Source code for matplotlib.backend_bases

"""
Abstract base classes define the primitives that renderers and
graphics contexts must implement to serve as a Matplotlib backend.

`RendererBase`
    An abstract base class to handle drawing/rendering operations.

`FigureCanvasBase`
    The abstraction layer that separates the `.Figure` from the backend
    specific details like a user interface drawing area.

`GraphicsContextBase`
    An abstract base class that provides color, line styles, etc.

`Event`
    The base class for all of the Matplotlib event handling.  Derived classes
    such as `KeyEvent` and `MouseEvent` store the meta data like keys and
    buttons pressed, x and y locations in pixel and `~.axes.Axes` coordinates.

`ShowBase`
    The base class for the ``Show`` class of each interactive backend; the
    'show' callable is then set to ``Show.__call__``.

`ToolContainerBase`
    The base class for the Toolbar class of each interactive backend.
"""

from contextlib import contextmanager, suppress
from enum import Enum, IntEnum
import functools
import importlib
import inspect
import io
import logging
import os
import re
import sys
import time
import traceback
from weakref import WeakKeyDictionary

import numpy as np

import matplotlib as mpl
from matplotlib import (
    backend_tools as tools, cbook, colors, textpath, tight_bbox,
    transforms, widgets, get_backend, is_interactive, rcParams)
from matplotlib._pylab_helpers import Gcf
from matplotlib.backend_managers import ToolManager
from matplotlib.transforms import Affine2D
from matplotlib.path import Path
from matplotlib.cbook import _setattr_cm


_log = logging.getLogger(__name__)
_default_filetypes = {
    'eps': 'Encapsulated Postscript',
    'jpg': 'Joint Photographic Experts Group',
    'jpeg': 'Joint Photographic Experts Group',
    'pdf': 'Portable Document Format',
    'pgf': 'PGF code for LaTeX',
    'png': 'Portable Network Graphics',
    'ps': 'Postscript',
    'raw': 'Raw RGBA bitmap',
    'rgba': 'Raw RGBA bitmap',
    'svg': 'Scalable Vector Graphics',
    'svgz': 'Scalable Vector Graphics',
    'tif': 'Tagged Image File Format',
    'tiff': 'Tagged Image File Format',
}
_default_backends = {
    'eps': 'matplotlib.backends.backend_ps',
    'jpg': 'matplotlib.backends.backend_agg',
    'jpeg': 'matplotlib.backends.backend_agg',
    'pdf': 'matplotlib.backends.backend_pdf',
    'pgf': 'matplotlib.backends.backend_pgf',
    'png': 'matplotlib.backends.backend_agg',
    'ps': 'matplotlib.backends.backend_ps',
    'raw': 'matplotlib.backends.backend_agg',
    'rgba': 'matplotlib.backends.backend_agg',
    'svg': 'matplotlib.backends.backend_svg',
    'svgz': 'matplotlib.backends.backend_svg',
    'tif': 'matplotlib.backends.backend_agg',
    'tiff': 'matplotlib.backends.backend_agg',
}


