pytest +import numpy as np + +from . import util +from numpy.f2py.crackfortran import crackfortran + + +class TestData(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "data_stmts.f90")] + + # For gh-23276 + def test_data_stmts(self): + assert self.module.cmplxdat.i == 2 + assert self.module.cmplxdat.j == 3 + assert self.module.cmplxdat.x == 1.5 + assert self.module.cmplxdat.y == 2.0 + assert self.module.cmplxdat.pi == 3.1415926535897932384626433832795028841971693993751058209749445923078164062 + assert self.module.cmplxdat.medium_ref_index == np.array(1.+0.j) + assert np.all(self.module.cmplxdat.z == np.array([3.5, 7.0])) + assert np.all(self.module.cmplxdat.my_array == np.array([ 1.+2.j, -3.+4.j])) + assert np.all(self.module.cmplxdat.my_real_array == np.array([ 1., 2., 3.])) + assert np.all(self.module.cmplxdat.ref_index_one == np.array([13.0 + 21.0j])) + assert np.all(self.module.cmplxdat.ref_index_two == np.array([-30.0 + 43.0j])) + + def test_crackedlines(self): + mod = crackfortran(self.sources) + assert mod[0]['vars']['x']['='] == '1.5' + assert mod[0]['vars']['y']['='] == '2.0' + assert mod[0]['vars']['pi']['='] == '3.1415926535897932384626433832795028841971693993751058209749445923078164062d0' + assert mod[0]['vars']['my_real_array']['='] == '(/1.0d0, 2.0d0, 3.0d0/)' + assert mod[0]['vars']['ref_index_one']['='] == '(13.0d0, 21.0d0)' + assert mod[0]['vars']['ref_index_two']['='] == '(-30.0d0, 43.0d0)' + assert mod[0]['vars']['my_array']['='] == '(/(1.0d0, 2.0d0), (-3.0d0, 4.0d0)/)' + assert mod[0]['vars']['z']['='] == '(/3.5, 7.0/)' + +class TestDataF77(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "data_common.f")] + + # For gh-23276 + def test_data_stmts(self): + assert self.module.mycom.mydata == 0 + + def test_crackedlines(self): + mod = crackfortran(str(self.sources[0])) + print(mod[0]['vars']) + assert mod[0]['vars']['mydata']['='] == '0' + + +class TestDataMultiplierF77(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "data_multiplier.f")] + + # For gh-23276 + def test_data_stmts(self): + assert self.module.mycom.ivar1 == 3 + assert self.module.mycom.ivar2 == 3 + assert self.module.mycom.ivar3 == 2 + assert self.module.mycom.ivar4 == 2 + assert self.module.mycom.evar5 == 0 + + +class TestDataWithCommentsF77(util.F2PyTest): + sources = [util.getpath("tests", "src", "crackfortran", "data_with_comments.f")] + + # For gh-23276 + def test_data_stmts(self): + assert len(self.module.mycom.mytab) == 3 + assert self.module.mycom.mytab[0] == 0 + assert self.module.mycom.mytab[1] == 4 + assert self.module.mycom.mytab[2] == 0 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_docs.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_docs.py new file mode 100644 index 0000000000000000000000000000000000000000..6631dd82c9c7cdab0106a9ec939b23c6e9d50fcd --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_docs.py @@ -0,0 +1,55 @@ +import os +import pytest +import numpy as np +from numpy.testing import assert_array_equal, assert_equal +from . import util + + +def get_docdir(): + # assuming that documentation tests are run from a source + # directory + return os.path.abspath(os.path.join( + os.path.dirname(__file__), + '..', '..', '..', + 'doc', 'source', 'f2py', 'code')) + + +pytestmark = pytest.mark.skipif( + not os.path.isdir(get_docdir()), + reason=('Could not find f2py documentation sources' + f' ({get_docdir()} does not exists)')) + + +def _path(*a): + return os.path.join(*((get_docdir(),) + a)) + + +class TestDocAdvanced(util.F2PyTest): + # options = ['--debug-capi', '--build-dir', '/tmp/build-f2py'] + sources = [_path('asterisk1.f90'), _path('asterisk2.f90'), + _path('ftype.f')] + + def test_asterisk1(self): + foo = getattr(self.module, 'foo1') + assert_equal(foo(), b'123456789A12') + + def test_asterisk2(self): + foo = getattr(self.module, 'foo2') + assert_equal(foo(2), b'12') + assert_equal(foo(12), b'123456789A12') + assert_equal(foo(24), b'123456789A123456789B') + + def test_ftype(self): + ftype = self.module + ftype.foo() + assert_equal(ftype.data.a, 0) + ftype.data.a = 3 + ftype.data.x = [1, 2, 3] + assert_equal(ftype.data.a, 3) + assert_array_equal(ftype.data.x, + np.array([1, 2, 3], dtype=np.float32)) + ftype.data.x[1] = 45 + assert_array_equal(ftype.data.x, + np.array([1, 45, 3], dtype=np.float32)) + + # TODO: implement test methods for other example Fortran codes diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_f2cmap.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_f2cmap.py new file mode 100644 index 0000000000000000000000000000000000000000..d2967e4f73d73e7e99fac9641f06df03b6d0041a --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_f2cmap.py @@ -0,0 +1,15 @@ +from . import util +import numpy as np + +class TestF2Cmap(util.F2PyTest): + sources = [ + util.getpath("tests", "src", "f2cmap", "isoFortranEnvMap.f90"), + util.getpath("tests", "src", "f2cmap", ".f2py_f2cmap") + ] + + # gh-15095 + def test_long_long_map(self): + inp = np.ones(3) + out = self.module.func1(inp) + exp_out = 3 + assert out == exp_out diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_kind.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_kind.py new file mode 100644 index 0000000000000000000000000000000000000000..69b85aaad21bbdcd3d5355bb225d1fac492b1caf --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_kind.py @@ -0,0 +1,47 @@ +import os +import pytest +import platform + +from numpy.f2py.crackfortran import ( + _selected_int_kind_func as selected_int_kind, + _selected_real_kind_func as selected_real_kind, +) +from . import util + + +class TestKind(util.F2PyTest): + sources = [util.getpath("tests", "src", "kind", "foo.f90")] + + def test_int(self): + """Test `int` kind_func for integers up to 10**40.""" + selectedintkind = self.module.selectedintkind + + for i in range(40): + assert selectedintkind(i) == selected_int_kind( + i + ), f"selectedintkind({i}): expected {selected_int_kind(i)!r} but got {selectedintkind(i)!r}" + + def test_real(self): + """ + Test (processor-dependent) `real` kind_func for real numbers + of up to 31 digits precision (extended/quadruple). + """ + selectedrealkind = self.module.selectedrealkind + + for i in range(32): + assert selectedrealkind(i) == selected_real_kind( + i + ), f"selectedrealkind({i}): expected {selected_real_kind(i)!r} but got {selectedrealkind(i)!r}" + + @pytest.mark.xfail(platform.machine().lower().startswith("ppc"), + reason="Some PowerPC may not support full IEEE 754 precision") + def test_quad_precision(self): + """ + Test kind_func for quadruple precision [`real(16)`] of 32+ digits . + """ + selectedrealkind = self.module.selectedrealkind + + for i in range(32, 40): + assert selectedrealkind(i) == selected_real_kind( + i + ), f"selectedrealkind({i}): expected {selected_real_kind(i)!r} but got {selectedrealkind(i)!r}" diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_parameter.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_parameter.py new file mode 100644 index 0000000000000000000000000000000000000000..2f620eaa0722338a39807f91f2d6a3e61ea68ca9 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_parameter.py @@ -0,0 +1,112 @@ +import os +import pytest + +import numpy as np + +from . import util + + +class TestParameters(util.F2PyTest): + # Check that intent(in out) translates as intent(inout) + sources = [ + util.getpath("tests", "src", "parameter", "constant_real.f90"), + util.getpath("tests", "src", "parameter", "constant_integer.f90"), + util.getpath("tests", "src", "parameter", "constant_both.f90"), + util.getpath("tests", "src", "parameter", "constant_compound.f90"), + util.getpath("tests", "src", "parameter", "constant_non_compound.f90"), + ] + + @pytest.mark.slow + def test_constant_real_single(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float32)[::2] + pytest.raises(ValueError, self.module.foo_single, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float32) + self.module.foo_single(x) + assert np.allclose(x, [0 + 1 + 2 * 3, 1, 2]) + + @pytest.mark.slow + def test_constant_real_double(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float64)[::2] + pytest.raises(ValueError, self.module.foo_double, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float64) + self.module.foo_double(x) + assert np.allclose(x, [0 + 1 + 2 * 3, 1, 2]) + + @pytest.mark.slow + def test_constant_compound_int(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.int32)[::2] + pytest.raises(ValueError, self.module.foo_compound_int, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.int32) + self.module.foo_compound_int(x) + assert np.allclose(x, [0 + 1 + 2 * 6, 1, 2]) + + @pytest.mark.slow + def test_constant_non_compound_int(self): + # check values + x = np.arange(4, dtype=np.int32) + self.module.foo_non_compound_int(x) + assert np.allclose(x, [0 + 1 + 2 + 3 * 4, 1, 2, 3]) + + @pytest.mark.slow + def test_constant_integer_int(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.int32)[::2] + pytest.raises(ValueError, self.module.foo_int, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.int32) + self.module.foo_int(x) + assert np.allclose(x, [0 + 1 + 2 * 3, 1, 2]) + + @pytest.mark.slow + def test_constant_integer_long(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.int64)[::2] + pytest.raises(ValueError, self.module.foo_long, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.int64) + self.module.foo_long(x) + assert np.allclose(x, [0 + 1 + 2 * 3, 1, 2]) + + @pytest.mark.slow + def test_constant_both(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float64)[::2] + pytest.raises(ValueError, self.module.foo, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float64) + self.module.foo(x) + assert np.allclose(x, [0 + 1 * 3 * 3 + 2 * 3 * 3, 1 * 3, 2 * 3]) + + @pytest.mark.slow + def test_constant_no(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float64)[::2] + pytest.raises(ValueError, self.module.foo_no, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float64) + self.module.foo_no(x) + assert np.allclose(x, [0 + 1 * 3 * 3 + 2 * 3 * 3, 1 * 3, 2 * 3]) + + @pytest.mark.slow + def test_constant_sum(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float64)[::2] + pytest.raises(ValueError, self.module.foo_sum, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float64) + self.module.foo_sum(x) + assert np.allclose(x, [0 + 1 * 3 * 3 + 2 * 3 * 3, 1 * 3, 2 * 3]) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_quoted_character.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_quoted_character.py new file mode 100644 index 0000000000000000000000000000000000000000..82671cd8e72f84733f5a28acdb4b5fb9d56a0a03 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_quoted_character.py @@ -0,0 +1,16 @@ +"""See https://github.com/numpy/numpy/pull/10676. + +""" +import sys +import pytest + +from . import util + + +class TestQuotedCharacter(util.F2PyTest): + sources = [util.getpath("tests", "src", "quoted_character", "foo.f")] + + @pytest.mark.skipif(sys.platform == "win32", + reason="Fails with MinGW64 Gfortran (Issue #9673)") + def test_quoted_character(self): + assert self.module.foo() == (b"'", b'"', b";", b"!", b"(", b")") diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_regression.