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"""gr.LinePlot() component"""
from __future__ import annotations
import warnings
from collections.abc import Callable, Sequence
from typing import TYPE_CHECKING, Any, Literal
from gradio_client.documentation import document
from gradio.components.base import Component
from gradio.components.plot import AltairPlot, AltairPlotData, Plot
from gradio.events import Events
if TYPE_CHECKING:
import pandas as pd
from gradio.components import Timer
@document()
class LinePlot(Plot):
"""
Creates a line plot component to display data from a pandas DataFrame (as output). As this component does
not accept user input, it is rarely used as an input component.
Demos: live_dashboard
"""
data_model = AltairPlotData
EVENTS = [Events.select]
def __init__(
self,
value: pd.DataFrame | Callable | None = None,
x: str | None = None,
y: str | None = None,
*,
color: str | None = None,
stroke_dash: str | None = None,
overlay_point: bool | None = None,
title: str | None = None,
tooltip: list[str] | str | None = None,
x_title: str | None = None,
y_title: str | None = None,
x_label_angle: float | None = None,
y_label_angle: float | None = None,
color_legend_title: str | None = None,
stroke_dash_legend_title: str | None = None,
color_legend_position: Literal[
"left",
"right",
"top",
"bottom",
"top-left",
"top-right",
"bottom-left",
"bottom-right",
"none",
]
| None = None,
stroke_dash_legend_position: Literal[
"left",
"right",
"top",
"bottom",
"top-left",
"top-right",
"bottom-left",
"bottom-right",
"none",
]
| None = None,
height: int | None = None,
width: int | None = None,
x_lim: list[int] | None = None,
y_lim: list[int] | None = None,
caption: str | None = None,
label: str | None = None,
show_label: bool | None = None,
container: bool = True,
scale: int | None = None,
min_width: int = 160,
every: Timer | float | None = None,
inputs: Component | Sequence[Component] | set[Component] | None = None,
visible: bool = True,
elem_id: str | None = None,
elem_classes: list[str] | str | None = None,
render: bool = True,
key: int | str | None = None,
show_actions_button: bool = False,
interactive: bool | None = None,
):
"""
Parameters:
value: The pandas dataframe containing the data to display in a scatter plot.
x: Column corresponding to the x axis. Can be grouped if datetime, e.g. 'yearmonth(date)' or 'minuteseconds(date)' with a column name 'date'. Any time unit supported by altair can be used.
y: Column corresponding to the y axis. Can be aggregated, e.g. 'sum(price)' or 'count(price)' with a column name 'price'. Any aggregation function supported by altair can be used.
color: The column to determine the point color. If the column contains numeric data, gradio will interpolate the column data so that small values correspond to light colors and large values correspond to dark values.
stroke_dash: The column to determine the symbol used to draw the line, e.g. dashed lines, dashed lines with points.
overlay_point: Whether to draw a point on the line for each (x, y) coordinate pair.
title: The title to display on top of the chart.
tooltip: The column (or list of columns) to display on the tooltip when a user hovers a point on the plot. Set to [] to disable tooltips.
x_title: The title given to the x axis. By default, uses the value of the x parameter.
y_title: The title given to the y axis. By default, uses the value of the y parameter.
x_label_angle: The angle for the x axis labels. Positive values are clockwise, and negative values are counter-clockwise.
y_label_angle: The angle for the y axis labels. Positive values are clockwise, and negative values are counter-clockwise.
color_legend_title: The title given to the color legend. By default, uses the value of color parameter.
stroke_dash_legend_title: The title given to the stroke_dash legend. By default, uses the value of the stroke_dash parameter.
color_legend_position: The position of the color legend. If the string value 'none' is passed, this legend is omitted. For other valid position values see: https://vega.github.io/vega/docs/legends/#orientation.
stroke_dash_legend_position: The position of the stoke_dash legend. If the string value 'none' is passed, this legend is omitted. For other valid position values see: https://vega.github.io/vega/docs/legends/#orientation.
height: The height of the plot in pixels.
width: The width of the plot in pixels. If None, expands to fit.