[docs]def register_backend(format, backend, description=None): """ Register a backend for saving to a given file format. Parameters ---------- format : str File extension backend : module string or canvas class Backend for handling file output description : str, default: "" Description of the file type. """ if description is None: description = '' _default_backends[format] = backend _default_filetypes[format] = description
[docs]def get_registered_canvas_class(format): """ Return the registered default canvas for given file format. Handles deferred import of required backend. """ if format not in _default_backends: return None backend_class = _default_backends[format] if isinstance(backend_class, str): backend_class = importlib.import_module(backend_class).FigureCanvas _default_backends[format] = backend_class return backend_class
[docs]class RendererBase: """ An abstract base class to handle drawing/rendering operations. The following methods must be implemented in the backend for full functionality (though just implementing :meth:`draw_path` alone would give a highly capable backend): * :meth:`draw_path` * :meth:`draw_image` * :meth:`draw_gouraud_triangle` The following methods *should* be implemented in the backend for optimization reasons: * :meth:`draw_text` * :meth:`draw_markers` * :meth:`draw_path_collection` * :meth:`draw_quad_mesh` """ def __init__(self): super().__init__() self._texmanager = None self._text2path = textpath.TextToPath()
[docs] def open_group(self, s, gid=None): """ Open a grouping element with label *s* and *gid* (if set) as id. Only used by the SVG renderer. """
[docs] def close_group(self, s): """ Close a grouping element with label *s*. Only used by the SVG renderer. """
[docs] def draw_path(self, gc, path, transform, rgbFace=None): """Draw a `~.path.Path` instance using the given affine transform.""" raise NotImplementedError
[docs] def draw_markers(self, gc, marker_path, marker_trans, path, trans, rgbFace=None): """ Draw a marker at each of the vertices in path. This includes all vertices, including control points on curves. To avoid that behavior, those vertices should be removed before calling this function. This provides a fallback implementation of draw_markers that makes multiple calls to :meth:`draw_path`. Some backends may want to override this method in order to draw the marker only once and reuse it multiple times. Parameters ---------- gc : `.GraphicsContextBase` The graphics context. marker_trans : `matplotlib.transforms.Transform` An affine transform applied to the marker. trans : `matplotlib.transforms.Transform` An affine transform applied to the path. """ for vertices, codes in path.iter_segments(trans, simplify=False): if len(vertices): x, y = vertices[-2:] self.draw_path(gc, marker_path, marker_trans + transforms.Affine2D().translate(x, y), rgbFace)
[docs] def draw_path_collection(self, gc, master_transform, paths, all_transforms, offsets, offsetTrans, facecolors, edgecolors, linewidths, linestyles, antialiaseds, urls, offset_position): """ Draw a collection of paths selecting drawing properties from the lists *facecolors*, *edgecolors*, *linewidths*, *linestyles* and *antialiaseds*. *offsets* is a list of offsets to apply to each of the paths. The offsets in *offsets* are first transformed by *offsetTrans* before being applied. *offset_position* may be either "screen" or "data" depending on the space that the offsets are in; "data" is deprecated. This provides a fallback implementation of :meth:`draw_path_collection` that makes multiple calls to :meth:`draw_path`. Some backends may want to override this in order to render each set of path data only once, and then reference that path multiple times with the different offsets, colors, styles etc. The generator methods :meth:`_iter_collection_raw_paths` and :meth:`_iter_collection` are provided to help with (and standardize) the implementation across backends. It is highly recommended to use those generators, so that changes to the behavior of :meth:`draw_path_collection` can be made globally. """ path_ids = self._iter_collection_raw_paths(master_transform, paths, all_transforms) for xo, yo, path_id, gc0, rgbFace in self._iter_collection( gc, master_transform, all_transforms, list(path_ids), offsets, offsetTrans, facecolors, edgecolors, linewidths, linestyles, antialiaseds, urls, offset_position): path, transform = path_id # Only apply another translation if we have an offset, else we # resuse the inital transform. if xo != 0 or yo != 0: # The transformation can be used by multiple paths. Since # translate is a inplace operation, we need to copy the # transformation by .frozen() before applying the translation. transform = transform.frozen() transform.translate(xo, yo) self.draw_path(gc0, path, transform, rgbFace)
[docs] def draw_quad_mesh(self, gc, master_transform, meshWidth, meshHeight, coordinates, offsets, offsetTrans, facecolors, antialiased, edgecolors): """ Fallback implementation of :meth:`draw_quad_mesh` that generates paths and then calls :meth:`draw_path_collection`. """ from matplotlib.collections import QuadMesh paths = QuadMesh.convert_mesh_to_paths( meshWidth, meshHeight, coordinates) if edgecolors is None: edgecolors = facecolors linewidths = np.array([gc.get_linewidth()], float) return self.draw_path_collection( gc, master_transform, paths, [], offsets, offsetTrans, facecolors, edgecolors, linewidths, [], [antialiased], [None], 'screen')