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_regression.py new file mode 100644 index 0000000000000000000000000000000000000000..1c10978309434ee961c96c05a78f98f2daffa141 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_regression.py @@ -0,0 +1,77 @@ +import os +import pytest + +import numpy as np + +from . import util + + +class TestIntentInOut(util.F2PyTest): + # Check that intent(in out) translates as intent(inout) + sources = [util.getpath("tests", "src", "regression", "inout.f90")] + + @pytest.mark.slow + def test_inout(self): + # non-contiguous should raise error + x = np.arange(6, dtype=np.float32)[::2] + pytest.raises(ValueError, self.module.foo, x) + + # check values with contiguous array + x = np.arange(3, dtype=np.float32) + self.module.foo(x) + assert np.allclose(x, [3, 1, 2]) + + +class TestNegativeBounds(util.F2PyTest): + # Check that negative bounds work correctly + sources = [util.getpath("tests", "src", "negative_bounds", "issue_20853.f90")] + + @pytest.mark.slow + def test_negbound(self): + xvec = np.arange(12) + xlow = -6 + xhigh = 4 + # Calculate the upper bound, + # Keeping the 1 index in mind + def ubound(xl, xh): + return xh - xl + 1 + rval = self.module.foo(is_=xlow, ie_=xhigh, + arr=xvec[:ubound(xlow, xhigh)]) + expval = np.arange(11, dtype = np.float32) + assert np.allclose(rval, expval) + + +class TestNumpyVersionAttribute(util.F2PyTest): + # Check that th attribute __f2py_numpy_version__ is present + # in the compiled module and that has the value np.__version__. + sources = [util.getpath("tests", "src", "regression", "inout.f90")] + + @pytest.mark.slow + def test_numpy_version_attribute(self): + + # Check that self.module has an attribute named "__f2py_numpy_version__" + assert hasattr(self.module, "__f2py_numpy_version__") + + # Check that the attribute __f2py_numpy_version__ is a string + assert isinstance(self.module.__f2py_numpy_version__, str) + + # Check that __f2py_numpy_version__ has the value numpy.__version__ + assert np.__version__ == self.module.__f2py_numpy_version__ + + +def test_include_path(): + incdir = np.f2py.get_include() + fnames_in_dir = os.listdir(incdir) + for fname in ("fortranobject.c", "fortranobject.h"): + assert fname in fnames_in_dir + + +class TestModuleAndSubroutine(util.F2PyTest): + module_name = "example" + sources = [util.getpath("tests", "src", "regression", "gh25337", "data.f90"), + util.getpath("tests", "src", "regression", "gh25337", "use_data.f90")] + + @pytest.mark.slow + def test_gh25337(self): + self.module.data.set_shift(3) + assert "data" in dir(self.module) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_character.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_character.py new file mode 100644 index 0000000000000000000000000000000000000000..36c1f10f4191bdc4a063a2047d1178d5abef8097 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_character.py @@ -0,0 +1,45 @@ +import pytest + +from numpy import array +from . import util +import platform + +IS_S390X = platform.machine() == "s390x" + + +class TestReturnCharacter(util.F2PyTest): + def check_function(self, t, tname): + if tname in ["t0", "t1", "s0", "s1"]: + assert t("23") == b"2" + r = t("ab") + assert r == b"a" + r = t(array("ab")) + assert r == b"a" + r = t(array(77, "u1")) + assert r == b"M" + elif tname in ["ts", "ss"]: + assert t(23) == b"23" + assert t("123456789abcdef") == b"123456789a" + elif tname in ["t5", "s5"]: + assert t(23) == b"23" + assert t("ab") == b"ab" + assert t("123456789abcdef") == b"12345" + else: + raise NotImplementedError + + +class TestFReturnCharacter(TestReturnCharacter): + sources = [ + util.getpath("tests", "src", "return_character", "foo77.f"), + util.getpath("tests", "src", "return_character", "foo90.f90"), + ] + + @pytest.mark.xfail(IS_S390X, reason="callback returns ' '") + @pytest.mark.parametrize("name", "t0,t1,t5,s0,s1,s5,ss".split(",")) + def test_all_f77(self, name): + self.check_function(getattr(self.module, name), name) + + @pytest.mark.xfail(IS_S390X, reason="callback returns ' '") + @pytest.mark.parametrize("name", "t0,t1,t5,ts,s0,s1,s5,ss".split(",")) + def test_all_f90(self, name): + self.check_function(getattr(self.module.f90_return_char, name), name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_complex.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_complex.py new file mode 100644 index 0000000000000000000000000000000000000000..9df79632dd403f8a68b056b60e6ea7323797c186 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_complex.py @@ -0,0 +1,65 @@ +import pytest + +from numpy import array +from . import util + + +class TestReturnComplex(util.F2PyTest): + def check_function(self, t, tname): + if tname in ["t0", "t8", "s0", "s8"]: + err = 1e-5 + else: + err = 0.0 + assert abs(t(234j) - 234.0j) <= err + assert abs(t(234.6) - 234.6) <= err + assert abs(t(234) - 234.0) <= err + assert abs(t(234.6 + 3j) - (234.6 + 3j)) <= err + # assert abs(t('234')-234.)<=err + # assert abs(t('234.6')-234.6)<=err + assert abs(t(-234) + 234.0) <= err + assert abs(t([234]) - 234.0) <= err + assert abs(t((234, )) - 234.0) <= err + assert abs(t(array(234)) - 234.0) <= err + assert abs(t(array(23 + 4j, "F")) - (23 + 4j)) <= err + assert abs(t(array([234])) - 234.0) <= err + assert abs(t(array([[234]])) - 234.0) <= err + assert abs(t(array([234]).astype("b")) + 22.0) <= err + assert abs(t(array([234], "h")) - 234.0) <= err + assert abs(t(array([234], "i")) - 234.0) <= err + assert abs(t(array([234], "l")) - 234.0) <= err + assert abs(t(array([234], "q")) - 234.0) <= err + assert abs(t(array([234], "f")) - 234.0) <= err + assert abs(t(array([234], "d")) - 234.0) <= err + assert abs(t(array([234 + 3j], "F")) - (234 + 3j)) <= err + assert abs(t(array([234], "D")) - 234.0) <= err + + # pytest.raises(TypeError, t, array([234], 'a1')) + pytest.raises(TypeError, t, "abc") + + pytest.raises(IndexError, t, []) + pytest.raises(IndexError, t, ()) + + pytest.raises(TypeError, t, t) + pytest.raises(TypeError, t, {}) + + try: + r = t(10**400) + assert repr(r) in ["(inf+0j)", "(Infinity+0j)"] + except OverflowError: + pass + + +class TestFReturnComplex(TestReturnComplex): + sources = [ + util.getpath("tests", "src", "return_complex", "foo77.f"), + util.getpath("tests", "src", "return_complex", "foo90.f90"), + ] + + @pytest.mark.parametrize("name", "t0,t8,t16,td,s0,s8,s16,sd".split(",")) + def test_all_f77(self, name): + self.check_function(getattr(self.module, name), name) + + @pytest.mark.parametrize("name", "t0,t8,t16,td,s0,s8,s16,sd".split(",")) + def test_all_f90(self, name): + self.check_function(getattr(self.module.f90_return_complex, name), + name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_integer.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_integer.py new file mode 100644 index 0000000000000000000000000000000000000000..3b2f42e2bff633fb728ac18d4f4de33de82cd5b2 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_integer.py @@ -0,0 +1,53 @@ +import pytest + +from numpy import array +from . import util + + +class TestReturnInteger(util.F2PyTest): + def check_function(self, t, tname): + assert t(123) == 123 + assert t(123.6) == 123 + assert t("123") == 123 + assert t(-123) == -123 + assert t([123]) == 123 + assert t((123, )) == 123 + assert t(array(123)) == 123 + assert t(array(123, "b")) == 123 + assert t(array(123, "h")) == 123 + assert t(array(123, "i")) == 123 + assert t(array(123, "l")) == 123 + assert t(array(123, "B")) == 123 + assert t(array(123, "f")) == 123 + assert t(array(123, "d")) == 123 + + # pytest.raises(ValueError, t, array([123],'S3')) + pytest.raises(ValueError, t, "abc") + + pytest.raises(IndexError, t, []) + pytest.raises(IndexError, t, ()) + + pytest.raises(Exception, t, t) + pytest.raises(Exception, t, {}) + + if tname in ["t8", "s8"]: + pytest.raises(OverflowError, t, 100000000000000000000000) + pytest.raises(OverflowError, t, 10000000011111111111111.23) + + +class TestFReturnInteger(TestReturnInteger): + sources = [ + util.getpath("tests", "src", "return_integer", "foo77.f"), + util.getpath("tests", "src", "return_integer", "foo90.f90"), + ] + + @pytest.mark.parametrize("name", + "t0,t1,t2,t4,t8,s0,s1,s2,s4,s8".split(",")) + def test_all_f77(self, name): + self.check_function(getattr(self.module, name), name) + + @pytest.mark.parametrize("name", + "t0,t1,t2,t4,t8,s0,s1,s2,s4,s8".split(",")) + def test_all_f90(self, name): + self.check_function(getattr(self.module.f90_return_integer, name), + name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_logical.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_logical.py new file mode 100644 index 0000000000000000000000000000000000000000..92fb902af4ddd269d67c427bc5090aabc35513dd --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_logical.py @@ -0,0 +1,64 @@ +import pytest + +from numpy import array +from . import util + + +class TestReturnLogical(util.F2PyTest): + def check_function(self, t): + assert t(True) == 1 + assert t(False) == 0 + assert t(0) == 0 + assert t(None) == 0 + assert t(0.0) == 0 + assert t(0j) == 0 + assert t(1j) == 1 + assert t(234) == 1 + assert t(234.6) == 1 + assert t(234.6 + 3j) == 1 + assert t("234") == 1 + assert t("aaa") == 1 + assert t("") == 0 + assert t([]) == 0 + assert t(()) == 0 + assert t({}) == 0 + assert t(t) == 1 + assert t(-234) == 1 + assert t(10**100) == 1 + assert t([234]) == 1 + assert t((234, )) == 1 + assert t(array(234)) == 1 + assert t(array([234])) == 1 + assert t(array([[234]])) == 1 + assert t(array([127], "b")) == 1 + assert t(array([234], "h")) == 1 + assert t(array([234], "i")) == 1 + assert t(array([234], "l")) == 1 + assert t(array([234], "f")) == 1 + assert t(array([234], "d")) == 1 + assert t(array([234 + 3j], "F")) == 1 + assert t(array([234], "D")) == 1 + assert t(array(0)) == 0 + assert t(array([0])) == 0 + assert t(array([[0]])) == 0 + assert t(array([0j])) == 0 + assert t(array([1])) == 1 + pytest.raises(ValueError, t, array([0, 0])) + + +class TestFReturnLogical(TestReturnLogical): + sources = [ + util.getpath("tests", "src", "return_logical", "foo77.f"), + util.getpath("tests", "src", "return_logical", "foo90.f90"), + ] + + @pytest.mark.slow + @pytest.mark.parametrize("name", "t0,t1,t2,t4,s0,s1,s2,s4".split(",")) + def test_all_f77(self, name): + self.check_function(getattr(self.module, name)) + + @pytest.mark.slow + @pytest.mark.parametrize("name", + "t0,t1,t2,t4,t8,s0,s1,s2,s4,s8".split(",")) + def test_all_f90(self, name): + self.check_function(getattr(self.module.f90_return_logical, name)) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_real.