x_lim: A tuple or list containing the limits for the x-axis, specified as [x_min, x_max].
y_lim: A tuple of list containing the limits for the y-axis, specified as [y_min, y_max].
caption: The (optional) caption to display below the plot.
interactive: Deprecated.
label: The (optional) label to display on the top left corner of the plot.
show_label: Whether the label should be displayed.
every: Continously calls `value` to recalculate it if `value` is a function (has no effect otherwise). Can provide a Timer whose tick resets `value`, or a float that provides the regular interval for the reset Timer.
inputs: Components that are used as inputs to calculate `value` if `value` is a function (has no effect otherwise). `value` is recalculated any time the inputs change.
visible: Whether the plot should be visible.
elem_id: An optional string that is assigned as the id of this component in the HTML DOM. Can be used for targeting CSS styles.
elem_classes: An optional list of strings that are assigned as the classes of this component in the HTML DOM. Can be used for targeting CSS styles.
render: If False, component will not render be rendered in the Blocks context. Should be used if the intention is to assign event listeners now but render the component later.
key: if assigned, will be used to assume identity across a re-render. Components that have the same key across a re-render will have their value preserved.
show_actions_button: Whether to show the actions button on the top right corner of the plot.
"""
self.x = x
self.y = y
self.color = color
self.stroke_dash = stroke_dash
self.tooltip = (
tooltip if tooltip is not None else [elem for elem in [x, y, color] if elem]
)
self.title = title
self.x_title = x_title
self.y_title = y_title
self.x_label_angle = x_label_angle
self.y_label_angle = y_label_angle
self.color_legend_title = color_legend_title
self.stroke_dash_legend_title = stroke_dash_legend_title
self.color_legend_position = color_legend_position
self.stroke_dash_legend_position = stroke_dash_legend_position
self.overlay_point = overlay_point
self.x_lim = x_lim
self.y_lim = y_lim
self.caption = caption
if isinstance(width, str):
width = None
warnings.warn(
"Width should be an integer, not a string. Setting width to None."
)
if isinstance(height, str):
warnings.warn(
"Height should be an integer, not a string. Setting height to None."
)
height = None
self.width = width
self.height = height
self.show_actions_button = show_actions_button
if label is None and show_label is None:
show_label = False
super().__init__(
value=value,
label=label,
show_label=show_label,
container=container,
scale=scale,
min_width=min_width,
visible=visible,
elem_id=elem_id,
elem_classes=elem_classes,
render=render,
key=key,
every=every,
inputs=inputs,
)
if interactive is not None:
warnings.warn(
"The `interactive` parameter is deprecated and will be removed in a future version. "
"The LinePlot component is always interactive."
)
def get_block_name(self) -> str:
return "plot"
@staticmethod
def create_plot(
value: pd.DataFrame,
x: str,
y: str,
color: str | None = None,
stroke_dash: str | None = None,
overlay_point: bool | None = None,
title: str | None = None,
tooltip: list[str] | str | None = None,
x_title: str | None = None,
y_title: str | None = None,
x_label_angle: float | None = None,
y_label_angle: float | None = None,
color_legend_title: str | None = None,
stroke_dash_legend_title: str | None = None,
color_legend_position: Literal[
"left",
"right",
"top",
"bottom",
"top-left",
"top-right",
"bottom-left",
"bottom-right",
"none",
]
| None = None,
stroke_dash_legend_position: Literal[
"left",
"right",
"top",
"bottom",
"top-left",
"top-right",
"bottom-left",
"bottom-right",
"none",
]
| None = None,
height: int | None = None,
width: int | None = None,
x_lim: list[int] | None = None,
y_lim: list[int] | None = None,
):
"""Helper for creating the scatter plot."""