[docs] def draw_gouraud_triangle(self, gc, points, colors, transform): """ Draw a Gouraud-shaded triangle. Parameters ---------- gc : `.GraphicsContextBase` The graphics context. points : array-like, shape=(3, 2) Array of (x, y) points for the triangle. colors : array-like, shape=(3, 4) RGBA colors for each point of the triangle. transform : `matplotlib.transforms.Transform` An affine transform to apply to the points. """ raise NotImplementedError
[docs] def draw_gouraud_triangles(self, gc, triangles_array, colors_array, transform): """ Draw a series of Gouraud triangles. Parameters ---------- points : array-like, shape=(N, 3, 2) Array of *N* (x, y) points for the triangles. colors : array-like, shape=(N, 3, 4) Array of *N* RGBA colors for each point of the triangles. transform : `matplotlib.transforms.Transform` An affine transform to apply to the points. """ transform = transform.frozen() for tri, col in zip(triangles_array, colors_array): self.draw_gouraud_triangle(gc, tri, col, transform)
def _iter_collection_raw_paths(self, master_transform, paths, all_transforms): """ Helper method (along with :meth:`_iter_collection`) to implement :meth:`draw_path_collection` in a space-efficient manner. This method yields all of the base path/transform combinations, given a master transform, a list of paths and list of transforms. The arguments should be exactly what is passed in to :meth:`draw_path_collection`. The backend should take each yielded path and transform and create an object that can be referenced (reused) later. """ Npaths = len(paths) Ntransforms = len(all_transforms) N = max(Npaths, Ntransforms) if Npaths == 0: return transform = transforms.IdentityTransform() for i in range(N): path = paths[i % Npaths] if Ntransforms: transform = Affine2D(all_transforms[i % Ntransforms]) yield path, transform + master_transform def _iter_collection_uses_per_path(self, paths, all_transforms, offsets, facecolors, edgecolors): """ Compute how many times each raw path object returned by _iter_collection_raw_paths would be used when calling _iter_collection. This is intended for the backend to decide on the tradeoff between using the paths in-line and storing them once and reusing. Rounds up in case the number of uses is not the same for every path. """ Npaths = len(paths) if Npaths == 0 or len(facecolors) == len(edgecolors) == 0: return 0 Npath_ids = max(Npaths, len(all_transforms)) N = max(Npath_ids, len(offsets)) return (N + Npath_ids - 1) // Npath_ids def _iter_collection(self, gc, master_transform, all_transforms, path_ids, offsets, offsetTrans, facecolors, edgecolors, linewidths, linestyles, antialiaseds, urls, offset_position): """ Helper method (along with :meth:`_iter_collection_raw_paths`) to implement :meth:`draw_path_collection` in a space-efficient manner. This method yields all of the path, offset and graphics context combinations to draw the path collection. The caller should already have looped over the results of :meth:`_iter_collection_raw_paths` to draw this collection. The arguments should be the same as that passed into :meth:`draw_path_collection`, with the exception of *path_ids*, which is a list of arbitrary objects that the backend will use to reference one of the paths created in the :meth:`_iter_collection_raw_paths` stage. Each yielded result is of the form:: xo, yo, path_id, gc, rgbFace where *xo*, *yo* is an offset; *path_id* is one of the elements of *path_ids*; *gc* is a graphics context and *rgbFace* is a color to use for filling the path. """ Ntransforms = len(all_transforms) Npaths = len(path_ids) Noffsets = len(offsets) N = max(Npaths, Noffsets) Nfacecolors = len(facecolors) Nedgecolors = len(edgecolors) Nlinewidths = len(linewidths) Nlinestyles = len(linestyles) Naa = len(antialiaseds) Nurls = len(urls) if offset_position == "data": cbook.warn_deprecated( "3.3", message="Support for offset_position='data' is " "deprecated since %(since)s and will be removed %(removal)s.") if (Nfacecolors == 0 and Nedgecolors == 0) or Npaths == 0: return if Noffsets: toffsets = offsetTrans.transform(offsets) gc0 = self.new_gc() gc0.copy_properties(gc) if Nfacecolors == 0: rgbFace = None if Nedgecolors == 0: gc0.set_linewidth(0.0) xo, yo = 0, 0 for i in range(N): path_id = path_ids[i % Npaths] if Noffsets: xo, yo = toffsets[i % Noffsets] if offset_position == 'data': if Ntransforms: transform = ( Affine2D(all_transforms[i % Ntransforms]) + master_transform) else: transform = master_transform (xo, yo), (xp, yp) = transform.transform( [(xo, yo), (0, 0)]) xo = -(xp - xo) yo = -(yp - yo) if not (np.isfinite(xo) and np.isfinite(yo)): continue if Nfacecolors: rgbFace = facecolors[i % Nfacecolors] if Nedgecolors: if Nlinewidths: gc0.set_linewidth(linewidths[i % Nlinewidths]) if Nlinestyles: gc0.set_dashes(*linestyles[i % Nlinestyles]) fg = edgecolors[i % Nedgecolors] if len(fg) == 4: if fg[3] == 0.0: gc0.set_linewidth(0) else: gc0.set_foreground(fg) else: gc0.set_foreground(fg) if rgbFace is not None and len(rgbFace) == 4: if rgbFace[3] == 0: rgbFace = None gc0.set_antialiased(antialiaseds[i % Naa]) if Nurls: gc0.set_url(urls[i % Nurls]) yield xo, yo, path_id, gc0, rgbFace gc0.restore()