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_real.py new file mode 100644 index 0000000000000000000000000000000000000000..a15d6475a9509e5324543c6119e44d143f829397 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_return_real.py @@ -0,0 +1,107 @@ +import platform +import pytest +import numpy as np + +from numpy import array +from . import util + + +class TestReturnReal(util.F2PyTest): + def check_function(self, t, tname): + if tname in ["t0", "t4", "s0", "s4"]: + err = 1e-5 + else: + err = 0.0 + assert abs(t(234) - 234.0) <= err + assert abs(t(234.6) - 234.6) <= err + assert abs(t("234") - 234) <= err + assert abs(t("234.6") - 234.6) <= err + assert abs(t(-234) + 234) <= err + assert abs(t([234]) - 234) <= err + assert abs(t((234, )) - 234.0) <= err + assert abs(t(array(234)) - 234.0) <= err + assert abs(t(array(234).astype("b")) + 22) <= err + assert abs(t(array(234, "h")) - 234.0) <= err + assert abs(t(array(234, "i")) - 234.0) <= err + assert abs(t(array(234, "l")) - 234.0) <= err + assert abs(t(array(234, "B")) - 234.0) <= err + assert abs(t(array(234, "f")) - 234.0) <= err + assert abs(t(array(234, "d")) - 234.0) <= err + if tname in ["t0", "t4", "s0", "s4"]: + assert t(1e200) == t(1e300) # inf + + # pytest.raises(ValueError, t, array([234], 'S1')) + pytest.raises(ValueError, t, "abc") + + pytest.raises(IndexError, t, []) + pytest.raises(IndexError, t, ()) + + pytest.raises(Exception, t, t) + pytest.raises(Exception, t, {}) + + try: + r = t(10**400) + assert repr(r) in ["inf", "Infinity"] + except OverflowError: + pass + + +@pytest.mark.skipif( + platform.system() == "Darwin", + reason="Prone to error when run with numpy/f2py/tests on mac os, " + "but not when run in isolation", +) +@pytest.mark.skipif( + np.dtype(np.intp).itemsize < 8, + reason="32-bit builds are buggy" +) +class TestCReturnReal(TestReturnReal): + suffix = ".pyf" + module_name = "c_ext_return_real" + code = """ +python module c_ext_return_real +usercode \'\'\' +float t4(float value) { return value; } +void s4(float *t4, float value) { *t4 = value; } +double t8(double value) { return value; } +void s8(double *t8, double value) { *t8 = value; } +\'\'\' +interface + function t4(value) + real*4 intent(c) :: t4,value + end + function t8(value) + real*8 intent(c) :: t8,value + end + subroutine s4(t4,value) + intent(c) s4 + real*4 intent(out) :: t4 + real*4 intent(c) :: value + end + subroutine s8(t8,value) + intent(c) s8 + real*8 intent(out) :: t8 + real*8 intent(c) :: value + end +end interface +end python module c_ext_return_real + """ + + @pytest.mark.parametrize("name", "t4,t8,s4,s8".split(",")) + def test_all(self, name): + self.check_function(getattr(self.module, name), name) + + +class TestFReturnReal(TestReturnReal): + sources = [ + util.getpath("tests", "src", "return_real", "foo77.f"), + util.getpath("tests", "src", "return_real", "foo90.f90"), + ] + + @pytest.mark.parametrize("name", "t0,t4,t8,td,s0,s4,s8,sd".split(",")) + def test_all_f77(self, name): + self.check_function(getattr(self.module, name), name) + + @pytest.mark.parametrize("name", "t0,t4,t8,td,s0,s4,s8,sd".split(",")) + def test_all_f90(self, name): + self.check_function(getattr(self.module.f90_return_real, name), name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_semicolon_split.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_semicolon_split.py new file mode 100644 index 0000000000000000000000000000000000000000..6d499046c1a53d706410a3cfbcf34dcc818a41d3 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_semicolon_split.py @@ -0,0 +1,74 @@ +import platform +import pytest +import numpy as np + +from . import util + + +@pytest.mark.skipif( + platform.system() == "Darwin", + reason="Prone to error when run with numpy/f2py/tests on mac os, " + "but not when run in isolation", +) +@pytest.mark.skipif( + np.dtype(np.intp).itemsize < 8, + reason="32-bit builds are buggy" +) +class TestMultiline(util.F2PyTest): + suffix = ".pyf" + module_name = "multiline" + code = f""" +python module {module_name} + usercode ''' +void foo(int* x) {{ + char dummy = ';'; + *x = 42; +}} +''' + interface + subroutine foo(x) + intent(c) foo + integer intent(out) :: x + end subroutine foo + end interface +end python module {module_name} + """ + + def test_multiline(self): + assert self.module.foo() == 42 + + +@pytest.mark.skipif( + platform.system() == "Darwin", + reason="Prone to error when run with numpy/f2py/tests on mac os, " + "but not when run in isolation", +) +@pytest.mark.skipif( + np.dtype(np.intp).itemsize < 8, + reason="32-bit builds are buggy" +) +class TestCallstatement(util.F2PyTest): + suffix = ".pyf" + module_name = "callstatement" + code = f""" +python module {module_name} + usercode ''' +void foo(int* x) {{ +}} +''' + interface + subroutine foo(x) + intent(c) foo + integer intent(out) :: x + callprotoargument int* + callstatement {{ & + ; & + x = 42; & + }} + end subroutine foo + end interface +end python module {module_name} + """ + + def test_callstatement(self): + assert self.module.foo() == 42 diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_size.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_size.py new file mode 100644 index 0000000000000000000000000000000000000000..bd2c349df585bd316a9e2547a4a3e50b16364d09 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_size.py @@ -0,0 +1,45 @@ +import os +import pytest +import numpy as np + +from . import util + + +class TestSizeSumExample(util.F2PyTest): + sources = [util.getpath("tests", "src", "size", "foo.f90")] + + @pytest.mark.slow + def test_all(self): + r = self.module.foo([[]]) + assert r == [0] + + r = self.module.foo([[1, 2]]) + assert r == [3] + + r = self.module.foo([[1, 2], [3, 4]]) + assert np.allclose(r, [3, 7]) + + r = self.module.foo([[1, 2], [3, 4], [5, 6]]) + assert np.allclose(r, [3, 7, 11]) + + @pytest.mark.slow + def test_transpose(self): + r = self.module.trans([[]]) + assert np.allclose(r.T, np.array([[]])) + + r = self.module.trans([[1, 2]]) + assert np.allclose(r, [[1.], [2.]]) + + r = self.module.trans([[1, 2, 3], [4, 5, 6]]) + assert np.allclose(r, [[1, 4], [2, 5], [3, 6]]) + + @pytest.mark.slow + def test_flatten(self): + r = self.module.flatten([[]]) + assert np.allclose(r, []) + + r = self.module.flatten([[1, 2]]) + assert np.allclose(r, [1, 2]) + + r = self.module.flatten([[1, 2, 3], [4, 5, 6]]) + assert np.allclose(r, [1, 2, 3, 4, 5, 6]) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_string.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_string.py new file mode 100644 index 0000000000000000000000000000000000000000..9e937188c9309eb09534b5b1ec822b5890a0bbdd --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_string.py @@ -0,0 +1,100 @@ +import os +import pytest +import textwrap +import numpy as np +from . import util + + +class TestString(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "char.f90")] + + @pytest.mark.slow + def test_char(self): + strings = np.array(["ab", "cd", "ef"], dtype="c").T + inp, out = self.module.char_test.change_strings( + strings, strings.shape[1]) + assert inp == pytest.approx(strings) + expected = strings.copy() + expected[1, :] = "AAA" + assert out == pytest.approx(expected) + + +class TestDocStringArguments(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "string.f")] + + def test_example(self): + a = np.array(b"123\0\0") + b = np.array(b"123\0\0") + c = np.array(b"123") + d = np.array(b"123") + + self.module.foo(a, b, c, d) + + assert a.tobytes() == b"123\0\0" + assert b.tobytes() == b"B23\0\0" + assert c.tobytes() == b"123" + assert d.tobytes() == b"D23" + + +class TestFixedString(util.F2PyTest): + sources = [util.getpath("tests", "src", "string", "fixed_string.f90")] + + @staticmethod + def _sint(s, start=0, end=None): + """Return the content of a string buffer as integer value. + + For example: + _sint('1234') -> 4321 + _sint('123A') -> 17321 + """ + if isinstance(s, np.ndarray): + s = s.tobytes() + elif isinstance(s, str): + s = s.encode() + assert isinstance(s, bytes) + if end is None: + end = len(s) + i = 0 + for j in range(start, min(end, len(s))): + i += s[j] * 10**j + return i + + def _get_input(self, intent="in"): + if intent in ["in"]: + yield "" + yield "1" + yield "1234" + yield "12345" + yield b"" + yield b"\0" + yield b"1" + yield b"\01" + yield b"1\0" + yield b"1234" + yield b"12345" + yield np.ndarray((), np.bytes_, buffer=b"") # array(b'', dtype='|S0') + yield np.array(b"") # array(b'', dtype='|S1') + yield np.array(b"\0") + yield np.array(b"1") + yield np.array(b"1\0") + yield np.array(b"\01") + yield np.array(b"1234") + yield np.array(b"123\0") + yield np.array(b"12345") + + def test_intent_in(self): + for s in self._get_input(): + r = self.module.test_in_bytes4(s) + # also checks that s is not changed inplace + expected = self._sint(s, end=4) + assert r == expected, s + + def test_intent_inout(self): + for s in self._get_input(intent="inout"): + rest = self._sint(s, start=4) + r = self.module.test_inout_bytes4(s) + expected = self._sint(s, end=4) + assert r == expected + + # check that the rest of input string is preserved + assert rest == self._sint(s, start=4) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_symbolic.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_symbolic.py new file mode 100644 index 0000000000000000000000000000000000000000..8452783111ebe7130d17301d228eb5708e9eced7 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_symbolic.py @@ -0,0 +1,494 @@ +import pytest + +from numpy.f2py.symbolic import ( + Expr, + Op, + ArithOp, + Language, + as_symbol, + as_number, + as_string, + as_array, + as_complex, + as_terms, + as_factors, + eliminate_quotes, + insert_quotes, + fromstring, + as_expr, + as_apply, + as_numer_denom, + as_ternary, + as_ref, + as_deref, + normalize, + as_eq, + as_ne, + as_lt, + as_gt, + as_le, + as_ge, +) +from . import util + + +class TestSymbolic(util.F2PyTest): + def test_eliminate_quotes(self): + def worker(s): + r, d = eliminate_quotes(s) + s1 = insert_quotes(r, d) + assert s1 == s + + for kind in ["", "mykind_"]: + worker(kind + '"1234" // "ABCD"') + worker(kind + '"1234" // ' + kind + '"ABCD"') + worker(kind + "\"1234\" // 'ABCD'") + worker(kind + '"1234" // ' + kind + "'ABCD'") + worker(kind + '"1\\"2\'AB\'34"') + worker("a = " + kind + "'1\\'2\"AB\"34'") + + def test_sanity(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + + assert x.op == Op.SYMBOL + assert repr(x) == "Expr(Op.SYMBOL, 'x')" + assert x == x + assert x != y + assert hash(x) is not None + + n = as_number(123) + m = as_number(456) + assert n.op == Op.INTEGER + assert repr(n) == "Expr(Op.INTEGER, (123, 4))" + assert n == n + assert n != m + assert hash(n) is not None + + fn = as_number(12.3) + fm = as_number(45.6) + assert fn.op == Op.REAL + assert repr(fn) == "Expr(Op.REAL, (12.3, 4))" + assert fn == fn + assert fn != fm + assert hash(fn) is not None + + c = as_complex(1, 2) + c2 = as_complex(3, 4) + assert c.op == Op.COMPLEX + assert repr(c) == ("Expr(Op.COMPLEX, (Expr(Op.INTEGER, (1, 4))," + " Expr(Op.INTEGER, (2, 4))))") + assert c == c + assert c != c2 + assert hash(c) is not None + + s = as_string("'123'") + s2 = as_string('"ABC"') + assert s.op == Op.STRING + assert repr(s) == "Expr(Op.STRING, (\"'123'\", 1))", repr(s) + assert s == s + assert s != s2 + + a = as_array((n, m)) + b = as_array((n, )) + assert a.op == Op.ARRAY + assert repr(a) == ("Expr(Op.ARRAY, (Expr(Op.INTEGER, (123, 4))," + " Expr(Op.INTEGER, (456, 4))))") + assert a == a + assert a != b + + t = as_terms(x) + u = as_terms(y) + assert t.op == Op.TERMS + assert