import altair as alt
encodings = {
"x": alt.X(
x,
title=x_title or x,
scale=AltairPlot.create_scale(x_lim),
axis=alt.Axis(labelAngle=x_label_angle)
if x_label_angle is not None
else alt.Axis(),
),
"y": alt.Y(
y,
title=y_title or y,
scale=AltairPlot.create_scale(y_lim),
axis=alt.Axis(labelAngle=y_label_angle)
if y_label_angle is not None
else alt.Axis(),
),
}
properties = {}
if title:
properties["title"] = title
if height:
properties["height"] = height
if width:
properties["width"] = width
if color:
color_legend_position = color_legend_position or "bottom"
domain = value[color].unique().tolist()
range_ = list(range(len(domain)))
encodings["color"] = {
"field": color,
"type": "nominal",
"scale": {"domain": domain, "range": range_},
"legend": AltairPlot.create_legend(
position=color_legend_position, title=color_legend_title
),
}
if stroke_dash:
stroke_dash_encoding = {
"field": stroke_dash,
"legend": AltairPlot.create_legend(
position=stroke_dash_legend_position or "bottom",
title=stroke_dash_legend_title,
),
}
else:
stroke_dash_encoding = alt.value(alt.Undefined)
if tooltip:
encodings["tooltip"] = tooltip
chart = alt.Chart(value).encode(**encodings)
points = chart.mark_point(clip=True).encode(
opacity=alt.value(alt.Undefined) if overlay_point else alt.value(0),
)
lines = chart.mark_line(clip=True).encode(strokeDash=stroke_dash_encoding)
highlight = alt.selection_point(
on="mouseover",
fields=[c for c in [color, stroke_dash] if c],
nearest=True,
clear="mouseout",
empty=False,
)
points = points.add_params(highlight)
lines = lines.encode(
size=alt.condition(highlight, alt.value(4), alt.value(2)),
)
if not overlay_point:
highlight_pts = alt.selection_point(
on="mouseover",
nearest=True,
clear="mouseout",
empty=False,
)
points = points.add_params(highlight_pts)
points = points.encode(
opacity=alt.condition(highlight_pts, alt.value(1), alt.value(0)),
size=alt.condition(highlight_pts, alt.value(100), alt.value(0)),
)
chart = (lines + points).properties(background="transparent", **properties)
selection = alt.selection_interval(
encodings=["x"],
mark=alt.BrushConfig(fill="gray", fillOpacity=0.3, stroke="none"),
name="brush",
)
chart = chart.add_params(selection)
return chart
def preprocess(self, payload: AltairPlotData | None) -> AltairPlotData | None:
"""
Parameters:
payload: The data to display in a line plot.
Returns:
(Rarely used) passes the data displayed in the line plot as an AltairPlotData dataclass, which includes the plot information as a JSON string, as well as the type of plot (in this case, "line").
"""
return payload
def postprocess(
self, value: pd.DataFrame | dict | None
) -> AltairPlotData | dict | None:
"""
Parameters:
value: Expects a pandas DataFrame containing the data to display in the line plot. The DataFrame should contain at least two columns, one for the x-axis (corresponding to this component's `x` argument) and one for the y-axis (corresponding to `y`).
Returns:
The data to display in a line plot, in the form of an AltairPlotData dataclass, which includes the plot information as a JSON string, as well as the type of plot (in this case, "line").
"""
# if None or update
if value is None or isinstance(value, dict):
return value
if self.x is None or self.y is None:
raise ValueError("No value provided for required parameters `x` and `y`.")
chart = self.create_plot(
value=value,
x=self.x,
y=self.y,
color=self.color,
overlay_point=self.overlay_point,
title=self.title,
tooltip=self.tooltip,
x_title=self.x_title,
y_title=self.y_title,
x_label_angle=self.x_label_angle,
y_label_angle=self.y_label_angle,
color_legend_title=self.color_legend_title, # type: ignore
color_legend_position=self.color_legend_position, # type: ignore
stroke_dash_legend_title=self.stroke_dash_legend_title,
stroke_dash_legend_position=self.stroke_dash_legend_position, # type: ignore
x_lim=self.x_lim,
y_lim=self.y_lim,
stroke_dash=self.stroke_dash,
height=self.height,
width=self.width,
)
return AltairPlotData(type="altair", plot=chart.to_json(), chart="line")
def example_payload(self) -> Any:
return None
def example_value(self) -> Any:
import pandas as pd
return pd.DataFrame({self.x: [1, 2, 3], self.y: [4, 5, 6]})
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