repr(t) == "Expr(Op.TERMS, {Expr(Op.SYMBOL, 'x'): 1})" + assert t == t + assert t != u + assert hash(t) is not None + + v = as_factors(x) + w = as_factors(y) + assert v.op == Op.FACTORS + assert repr(v) == "Expr(Op.FACTORS, {Expr(Op.SYMBOL, 'x'): 1})" + assert v == v + assert w != v + assert hash(v) is not None + + t = as_ternary(x, y, z) + u = as_ternary(x, z, y) + assert t.op == Op.TERNARY + assert t == t + assert t != u + assert hash(t) is not None + + e = as_eq(x, y) + f = as_lt(x, y) + assert e.op == Op.RELATIONAL + assert e == e + assert e != f + assert hash(e) is not None + + def test_tostring_fortran(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + n = as_number(123) + m = as_number(456) + a = as_array((n, m)) + c = as_complex(n, m) + + assert str(x) == "x" + assert str(n) == "123" + assert str(a) == "[123, 456]" + assert str(c) == "(123, 456)" + + assert str(Expr(Op.TERMS, {x: 1})) == "x" + assert str(Expr(Op.TERMS, {x: 2})) == "2 * x" + assert str(Expr(Op.TERMS, {x: -1})) == "-x" + assert str(Expr(Op.TERMS, {x: -2})) == "-2 * x" + assert str(Expr(Op.TERMS, {x: 1, y: 1})) == "x + y" + assert str(Expr(Op.TERMS, {x: -1, y: -1})) == "-x - y" + assert str(Expr(Op.TERMS, {x: 2, y: 3})) == "2 * x + 3 * y" + assert str(Expr(Op.TERMS, {x: -2, y: 3})) == "-2 * x + 3 * y" + assert str(Expr(Op.TERMS, {x: 2, y: -3})) == "2 * x - 3 * y" + + assert str(Expr(Op.FACTORS, {x: 1})) == "x" + assert str(Expr(Op.FACTORS, {x: 2})) == "x ** 2" + assert str(Expr(Op.FACTORS, {x: -1})) == "x ** -1" + assert str(Expr(Op.FACTORS, {x: -2})) == "x ** -2" + assert str(Expr(Op.FACTORS, {x: 1, y: 1})) == "x * y" + assert str(Expr(Op.FACTORS, {x: 2, y: 3})) == "x ** 2 * y ** 3" + + v = Expr(Op.FACTORS, {x: 2, Expr(Op.TERMS, {x: 1, y: 1}): 3}) + assert str(v) == "x ** 2 * (x + y) ** 3", str(v) + v = Expr(Op.FACTORS, {x: 2, Expr(Op.FACTORS, {x: 1, y: 1}): 3}) + assert str(v) == "x ** 2 * (x * y) ** 3", str(v) + + assert str(Expr(Op.APPLY, ("f", (), {}))) == "f()" + assert str(Expr(Op.APPLY, ("f", (x, ), {}))) == "f(x)" + assert str(Expr(Op.APPLY, ("f", (x, y), {}))) == "f(x, y)" + assert str(Expr(Op.INDEXING, ("f", x))) == "f[x]" + + assert str(as_ternary(x, y, z)) == "merge(y, z, x)" + assert str(as_eq(x, y)) == "x .eq. y" + assert str(as_ne(x, y)) == "x .ne. y" + assert str(as_lt(x, y)) == "x .lt. y" + assert str(as_le(x, y)) == "x .le. y" + assert str(as_gt(x, y)) == "x .gt. y" + assert str(as_ge(x, y)) == "x .ge. y" + + def test_tostring_c(self): + language = Language.C + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + n = as_number(123) + + assert Expr(Op.FACTORS, {x: 2}).tostring(language=language) == "x * x" + assert (Expr(Op.FACTORS, { + x + y: 2 + }).tostring(language=language) == "(x + y) * (x + y)") + assert Expr(Op.FACTORS, { + x: 12 + }).tostring(language=language) == "pow(x, 12)" + + assert as_apply(ArithOp.DIV, x, + y).tostring(language=language) == "x / y" + assert (as_apply(ArithOp.DIV, x, + x + y).tostring(language=language) == "x / (x + y)") + assert (as_apply(ArithOp.DIV, x - y, x + + y).tostring(language=language) == "(x - y) / (x + y)") + assert (x + (x - y) / (x + y) + + n).tostring(language=language) == "123 + x + (x - y) / (x + y)" + + assert as_ternary(x, y, z).tostring(language=language) == "(x?y:z)" + assert as_eq(x, y).tostring(language=language) == "x == y" + assert as_ne(x, y).tostring(language=language) == "x != y" + assert as_lt(x, y).tostring(language=language) == "x < y" + assert as_le(x, y).tostring(language=language) == "x <= y" + assert as_gt(x, y).tostring(language=language) == "x > y" + assert as_ge(x, y).tostring(language=language) == "x >= y" + + def test_operations(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + + assert x + x == Expr(Op.TERMS, {x: 2}) + assert x - x == Expr(Op.INTEGER, (0, 4)) + assert x + y == Expr(Op.TERMS, {x: 1, y: 1}) + assert x - y == Expr(Op.TERMS, {x: 1, y: -1}) + assert x * x == Expr(Op.FACTORS, {x: 2}) + assert x * y == Expr(Op.FACTORS, {x: 1, y: 1}) + + assert +x == x + assert -x == Expr(Op.TERMS, {x: -1}), repr(-x) + assert 2 * x == Expr(Op.TERMS, {x: 2}) + assert 2 + x == Expr(Op.TERMS, {x: 1, as_number(1): 2}) + assert 2 * x + 3 * y == Expr(Op.TERMS, {x: 2, y: 3}) + assert (x + y) * 2 == Expr(Op.TERMS, {x: 2, y: 2}) + + assert x**2 == Expr(Op.FACTORS, {x: 2}) + assert (x + y)**2 == Expr( + Op.TERMS, + { + Expr(Op.FACTORS, {x: 2}): 1, + Expr(Op.FACTORS, {y: 2}): 1, + Expr(Op.FACTORS, { + x: 1, + y: 1 + }): 2, + }, + ) + assert (x + y) * x == x**2 + x * y + assert (x + y)**2 == x**2 + 2 * x * y + y**2 + assert (x + y)**2 + (x - y)**2 == 2 * x**2 + 2 * y**2 + assert (x + y) * z == x * z + y * z + assert z * (x + y) == x * z + y * z + + assert (x / 2) == as_apply(ArithOp.DIV, x, as_number(2)) + assert (2 * x / 2) == x + assert (3 * x / 2) == as_apply(ArithOp.DIV, 3 * x, as_number(2)) + assert (4 * x / 2) == 2 * x + assert (5 * x / 2) == as_apply(ArithOp.DIV, 5 * x, as_number(2)) + assert (6 * x / 2) == 3 * x + assert ((3 * 5) * x / 6) == as_apply(ArithOp.DIV, 5 * x, as_number(2)) + assert (30 * x**2 * y**4 / (24 * x**3 * y**3)) == as_apply( + ArithOp.DIV, 5 * y, 4 * x) + assert ((15 * x / 6) / 5) == as_apply(ArithOp.DIV, x, + as_number(2)), (15 * x / 6) / 5 + assert (x / (5 / x)) == as_apply(ArithOp.DIV, x**2, as_number(5)) + + assert (x / 2.0) == Expr(Op.TERMS, {x: 0.5}) + + s = as_string('"ABC"') + t = as_string('"123"') + + assert s // t == Expr(Op.STRING, ('"ABC123"', 1)) + assert s // x == Expr(Op.CONCAT, (s, x)) + assert x // s == Expr(Op.CONCAT, (x, s)) + + c = as_complex(1.0, 2.0) + assert -c == as_complex(-1.0, -2.0) + assert c + c == as_expr((1 + 2j) * 2) + assert c * c == as_expr((1 + 2j)**2) + + def test_substitute(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + a = as_array((x, y)) + + assert x.substitute({x: y}) == y + assert (x + y).substitute({x: z}) == y + z + assert (x * y).substitute({x: z}) == y * z + assert (x**4).substitute({x: z}) == z**4 + assert (x / y).substitute({x: z}) == z / y + assert x.substitute({x: y + z}) == y + z + assert a.substitute({x: y + z}) == as_array((y + z, y)) + + assert as_ternary(x, y, + z).substitute({x: y + z}) == as_ternary(y + z, y, z) + assert as_eq(x, y).substitute({x: y + z}) == as_eq(y + z, y) + + def test_fromstring(self): + + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + f = as_symbol("f") + s = as_string('"ABC"') + t = as_string('"123"') + a = as_array((x, y)) + + assert fromstring("x") == x + assert fromstring("+ x") == x + assert fromstring("- x") == -x + assert fromstring("x + y") == x + y + assert fromstring("x + 1") == x + 1 + assert fromstring("x * y") == x * y + assert fromstring("x * 2") == x * 2 + assert fromstring("x / y") == x / y + assert fromstring("x ** 2", language=Language.Python) == x**2 + assert fromstring("x ** 2 ** 3", language=Language.Python) == x**2**3 + assert fromstring("(x + y) * z") == (x + y) * z + + assert fromstring("f(x)") == f(x) + assert fromstring("f(x,y)") == f(x, y) + assert fromstring("f[x]") == f[x] + assert fromstring("f[x][y]") == f[x][y] + + assert fromstring('"ABC"') == s + assert (normalize( + fromstring('"ABC" // "123" ', + language=Language.Fortran)) == s // t) + assert fromstring('f("ABC")') == f(s) + assert fromstring('MYSTRKIND_"ABC"') == as_string('"ABC"', "MYSTRKIND") + + assert fromstring("(/x, y/)") == a, fromstring("(/x, y/)") + assert fromstring("f((/x, y/))") == f(a) + assert fromstring("(/(x+y)*z/)") == as_array(((x + y) * z, )) + + assert fromstring("123") == as_number(123) + assert fromstring("123_2") == as_number(123, 2) + assert fromstring("123_myintkind") == as_number(123, "myintkind") + + assert fromstring("123.0") == as_number(123.0, 4) + assert fromstring("123.0_4") == as_number(123.0, 4) + assert fromstring("123.0_8") == as_number(123.0, 8) + assert fromstring("123.0e0") == as_number(123.0, 4) + assert fromstring("123.0d0") == as_number(123.0, 8) + assert fromstring("123d0") == as_number(123.0, 8) + assert fromstring("123e-0") == as_number(123.0, 4) + assert fromstring("123d+0") == as_number(123.0, 8) + assert fromstring("123.0_myrealkind") == as_number(123.0, "myrealkind") + assert fromstring("3E4") == as_number(30000.0, 4) + + assert fromstring("(1, 2)") == as_complex(1, 2) + assert fromstring("(1e2, PI)") == as_complex(as_number(100.0), + as_symbol("PI")) + + assert fromstring("[1, 2]") == as_array((as_number(1), as_number(2))) + + assert fromstring("POINT(x, y=1)") == as_apply(as_symbol("POINT"), + x, + y=as_number(1)) + assert fromstring( + 'PERSON(name="John", age=50, shape=(/34, 23/))') == as_apply( + as_symbol("PERSON"), + name=as_string('"John"'), + age=as_number(50), + shape=as_array((as_number(34), as_number(23))), + ) + + assert fromstring("x?y:z") == as_ternary(x, y, z) + + assert fromstring("*x") == as_deref(x) + assert fromstring("**x") == as_deref(as_deref(x)) + assert fromstring("&x") == as_ref(x) + assert fromstring("(*x) * (*y)") == as_deref(x) * as_deref(y) + assert fromstring("(*x) * *y") == as_deref(x) * as_deref(y) + assert fromstring("*x * *y") == as_deref(x) * as_deref(y) + assert fromstring("*x**y") == as_deref(x) * as_deref(y) + + assert fromstring("x == y") == as_eq(x, y) + assert fromstring("x != y") == as_ne(x, y) + assert fromstring("x < y") == as_lt(x, y) + assert fromstring("x > y") == as_gt(x, y) + assert fromstring("x <= y") == as_le(x, y) + assert fromstring("x >= y") == as_ge(x, y) + + assert fromstring("x .eq. y", language=Language.Fortran) == as_eq(x, y) + assert fromstring("x .ne. y", language=Language.Fortran) == as_ne(x, y) + assert fromstring("x .lt. y", language=Language.Fortran) == as_lt(x, y) + assert fromstring("x .gt. y", language=Language.Fortran) == as_gt(x, y) + assert fromstring("x .le. y", language=Language.Fortran) == as_le(x, y) + assert fromstring("x .ge. y", language=Language.Fortran) == as_ge(x, y) + + def test_traverse(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + f = as_symbol("f") + + # Use traverse to substitute a symbol + def replace_visit(s, r=z): + if s == x: + return r + + assert x.traverse(replace_visit) == z + assert y.traverse(replace_visit) == y + assert z.traverse(replace_visit) == z + assert (f(y)).traverse(replace_visit) == f(y) + assert (f(x)).traverse(replace_visit) == f(z) + assert (f[y]).traverse(replace_visit) == f[y] + assert (f[z]).traverse(replace_visit) == f[z] + assert (x + y + z).traverse(replace_visit) == (2 * z + y) + assert (x + + f(y, x - z)).traverse(replace_visit) == (z + + f(y, as_number(0))) + assert as_eq(x, y).traverse(replace_visit) == as_eq(z, y) + + # Use traverse to collect symbols, method 1 + function_symbols = set() + symbols = set() + + def collect_symbols(s): + if s.op is Op.APPLY: + oper = s.data[0] + function_symbols.add(oper) + if oper in symbols: + symbols.remove(oper) + elif s.op is Op.SYMBOL and s not in function_symbols: + symbols.add(s) + + (x + f(y, x - z)).traverse(collect_symbols) + assert function_symbols == {f} + assert symbols == {x, y, z} + + # Use traverse to collect symbols, method 2 + def collect_symbols2(expr, symbols): + if expr.op is Op.SYMBOL: + symbols.add(expr) + + symbols = set() + (x + f(y, x - z)).traverse(collect_symbols2, symbols) + assert symbols == {x, y, z, f} + + # Use traverse to partially collect symbols + def collect_symbols3(expr, symbols): + if expr.op is Op.APPLY: + # skip traversing function calls + return expr + if expr.op is Op.SYMBOL: + symbols.add(expr) + + symbols = set() + (x + f(y, x - z)).traverse(collect_symbols3, symbols) + assert symbols == {x} + + def test_linear_solve(self): + x = as_symbol("x") + y = as_symbol("y") + z = as_symbol("z") + + assert x.linear_solve(x) == (as_number(1), as_number(0)) + assert (x + 1).linear_solve(x) == (as_number(1), as_number(1)) + assert (2 * x).linear_solve(x) == (as_number(2), as_number(0)) + assert (2 * x + 3).linear_solve(x) == (as_number(2), as_number(3)) + assert as_number(3).linear_solve(x) == (as_number(0), as_number(3)) + assert y.linear_solve(x) == (as_number(0), y) + assert (y * z).linear_solve(x) == (as_number(0), y * z) + + assert (x + y).linear_solve(x) == (as_number(1), y) + assert (z * x + y).linear_solve(x) == (z, y) + assert ((z + y) * x + y).linear_solve(x) == (z + y, y) + assert (z * y * x + y).linear_solve(x) == (z * y, y) + + pytest.raises(RuntimeError, lambda: (x * x).linear_solve(x)) + + def test_as_numer_denom(self): + x = as_symbol("x") + y = as_symbol("y") + n = as_number(123) + + assert as_numer_denom(x) == (x, as_number(1)) + assert as_numer_denom(x / n) == (x, n) + assert as_numer_denom(n / x) == (n, x) + assert as_numer_denom(x / y) == (x, y) + assert as_numer_denom(x * y) == (x * y, as_number(1)) + assert as_numer_denom(n + x / y) == (x + n * y, y) + assert as_numer_denom(n + x / (y - x / n)) == (y * n**2, y * n - x) + + def test_polynomial_atoms(self): + x = as_symbol("x") + y = as_symbol("y") + n = as_number(123) + + assert x.polynomial_atoms() == {x} + assert n.polynomial_atoms() == set() + assert (y[x]).polynomial_atoms() == {y[x]} + assert (y(x)).polynomial_atoms() == {y(x)} + assert (y(x) + x).polynomial_atoms() == {y(x), x} + assert (y(x) * x[y]).polynomial_atoms() == {y(x), x[y]} + assert (y(x)**x).polynomial_atoms() == {y(x)} diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_value_attrspec.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_value_attrspec.py new file mode 100644 index 0000000000000000000000000000000000000000..83aaf6c9161e0ccc0a388c6b671c63fdbeb3f81d --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/test_value_attrspec.py @@ -0,0 +1,14 @@ +import os +import pytest + +from . import util + +class TestValueAttr(util.F2PyTest): + sources = [util.getpath("tests", "src", "value_attrspec", "gh21665.f90")] + + # gh-21665 + def test_long_long_map(self): + inp = 2 + out = self.module.fortfuncs.square(inp) + exp_out = 4 + assert out == exp_out diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/util.py b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/util.py new file mode 100644 index 0000000000000000000000000000000000000000..6ed6c0855fb8d24ec0df77dabe687144c4342e21 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/f2py/tests/util.py @@ -0,0 +1,440 @@ +""" +Utility functions for + +- building and importing modules on test time, using a temporary location +- detecting if compilers are present +- determining paths to tests + +""" +import glob +import os +import sys +import subprocess +import tempfile +import shutil +import atexit +import textwrap +import re +import pytest +import contextlib +import numpy + +from pathlib import Path +from numpy.compat import asstr +from numpy._utils import asunicode +from numpy.testing import temppath, IS_WASM +from importlib import import_module + +# +# Maintaining a temporary module directory +# + +_module_dir = None +_module_num = 5403 + +if sys.platform == "cygwin": + NUMPY_INSTALL_ROOT = Path(__file__).parent.parent.parent + _module_list = list(NUMPY_INSTALL_ROOT.glob("**/*.dll")) + + +def _cleanup(): + global _module_dir + if _module_dir is not None: + try: + sys.path.remove(_module_dir) + except ValueError: + pass + try: + shutil.rmtree(_module_dir) + except OSError: + pass + _module_dir = None + + +def get_module_dir(): + global _module_dir + if _module_dir is None: + _module_dir = tempfile.mkdtemp() + atexit.register(_cleanup) + if _module_dir not in sys.path: + sys.path.insert(0, _module_dir) + return _module_dir + + +def get_temp_module_name(): + # Assume single-threaded, and the module dir usable only by this thread + global _module_num + get_module_dir() + name = "_test_ext_module_%d" % _module_num + _module_num += 1 + if name in sys.modules: + # this should not be possible, but check anyway + raise RuntimeError("Temporary module name already in use.") + return name + + +def _memoize(func): + memo = {} + + def wrapper(*a, **kw): + key = repr((a, kw)) + if key not in memo: + try: + memo[key] = func(*a, **kw) + except Exception as e: + memo[key] = e + raise + ret = memo[key] + if isinstance(ret, Exception): + raise ret + return ret + + wrapper.__name__ = func.__name__ + return wrapper + + +# +# Building modules +# + + +@_memoize +def build_module(source_files, options=[], skip=[], only=[], module_name=None): + """ + Compile and import a f2py module, built from the given files. + + """ + + code = f"import sys; sys.path = {sys.path!r}; import numpy.f2py; numpy.f2py.main()" + + d = get_module_dir() + + # Copy files + dst_sources = [] + f2py_sources = [] + for fn in source_files: + if not os.path.isfile(fn): + raise RuntimeError("%s is not a file" % fn) + dst = os.path.join(d, os.path.basename(fn)) + shutil.copyfile(fn, dst) + dst_sources.append(dst) + + base, ext = os.path.splitext(dst) + if ext in (".f90", ".f", ".c", ".pyf"): + f2py_sources.append(dst) + + assert f2py_sources + + # Prepare options + if module_name is None: + module_name = get_temp_module_name() + f2py_opts = ["-c", "-m", module_name] + options + f2py_sources + if skip: + f2py_opts += ["skip:"] + skip + if only: + f2py_opts += ["only:"] + only + + # Build + cwd = os.getcwd() + try: + os.chdir(d) + cmd = [sys.executable, "-c", code] + f2py_opts + p = subprocess.Popen(cmd, + stdout=subprocess.PIPE, + stderr=subprocess.STDOUT) + out, err = p.communicate() + if p.returncode != 0: + raise RuntimeError("Running f2py failed: %s\n%s" % + (cmd[4:], asunicode(out))) + finally: + os.chdir(cwd) + + # Partial cleanup + for fn in dst_sources: + os.unlink(fn) + + # Rebase (Cygwin-only) + if sys.platform == "cygwin": + # If someone starts deleting modules after import, this will + # need to change to record how big each module is, rather than + # relying on rebase being able to find that from the files. + _module_list.extend( + glob.glob(os.path.join(d, "{:s}*".format(module_name))) + ) + subprocess.check_call( + ["/usr/bin/rebase", "--database", "--oblivious", "--verbose"] + + _module_list + ) + + + + # Import + return import_module(module_name) + + +@_memoize +def build_code(source_code, + options=[], + skip=[], + only=[], + suffix=None, + module_name=None): + """ + Compile and import Fortran code using f2py. + + """ + if suffix is None: + suffix = ".f" + with temppath(suffix=suffix) as path: + with open(path, "w") as f: + f.write(source_code) + return build_module([path], + options=options, + skip=skip, + only=only, + module_name=module_name) + + +# +# Check if compilers are available at all... +# + +_compiler_status = None + + +def _get_compiler_status(): + global _compiler_status + if _compiler_status is not None: + return _compiler_status + + _compiler_status = (False, False, False) + if IS_WASM: + # Can't run compiler from inside WASM. + return _compiler_status + + # XXX: this is really ugly. But I don't know how to invoke Distutils + # in a safer way... + code = textwrap.dedent(f"""\ + import os + import sys + sys.path = {repr(sys.path)} + + def configuration(parent_name='',top_path=None): + global config + from numpy.distutils.misc_util import Configuration + config = Configuration('', parent_name, top_path) + return config + + from numpy.distutils.core import setup + setup(configuration=configuration) + + config_cmd = config.get_config_cmd() + have_c = config_cmd.try_compile('void foo() {{}}') + print('COMPILERS:%%d,%%d,%%d' %% (have_c, + config.have_f77c(), + config.have_f90c())) + sys.exit(99) + """) + code = code % dict(syspath=repr(sys.path)) + + tmpdir = tempfile.mkdtemp() + try: + script = os.path.join(tmpdir, "setup.py") + + with open(script, "w") as f: + f.write(code) + + cmd = [sys.executable, "setup.py", "config"] + p = subprocess.Popen(cmd, + stdout=subprocess.PIPE, + stderr=subprocess.STDOUT, + cwd=tmpdir) + out, err = p.communicate() + finally: + shutil.rmtree(tmpdir) + + m = re.search(br"COMPILERS:(\d+),(\d+),(\d+)", out) + if m: + _compiler_status = ( + bool(int(m.group(1))), + bool(int(m.group(2))), + bool(int(m.group(3))), + ) + # Finished + return _compiler_status + + +def has_c_compiler(): + return _get_compiler_status()[0] + + +def has_f77_compiler(): + return _get_compiler_status()[1] + + +def has_f90_compiler(): + return _get_compiler_status()[2] + + +# +# Building with distutils +# + + +@_memoize +def build_module_distutils(source_files, config_code, module_name, **kw): + """ + Build a module via distutils and import it. + + """ + d = get_module_dir() + + # Copy files + dst_sources = [] + for fn in source_files: + if not os.path.isfile(fn): + raise RuntimeError("%s is not a file" % fn) + dst = os.path.join(d, os.path.basename(fn)) + shutil.copyfile(fn, dst) + dst_sources.append(dst) + + # Build script + config_code = textwrap.dedent(config_code).replace("\n", "\n ") + + code = fr""" +import os +import sys +sys.path = {repr(sys.path)} + +def configuration(parent_name='',top_path=None): + from numpy.distutils.misc_util import Configuration + config = Configuration('', parent_name, top_path) + {config_code} + return config + +if __name__ == "__main__": + from numpy.distutils.core import setup + setup(configuration=configuration) + """ + script = os.path.join(d, get_temp_module_name() + ".py") + dst_sources.append(script) + with open(script, "wb") as f: + f.write(code.encode('latin1')) + + # Build + cwd = os.getcwd() + try: + os.chdir(d) + cmd = [sys.executable, script, "build_ext", "-i"] + p = subprocess.Popen(cmd, + stdout=subprocess.PIPE, + stderr=subprocess.STDOUT) + out, err = p.communicate() + if p.returncode != 0: + raise RuntimeError("Running distutils build failed: %s\n%s" % + (cmd[4:], asstr(out))) + finally: + os.chdir(cwd) + + # Partial cleanup + for fn in dst_sources: + os.unlink(fn) + + # Import + __import__(module_name) + return sys.modules[module_name] + + +# +# Unittest convenience +# + + +class F2PyTest: + code = None + sources = None + options = [] + skip = [] + only = [] + suffix = ".f" + module = None + + @property + def module_name(self): + cls = type(self) + return f'_{cls.__module__.rsplit(".",1)[-1]}_{cls.__name__}_ext_module' + + def setup_method(self): + if sys.platform == "win32": + pytest.skip("Fails with MinGW64 Gfortran (Issue #9673)") + + if self.module is not None: + return + + # Check compiler availability first + if not has_c_compiler(): + pytest.skip("No C compiler available") + + codes = [] + if self.sources: + codes.extend(self.sources) + if self.code is not None: + codes.append(self.suffix) + + needs_f77 = False + needs_f90 = False + needs_pyf = False + for fn in codes: + if str(fn).endswith(".f"): + needs_f77 = True + elif str(fn).endswith(".f90"): + needs_f90 = True + elif str(fn).endswith(".pyf"): + needs_pyf = True + if needs_f77 and not has_f77_compiler(): + pytest.skip("No Fortran 77 compiler available") + if needs_f90 and not has_f90_compiler(): + pytest.skip("No Fortran 90 compiler available") + if needs_pyf and not (has_f90_compiler() or has_f77_compiler()): + pytest.skip("No Fortran compiler available") + + # Build the module + if self.code is not None: + self.module = build_code( + self.code, + options=self.options, + skip=self.skip, + only=self.only, + suffix=self.suffix, + module_name=self.module_name, + ) + + if self.sources is not None: + self.module = build_module( + self.sources, + options=self.options, + skip=self.skip, + only=self.only, + module_name=self.module_name, + ) + + +# +# Helper functions +# + + +def getpath(*a): + # Package root + d = Path(numpy.f2py.__file__).parent.resolve() + return d.joinpath(*a) + + +@contextlib.contextmanager +def switchdir(path): + curpath = Path.cwd() + os.chdir(path) + try: + yield + finally: + os.chdir(curpath) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/__init__.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/__init__.py new 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index 0000000000000000000000000000000000000000..965e547e7c977a755885b5410d198dc912968eef --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_ctypeslib.py @@ -0,0 +1,370 @@ +import sys +import sysconfig +import weakref +from pathlib import Path + +import pytest + +import numpy as np +from numpy.ctypeslib import ndpointer, load_library, as_array +from numpy.testing import assert_, assert_array_equal, assert_raises, assert_equal + +try: + import ctypes +except ImportError: + ctypes = None +else: + cdll = None + test_cdll = None + if hasattr(sys, 'gettotalrefcount'): + try: + cdll = load_library('_multiarray_umath_d', np.core._multiarray_umath.__file__) + except OSError: + pass + try: + test_cdll = load_library('_multiarray_tests', np.core._multiarray_tests.__file__) + except OSError: + pass + if cdll is None: + cdll = load_library('_multiarray_umath', np.core._multiarray_umath.__file__) + if test_cdll is None: + test_cdll = load_library('_multiarray_tests', np.core._multiarray_tests.__file__) + + c_forward_pointer = test_cdll.forward_pointer + + +@pytest.mark.skipif(ctypes is None, + reason="ctypes not available in this python") +@pytest.mark.skipif(sys.platform == 'cygwin', + reason="Known to fail on cygwin") +class TestLoadLibrary: + def test_basic(self): + loader_path = np.core._multiarray_umath.__file__ + + out1 = load_library('_multiarray_umath', loader_path) + out2 = load_library(Path('_multiarray_umath'), loader_path) + out3 = load_library('_multiarray_umath', Path(loader_path)) + out4 = load_library(b'_multiarray_umath', loader_path) + + assert isinstance(out1, ctypes.CDLL) + assert out1 is out2 is out3 is out4 + + def test_basic2(self): + # Regression for #801: load_library with a full library name + # (including extension) does not work. + try: + so_ext = sysconfig.get_config_var('EXT_SUFFIX') + load_library('_multiarray_umath%s' % so_ext, + np.core._multiarray_umath.__file__) + except ImportError as e: + msg = ("ctypes is not available on this python: skipping the test" + " (import error was: %s)" % str(e)) + print(msg) + + +class TestNdpointer: + def test_dtype(self): + dt = np.intc + p = ndpointer(dtype=dt) + assert_(p.from_param(np.array([1], dt))) + dt = 'i4') + p = ndpointer(dtype=dt) + p.from_param(np.array([1], dt)) + assert_raises(TypeError, p.from_param, + np.array([1], dt.newbyteorder('swap'))) + dtnames = ['x', 'y'] + dtformats = [np.intc, np.float64] + dtdescr = {'names': dtnames, 'formats': dtformats} + dt = np.dtype(dtdescr) + p = ndpointer(dtype=dt) + assert_(p.from_param(np.zeros((10,), dt))) + samedt = np.dtype(dtdescr) + p = ndpointer(dtype=samedt) + assert_(p.from_param(np.zeros((10,), dt))) + dt2 = np.dtype(dtdescr, align=True) + if dt.itemsize != dt2.itemsize: + assert_raises(TypeError, p.from_param, np.zeros((10,), dt2)) + else: + assert_(p.from_param(np.zeros((10,), dt2))) + + def test_ndim(self): + p = ndpointer(ndim=0) + assert_(p.from_param(np.array(1))) + assert_raises(TypeError, p.from_param, np.array([1])) + p = ndpointer(ndim=1) + assert_raises(TypeError, p.from_param, np.array(1)) + assert_(p.from_param(np.array([1]))) + p = ndpointer(ndim=2) + assert_(p.from_param(np.array([[1]]))) + + def test_shape(self): + p = ndpointer(shape=(1, 2)) + assert_(p.from_param(np.array([[1, 2]]))) + assert_raises(TypeError, p.from_param, np.array([[1], [2]])) + p = ndpointer(shape=()) + assert_(p.from_param(np.array(1))) + + def test_flags(self): + x = np.array([[1, 2], [3, 4]], order='F') + p = ndpointer(flags='FORTRAN') + assert_(p.from_param(x)) + p = ndpointer(flags='CONTIGUOUS') + assert_raises(TypeError, p.from_param, x) + p = ndpointer(flags=x.flags.num) + assert_(p.from_param(x)) + assert_raises(TypeError, p.from_param, np.array([[1, 2], [3, 4]])) + + def test_cache(self): + assert_(ndpointer(dtype=np.float64) is ndpointer(dtype=np.float64)) + + # shapes are normalized + assert_(ndpointer(shape=2) is ndpointer(shape=(2,))) + + # 1.12 <= v < 1.16 had a bug that made these fail + assert_(ndpointer(shape=2) is not ndpointer(ndim=2)) + assert_(ndpointer(ndim=2) is not ndpointer(shape=2)) + +@pytest.mark.skipif(ctypes is None, + reason="ctypes not available on this python installation") +class TestNdpointerCFunc: + def test_arguments(self): + """ Test that arguments are coerced from arrays """ + c_forward_pointer.restype = ctypes.c_void_p + c_forward_pointer.argtypes = (ndpointer(ndim=2),) + + c_forward_pointer(np.zeros((2, 3))) + # too many dimensions + assert_raises( + ctypes.ArgumentError, c_forward_pointer, np.zeros((2, 3, 4))) + + @pytest.mark.parametrize( + 'dt', [ + float, + np.dtype(dict( + formats=['u2') + ct = np.ctypeslib.as_ctypes_type(dt) + assert_equal(ct, ctypes.c_uint16.__ctype_be__) + + dt = np.dtype('u2') + ct = np.ctypeslib.as_ctypes_type(dt) + assert_equal(ct, ctypes.c_uint16) + + def test_subarray(self): + dt = np.dtype((np.int32, (2, 3))) + ct = np.ctypeslib.as_ctypes_type(dt) + assert_equal(ct, 2 * (3 * ctypes.c_int32)) + + def test_structure(self): + dt = np.dtype([ + ('a', np.uint16), + ('b', np.uint32), + ]) + + ct = np.ctypeslib.as_ctypes_type(dt) + assert_(issubclass(ct, ctypes.Structure)) + assert_equal(ctypes.sizeof(ct), dt.itemsize) + assert_equal(ct._fields_, [ + ('a', ctypes.c_uint16), + ('b', ctypes.c_uint32), + ]) + + def test_structure_aligned(self): + dt = np.dtype([ + ('a', np.uint16), + ('b', np.uint32), + ], align=True) + + ct = np.ctypeslib.as_ctypes_type(dt) + assert_(issubclass(ct, ctypes.Structure)) + assert_equal(ctypes.sizeof(ct), dt.itemsize) + assert_equal(ct._fields_, [ + ('a', ctypes.c_uint16), + ('', ctypes.c_char * 2), # padding + ('b', ctypes.c_uint32), + ]) + + def test_union(self): + dt = np.dtype(dict( + names=['a', 'b'], + offsets=[0, 0], + formats=[np.uint16, np.uint32] + )) + + ct = np.ctypeslib.as_ctypes_type(dt) + assert_(issubclass(ct, ctypes.Union)) + assert_equal(ctypes.sizeof(ct), dt.itemsize) + assert_equal(ct._fields_, [ + ('a', ctypes.c_uint16), + ('b', ctypes.c_uint32), + ]) + + def test_padded_union(self): + dt = np.dtype(dict( + names=['a', 'b'], + offsets=[0, 0], + formats=[np.uint16, np.uint32], + itemsize=5, + )) + + ct = np.ctypeslib.as_ctypes_type(dt) + assert_(issubclass(ct, ctypes.Union)) + assert_equal(ctypes.sizeof(ct), dt.itemsize) + assert_equal(ct._fields_, [ + ('a', ctypes.c_uint16), + ('b', ctypes.c_uint32), + ('', ctypes.c_char * 5), # padding + ]) + + def test_overlapping(self): + dt = np.dtype(dict( + names=['a', 'b'], + offsets=[0, 2], + formats=[np.uint32, np.uint32] + )) + assert_raises(NotImplementedError, np.ctypeslib.as_ctypes_type, dt) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_lazyloading.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_lazyloading.py new file mode 100644 index 0000000000000000000000000000000000000000..f31a4eab79d04d95f07a365f9ceafe5b168194fb --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_lazyloading.py @@ -0,0 +1,38 @@ +import sys +import importlib +from importlib.util import LazyLoader, find_spec, module_from_spec +import pytest + + +# Warning raised by _reload_guard() in numpy/__init__.py +@pytest.mark.filterwarnings("ignore:The NumPy module was reloaded") +def test_lazy_load(): + # gh-22045. lazyload doesn't import submodule names into the namespace + # muck with sys.modules to test the importing system + old_numpy = sys.modules.pop("numpy") + + numpy_modules = {} + for mod_name, mod in list(sys.modules.items()): + if mod_name[:6] == "numpy.": + numpy_modules[mod_name] = mod + sys.modules.pop(mod_name) + + try: + # create lazy load of numpy as np + spec = find_spec("numpy") + module = module_from_spec(spec) + sys.modules["numpy"] = module + loader = LazyLoader(spec.loader) + loader.exec_module(module) + np = module + + # test a subpackage import + from numpy.lib import recfunctions + + # test triggering the import of the package + np.ndarray + + finally: + if old_numpy: + sys.modules["numpy"] = old_numpy + sys.modules.update(numpy_modules) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_config.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_config.py new file mode 100644 index 0000000000000000000000000000000000000000..82c1ad70b93015f71ce386a9388ccad0eff19047 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_config.py @@ -0,0 +1,44 @@ +""" +Check the numpy config is valid. +""" +import numpy as np +import pytest +from unittest.mock import Mock, patch + +pytestmark = pytest.mark.skipif( + not hasattr(np.__config__, "_built_with_meson"), + reason="Requires Meson builds", +) + + +class TestNumPyConfigs: + REQUIRED_CONFIG_KEYS = [ + "Compilers", + "Machine Information", + "Python Information", + ] + + @patch("numpy.__config__._check_pyyaml") + def test_pyyaml_not_found(self, mock_yaml_importer): + mock_yaml_importer.side_effect = ModuleNotFoundError() + with pytest.warns(UserWarning): + np.show_config() + + def test_dict_mode(self): + config = np.show_config(mode="dicts") + + assert isinstance(config, dict) + assert all([key in config for key in self.REQUIRED_CONFIG_KEYS]), ( + "Required key missing," + " see index of `False` with `REQUIRED_CONFIG_KEYS`" + ) + + def test_invalid_mode(self): + with pytest.raises(AttributeError): + np.show_config(mode="foo") + + def test_warn_to_add_tests(self): + assert len(np.__config__.DisplayModes) == 2, ( + "New mode detected," + " please add UT if applicable and increment this count" + ) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_version.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_version.py new file mode 100644 index 0000000000000000000000000000000000000000..61643426c8d757c8367dc7e8d19f6d4c106314a3 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_numpy_version.py @@ -0,0 +1,41 @@ +""" +Check the numpy version is valid. + +Note that a development version is marked by the presence of 'dev0' or '+' +in the version string, all else is treated as a release. The version string +itself is set from the output of ``git describe`` which relies on tags. + +Examples +-------- + +Valid Development: 1.22.0.dev0 1.22.0.dev0+5-g7999db4df2 1.22.0+5-g7999db4df2 +Valid Release: 1.21.0.rc1, 1.21.0.b1, 1.21.0 +Invalid: 1.22.0.dev, 1.22.0.dev0-5-g7999db4dfB, 1.21.0.d1, 1.21.a + +Note that a release is determined by the version string, which in turn +is controlled by the result of the ``git describe`` command. +""" +import re + +import numpy as np +from numpy.testing import assert_ + + +def test_valid_numpy_version(): + # Verify that the numpy version is a valid one (no .post suffix or other + # nonsense). See gh-6431 for an issue caused by an invalid version. + version_pattern = r"^[0-9]+\.[0-9]+\.[0-9]+(a[0-9]|b[0-9]|rc[0-9])?" + dev_suffix = r"(\.dev[0-9]+(\+git[0-9]+\.[0-9a-f]+)?)?" + res = re.match(version_pattern + dev_suffix + '$', np.__version__) + + assert_(res is not None, np.__version__) + + +def test_short_version(): + # Check numpy.short_version actually exists + if np.version.release: + assert_(np.__version__ == np.version.short_version, + "short_version mismatch in release version") + else: + assert_(np.__version__.split("+")[0] == np.version.short_version, + "short_version mismatch in development version") diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_public_api.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_public_api.py new file mode 100644 index 0000000000000000000000000000000000000000..54bf3dacf9722004d51cb13d8b5dd7c1105a655a --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_public_api.py @@ -0,0 +1,551 @@ +import sys +import sysconfig +import subprocess +import pkgutil +import types +import importlib +import warnings + +import numpy as np +import numpy +import pytest +from numpy.testing import IS_WASM + +try: + import ctypes +except ImportError: + ctypes = None + + +def check_dir(module, module_name=None): + """Returns a mapping of all objects with the wrong __module__ attribute.""" + if module_name is None: + module_name = module.__name__ + results = {} + for name in dir(module): + item = getattr(module, name) + if (hasattr(item, '__module__') and hasattr(item, '__name__') + and item.__module__ != module_name): + results[name] = item.__module__ + '.' + item.__name__ + return results + + +def test_numpy_namespace(): + # None of these objects are publicly documented to be part of the main + # NumPy namespace (some are useful though, others need to be cleaned up) + undocumented = { + '_add_newdoc_ufunc': 'numpy.core._multiarray_umath._add_newdoc_ufunc', + 'add_docstring': 'numpy.core._multiarray_umath.add_docstring', + 'add_newdoc': 'numpy.core.function_base.add_newdoc', + 'add_newdoc_ufunc': 'numpy.core._multiarray_umath._add_newdoc_ufunc', + 'byte_bounds': 'numpy.lib.utils.byte_bounds', + 'compare_chararrays': 'numpy.core._multiarray_umath.compare_chararrays', + 'deprecate': 'numpy.lib.utils.deprecate', + 'deprecate_with_doc': 'numpy.lib.utils.deprecate_with_doc', + 'disp': 'numpy.lib.function_base.disp', + 'fastCopyAndTranspose': 'numpy.core._multiarray_umath.fastCopyAndTranspose', + 'get_array_wrap': 'numpy.lib.shape_base.get_array_wrap', + 'get_include': 'numpy.lib.utils.get_include', + 'recfromcsv': 'numpy.lib.npyio.recfromcsv', + 'recfromtxt': 'numpy.lib.npyio.recfromtxt', + 'safe_eval': 'numpy.lib.utils.safe_eval', + 'set_string_function': 'numpy.core.arrayprint.set_string_function', + 'show_config': 'numpy.__config__.show', + 'show_runtime': 'numpy.lib.utils.show_runtime', + 'who': 'numpy.lib.utils.who', + } + # We override dir to not show these members + allowlist = undocumented + bad_results = check_dir(np) + # pytest gives better error messages with the builtin assert than with + # assert_equal + assert bad_results == allowlist + + +@pytest.mark.skipif(IS_WASM, reason="can't start subprocess") +@pytest.mark.parametrize('name', ['testing']) +def test_import_lazy_import(name): + """Make sure we can actually use the modules we lazy load. + + While not exported as part of the public API, it was accessible. With the + use of __getattr__ and __dir__, this isn't always true It can happen that + an infinite recursion may happen. + + This is the only way I found that would force the failure to appear on the + badly implemented code. + + We also test for the presence of the lazily imported modules in dir + + """ + exe = (sys.executable, '-c', "import numpy; numpy." + name) + result = subprocess.check_output(exe) + assert not result + + # Make sure they are still in the __dir__ + assert name in dir(np) + + +def test_dir_testing(): + """Assert that output of dir has only one "testing/tester" + attribute without duplicate""" + assert len(dir(np)) == len(set(dir(np))) + + +def test_numpy_linalg(): + bad_results = check_dir(np.linalg) + assert bad_results == {} + + +def test_numpy_fft(): + bad_results = check_dir(np.fft) + assert bad_results == {} + + +@pytest.mark.skipif(ctypes is None, + reason="ctypes not available in this python") +def test_NPY_NO_EXPORT(): + cdll = ctypes.CDLL(np.core._multiarray_tests.__file__) + # Make sure an arbitrary NPY_NO_EXPORT function is actually hidden + f = getattr(cdll, 'test_not_exported', None) + assert f is None, ("'test_not_exported' is mistakenly exported, " + "NPY_NO_EXPORT does not work") + + +# Historically NumPy has not used leading underscores for private submodules +# much. This has resulted in lots of things that look like public modules +# (i.e. things that can be imported as `import numpy.somesubmodule.somefile`), +# but were never intended to be public. The PUBLIC_MODULES list contains +# modules that are either public because they were meant to be, or because they +# contain public functions/objects that aren't present in any other namespace +# for whatever reason and therefore should be treated as public. +# +# The PRIVATE_BUT_PRESENT_MODULES list contains modules that look public (lack +# of underscores) but should not be used. For many of those modules the +# current status is fine. For others it may make sense to work on making them +# private, to clean up our public API and avoid confusion. +PUBLIC_MODULES = ['numpy.' + s for s in [ + "array_api", + "array_api.linalg", + "ctypeslib", + "doc", + "doc.constants", + "doc.ufuncs", + "dtypes", + "exceptions", + "f2py", + "fft", + "lib", + "lib.format", # was this meant to be public? + "lib.mixins", + "lib.recfunctions", + "lib.scimath", + "lib.stride_tricks", + "linalg", + "ma", + "ma.extras", + "ma.mrecords", + "matlib", + "polynomial", + "polynomial.chebyshev", + "polynomial.hermite", + "polynomial.hermite_e", + "polynomial.laguerre", + "polynomial.legendre", + "polynomial.polynomial", + "random", + "testing", + "testing.overrides", + "typing", + "typing.mypy_plugin", + "version" # Should be removed for NumPy 2.0 +]] +if sys.version_info < (3, 12): + PUBLIC_MODULES += [ + 'numpy.' + s for s in [ + "distutils", + "distutils.cpuinfo", + "distutils.exec_command", + "distutils.misc_util", + "distutils.log", + "distutils.system_info", + ] + ] + + + +PUBLIC_ALIASED_MODULES = [ + "numpy.char", + "numpy.emath", + "numpy.rec", +] + + +PRIVATE_BUT_PRESENT_MODULES = ['numpy.' + s for s in [ + "compat", + "compat.py3k", + "conftest", + "core", + "core.arrayprint", + "core.defchararray", + "core.einsumfunc", + "core.fromnumeric", + "core.function_base", + "core.getlimits", + "core.memmap", + "core.multiarray", + "core.numeric", + "core.numerictypes", + "core.overrides", + "core.records", + "core.shape_base", + "core.umath", + "f2py.auxfuncs", + "f2py.capi_maps", + "f2py.cb_rules", + "f2py.cfuncs", + "f2py.common_rules", + "f2py.crackfortran", + "f2py.diagnose", + "f2py.f2py2e", + "f2py.f90mod_rules", + "f2py.func2subr", + "f2py.rules", + "f2py.symbolic", + "f2py.use_rules", + "fft.helper", + "lib.arraypad", + "lib.arraysetops", + "lib.arrayterator", + "lib.function_base", + "lib.histograms", + "lib.index_tricks", + "lib.nanfunctions", + "lib.npyio", + "lib.polynomial", + "lib.shape_base", + "lib.twodim_base", + "lib.type_check", + "lib.ufunclike", + "lib.user_array", # note: not in np.lib, but probably should just be deleted + "lib.utils", + "linalg.lapack_lite", + "linalg.linalg", + "ma.core", + "ma.testutils", + "ma.timer_comparison", + "matrixlib", + "matrixlib.defmatrix", + "polynomial.polyutils", + "random.mtrand", + "random.bit_generator", + "testing.print_coercion_tables", +]] +if sys.version_info < (3, 12): + PRIVATE_BUT_PRESENT_MODULES += [ + 'numpy.' + s for s in [ + "distutils.armccompiler", + "distutils.fujitsuccompiler", + "distutils.ccompiler", + 'distutils.ccompiler_opt', + "distutils.command", + "distutils.command.autodist", + "distutils.command.bdist_rpm", + "distutils.command.build", + "distutils.command.build_clib", + "distutils.command.build_ext", + "distutils.command.build_py", + "distutils.command.build_scripts", + "distutils.command.build_src", + "distutils.command.config", + "distutils.command.config_compiler", + "distutils.command.develop", + "distutils.command.egg_info", + "distutils.command.install", + "distutils.command.install_clib", + "distutils.command.install_data", + "distutils.command.install_headers", + "distutils.command.sdist", + "distutils.conv_template", + "distutils.core", + "distutils.extension", + "distutils.fcompiler", + "distutils.fcompiler.absoft", + "distutils.fcompiler.arm", + "distutils.fcompiler.compaq", + "distutils.fcompiler.environment", + "distutils.fcompiler.g95", + "distutils.fcompiler.gnu", + "distutils.fcompiler.hpux", + "distutils.fcompiler.ibm", + "distutils.fcompiler.intel", + "distutils.fcompiler.lahey", + "distutils.fcompiler.mips", + "distutils.fcompiler.nag", + "distutils.fcompiler.none", + "distutils.fcompiler.pathf95", + "distutils.fcompiler.pg", + "distutils.fcompiler.nv", + "distutils.fcompiler.sun", + "distutils.fcompiler.vast", + "distutils.fcompiler.fujitsu", + "distutils.from_template", + "distutils.intelccompiler", + "distutils.lib2def", + "distutils.line_endings", + "distutils.mingw32ccompiler", + "distutils.msvccompiler", + "distutils.npy_pkg_config", + "distutils.numpy_distribution", + "distutils.pathccompiler", + "distutils.unixccompiler", + ] + ] + + +def is_unexpected(name): + """Check if this needs to be considered.""" + if '._' in name or '.tests' in name or '.setup' in name: + return False + + if name in PUBLIC_MODULES: + return False + + if name in PUBLIC_ALIASED_MODULES: + return False + + if name in PRIVATE_BUT_PRESENT_MODULES: + return False + + return True + + +# These are present in a directory with an __init__.py but cannot be imported +# code_generators/ isn't installed, but present for an inplace build +SKIP_LIST = [ + "numpy.core.code_generators", + "numpy.core.code_generators.genapi", + "numpy.core.code_generators.generate_umath", + "numpy.core.code_generators.ufunc_docstrings", + "numpy.core.code_generators.generate_numpy_api", + "numpy.core.code_generators.generate_ufunc_api", + "numpy.core.code_generators.numpy_api", + "numpy.core.code_generators.generate_umath_doc", + "numpy.core.code_generators.verify_c_api_version", + "numpy.core.cversions", + "numpy.core.generate_numpy_api", + "numpy.core.umath_tests", +] +if sys.version_info < (3, 12): + SKIP_LIST += ["numpy.distutils.msvc9compiler"] + + +# suppressing warnings from deprecated modules +@pytest.mark.filterwarnings("ignore:.*np.compat.*:DeprecationWarning") +def test_all_modules_are_expected(): + """ + Test that we don't add anything that looks like a new public module by + accident. Check is based on filenames. + """ + + modnames = [] + for _, modname, ispkg in pkgutil.walk_packages(path=np.__path__, + prefix=np.__name__ + '.', + onerror=None): + if is_unexpected(modname) and modname not in SKIP_LIST: + # We have a name that is new. If that's on purpose, add it to + # PUBLIC_MODULES. We don't expect to have to add anything to + # PRIVATE_BUT_PRESENT_MODULES. Use an underscore in the name! + modnames.append(modname) + + if modnames: + raise AssertionError(f'Found unexpected modules: {modnames}') + + +# Stuff that clearly shouldn't be in the API and is detected by the next test +# below +SKIP_LIST_2 = [ + 'numpy.math', + 'numpy.doc.constants.re', + 'numpy.doc.constants.textwrap', + 'numpy.lib.emath', + 'numpy.lib.math', + 'numpy.matlib.char', + 'numpy.matlib.rec', + 'numpy.matlib.emath', + 'numpy.matlib.exceptions', + 'numpy.matlib.math', + 'numpy.matlib.linalg', + 'numpy.matlib.fft', + 'numpy.matlib.random', + 'numpy.matlib.ctypeslib', + 'numpy.matlib.ma', +] +if sys.version_info < (3, 12): + SKIP_LIST_2 += [ + 'numpy.distutils.log.sys', + 'numpy.distutils.log.logging', + 'numpy.distutils.log.warnings', + ] + + +def test_all_modules_are_expected_2(): + """ + Method checking all objects. The pkgutil-based method in + `test_all_modules_are_expected` does not catch imports into a namespace, + only filenames. So this test is more thorough, and checks this like: + + import .lib.scimath as emath + + To check if something in a module is (effectively) public, one can check if + there's anything in that namespace that's a public function/object but is + not exposed in a higher-level namespace. For example for a `numpy.lib` + submodule:: + + mod = np.lib.mixins + for obj in mod.__all__: + if obj in np.__all__: + continue + elif obj in np.lib.__all__: + continue + + else: + print(obj) + + """ + + def find_unexpected_members(mod_name): + members = [] + module = importlib.import_module(mod_name) + if hasattr(module, '__all__'): + objnames = module.__all__ + else: + objnames = dir(module) + + for objname in objnames: + if not objname.startswith('_'): + fullobjname = mod_name + '.' + objname + if isinstance(getattr(module, objname), types.ModuleType): + if is_unexpected(fullobjname): + if fullobjname not in SKIP_LIST_2: + members.append(fullobjname) + + return members + + unexpected_members = find_unexpected_members("numpy") + for modname in PUBLIC_MODULES: + unexpected_members.extend(find_unexpected_members(modname)) + + if unexpected_members: + raise AssertionError("Found unexpected object(s) that look like " + "modules: {}".format(unexpected_members)) + + +def test_api_importable(): + """ + Check that all submodules listed higher up in this file can be imported + + Note that if a PRIVATE_BUT_PRESENT_MODULES entry goes missing, it may + simply need to be removed from the list (deprecation may or may not be + needed - apply common sense). + """ + def check_importable(module_name): + try: + importlib.import_module(module_name) + except (ImportError, AttributeError): + return False + + return True + + module_names = [] + for module_name in PUBLIC_MODULES: + if not check_importable(module_name): + module_names.append(module_name) + + if module_names: + raise AssertionError("Modules in the public API that cannot be " + "imported: {}".format(module_names)) + + for module_name in PUBLIC_ALIASED_MODULES: + try: + eval(module_name) + except AttributeError: + module_names.append(module_name) + + if module_names: + raise AssertionError("Modules in the public API that were not " + "found: {}".format(module_names)) + + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', category=DeprecationWarning) + warnings.filterwarnings('always', category=ImportWarning) + for module_name in PRIVATE_BUT_PRESENT_MODULES: + if not check_importable(module_name): + module_names.append(module_name) + + if module_names: + raise AssertionError("Modules that are not really public but looked " + "public and can not be imported: " + "{}".format(module_names)) + + +@pytest.mark.xfail( + sysconfig.get_config_var("Py_DEBUG") not in (None, 0, "0"), + reason=( + "NumPy possibly built with `USE_DEBUG=True ./tools/travis-test.sh`, " + "which does not expose the `array_api` entry point. " + "See https://github.com/numpy/numpy/pull/19800" + ), +) +def test_array_api_entry_point(): + """ + Entry point for Array API implementation can be found with importlib and + returns the numpy.array_api namespace. + """ + # For a development install that did not go through meson-python, + # the entrypoint will not have been installed. So ensure this test fails + # only if numpy is inside site-packages. + numpy_in_sitepackages = sysconfig.get_path('platlib') in np.__file__ + + eps = importlib.metadata.entry_points() + try: + xp_eps = eps.select(group="array_api") + except AttributeError: + # The select interface for entry_points was introduced in py3.10, + # deprecating its dict interface. We fallback to dict keys for finding + # Array API entry points so that running this test in <=3.9 will + # still work - see https://github.com/numpy/numpy/pull/19800. + xp_eps = eps.get("array_api", []) + if len(xp_eps) == 0: + if numpy_in_sitepackages: + msg = "No entry points for 'array_api' found" + raise AssertionError(msg) from None + return + + try: + ep = next(ep for ep in xp_eps if ep.name == "numpy") + except StopIteration: + if numpy_in_sitepackages: + msg = "'numpy' not in array_api entry points" + raise AssertionError(msg) from None + return + + xp = ep.load() + msg = ( + f"numpy entry point value '{ep.value}' " + "does not point to our Array API implementation" + ) + assert xp is numpy.array_api, msg + + +@pytest.mark.parametrize("name", [ + 'ModuleDeprecationWarning', 'VisibleDeprecationWarning', + 'ComplexWarning', 'TooHardError', 'AxisError']) +def test_moved_exceptions(name): + # These were moved to the exceptions namespace, but currently still + # available + assert name in np.__all__ + assert name not in np.__dir__() + # Fetching works, but __module__ is set correctly: + assert getattr(np, name).__module__ == "numpy.exceptions" + assert name in np.exceptions.__all__ + getattr(np.exceptions, name) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_reloading.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_reloading.py new file mode 100644 index 0000000000000000000000000000000000000000..a1f360089a547bb4c81ef7a43884823ba4734227 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_reloading.py @@ -0,0 +1,72 @@ +from numpy.testing import ( + assert_raises, + assert_warns, + assert_, + assert_equal, + IS_WASM, +) +from numpy.compat import pickle + +import pytest +import sys +import subprocess +import textwrap +from importlib import reload + + +def test_numpy_reloading(): + # gh-7844. Also check that relevant globals retain their identity. + import numpy as np + import numpy._globals + + _NoValue = np._NoValue + VisibleDeprecationWarning = np.VisibleDeprecationWarning + ModuleDeprecationWarning = np.ModuleDeprecationWarning + + with assert_warns(UserWarning): + reload(np) + assert_(_NoValue is np._NoValue) + assert_(ModuleDeprecationWarning is np.ModuleDeprecationWarning) + assert_(VisibleDeprecationWarning is np.VisibleDeprecationWarning) + + assert_raises(RuntimeError, reload, numpy._globals) + with assert_warns(UserWarning): + reload(np) + assert_(_NoValue is np._NoValue) + assert_(ModuleDeprecationWarning is np.ModuleDeprecationWarning) + assert_(VisibleDeprecationWarning is np.VisibleDeprecationWarning) + +def test_novalue(): + import numpy as np + for proto in range(2, pickle.HIGHEST_PROTOCOL + 1): + assert_equal(repr(np._NoValue), '') + assert_(pickle.loads(pickle.dumps(np._NoValue, + protocol=proto)) is np._NoValue) + + +@pytest.mark.skipif(IS_WASM, reason="can't start subprocess") +def test_full_reimport(): + """At the time of writing this, it is *not* truly supported, but + apparently enough users rely on it, for it to be an annoying change + when it started failing previously. + """ + # Test within a new process, to ensure that we do not mess with the + # global state during the test run (could lead to cryptic test failures). + # This is generally unsafe, especially, since we also reload the C-modules. + code = textwrap.dedent(r""" + import sys + from pytest import warns + import numpy as np + + for k in list(sys.modules.keys()): + if "numpy" in k: + del sys.modules[k] + + with warns(UserWarning): + import numpy as np + """) + p = subprocess.run([sys.executable, '-c', code], capture_output=True) + if p.returncode: + raise AssertionError( + f"Non-zero return code: {p.returncode!r}\n\n{p.stderr.decode()}" + ) diff --git a/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_scripts.py b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_scripts.py new file mode 100644 index 0000000000000000000000000000000000000000..892c04eef0bed4b9d92408419c547f8258a005e3 --- /dev/null +++ b/llmeval-env/lib/python3.10/site-packages/numpy/tests/test_scripts.py @@ -0,0 +1,47 @@ +""" Test scripts + +Test that we can run executable scripts that have been installed with numpy. +""" +import sys +import os +import pytest +from os.path import join as pathjoin, isfile, dirname +import subprocess + +import numpy as np +from numpy.testing import assert_equal, IS_WASM + +is_inplace = isfile(pathjoin(dirname(np.__file__), '..', 'setup.py')) + + +def find_f2py_commands(): + if sys.platform == 'win32': + exe_dir = dirname(sys.executable) + if exe_dir.endswith('Scripts'): # virtualenv + return [os.path.join(exe_dir, 'f2py')] + else: + return [os.path.join(exe_dir, "Scripts", 'f2py')] + else: + # Three scripts are installed in Unix-like systems: + # 'f2py', 'f2py{major}', and 'f2py{major.minor}'. For example, + # if installed with python3.9 the scripts would be named + # 'f2py', 'f2py3', and 'f2py3.9'. + version = sys.version_info + major = str(version.major) + minor = str(version.minor) + return ['f2py', 'f2py' + major, 'f2py' + major + '.' + minor] + + +@pytest.mark.skipif(is_inplace, reason="Cannot test f2py command inplace") +@pytest.mark.xfail(reason="Test is unreliable") +@pytest.mark.parametrize('f2py_cmd', find_f2py_commands()) +def test_f2py(f2py_cmd): + # test that we can run f2py script + stdout = subprocess.check_output([f2py_cmd, '-v']) + assert_equal(stdout.strip(), np.__version__.encode('ascii')) + + +@pytest.mark.skipif(IS_WASM, reason="Cannot start subprocess") +def test_pep338(): + stdout = subprocess.check_output([sys.executable, '-mnumpy.f2py', '-v']) + assert_equal(stdout.strip(), np.__version__.encode('ascii'))