[docs] def get_image_magnification(self): """ Get the factor by which to magnify images passed to :meth:`draw_image`. Allows a backend to have images at a different resolution to other artists. """ return 1.0
[docs] def draw_image(self, gc, x, y, im, transform=None): """ Draw an RGBA image. Parameters ---------- gc : `.GraphicsContextBase` A graphics context with clipping information. x : scalar The distance in physical units (i.e., dots or pixels) from the left hand side of the canvas. y : scalar The distance in physical units (i.e., dots or pixels) from the bottom side of the canvas. im : array-like, shape=(N, M, 4), dtype=np.uint8 An array of RGBA pixels. transform : `matplotlib.transforms.Affine2DBase` If and only if the concrete backend is written such that :meth:`option_scale_image` returns ``True``, an affine transformation (i.e., an `.Affine2DBase`) *may* be passed to :meth:`draw_image`. The translation vector of the transformation is given in physical units (i.e., dots or pixels). Note that the transformation does not override *x* and *y*, and has to be applied *before* translating the result by *x* and *y* (this can be accomplished by adding *x* and *y* to the translation vector defined by *transform*). """ raise NotImplementedError
[docs] def option_image_nocomposite(self): """ Return whether image composition by Matplotlib should be skipped. Raster backends should usually return False (letting the C-level rasterizer take care of image composition); vector backends should usually return ``not rcParams["image.composite_image"]``. """ return False
[docs] def option_scale_image(self): """ Return whether arbitrary affine transformations in :meth:`draw_image` are supported (True for most vector backends). """ return False
[docs] @cbook._delete_parameter("3.3", "ismath") def draw_tex(self, gc, x, y, s, prop, angle, ismath='TeX!', mtext=None): """ """ self._draw_text_as_path(gc, x, y, s, prop, angle, ismath="TeX")
[docs] def draw_text(self, gc, x, y, s, prop, angle, ismath=False, mtext=None): """ Draw the text instance. Parameters ---------- gc : `.GraphicsContextBase` The graphics context. x : float The x location of the text in display coords. y : float The y location of the text baseline in display coords. s : str The text string. prop : `matplotlib.font_manager.FontProperties` The font properties. angle : float The rotation angle in degrees anti-clockwise. mtext : `matplotlib.text.Text` The original text object to be rendered. Notes ----- **Note for backend implementers:** When you are trying to determine if you have gotten your bounding box right (which is what enables the text layout/alignment to work properly), it helps to change the line in text.py:: if 0: bbox_artist(self, renderer) to if 1, and then the actual bounding box will be plotted along with your text. """ self._draw_text_as_path(gc, x, y, s, prop, angle, ismath)
def _get_text_path_transform(self, x, y, s, prop, angle, ismath): """ Return the text path and transform. Parameters ---------- prop : `matplotlib.font_manager.FontProperties` The font property. s : str The text to be converted. ismath : bool or "TeX" If True, use mathtext parser. If "TeX", use *usetex* mode. """ text2path = self._text2path fontsize = self.points_to_pixels(prop.get_size_in_points()) verts, codes = text2path.get_text_path(prop, s, ismath=ismath) path = Path(verts, codes) angle = np.deg2rad(angle) if self.flipy(): width, height = self.get_canvas_width_height() transform = (Affine2D() .scale(fontsize / text2path.FONT_SCALE) .rotate(angle) .translate(x, height - y)) else: transform = (Affine2D() .scale(fontsize / text2path.FONT_SCALE) .rotate(angle) .translate(x, y)) return path, transform def _draw_text_as_path(self, gc, x, y, s, prop, angle, ismath): """ Draw the text by converting them to paths using textpath module. Parameters ---------- prop : `matplotlib.font_manager.FontProperties` The font property. s : str The text to be converted. usetex : bool Whether to use usetex mode. ismath : bool or "TeX" If True, use mathtext parser. If "TeX", use *usetex* mode. """ path, transform = self._get_text_path_transform( x, y, s, prop, angle, ismath) color = gc.get_rgb() gc.set_linewidth(0.0) self.draw_path(gc, path, transform, rgbFace=color)
[docs] def get_text_width_height_descent(self, s, prop, ismath): """ Get the width, height, and descent (offset from the bottom to the baseline), in display coords, of the string *s* with `.FontProperties` *prop*. """ if ismath == 'TeX': # todo: handle props texmanager = self._text2path.get_texmanager() fontsize = prop.get_size_in_points() w, h, d = texmanager.get_text_width_height_descent( s, fontsize, renderer=self) return w, h, d dpi = self.points_to_pixels(72) if ismath: dims = self._text2path.mathtext_parser.parse(s, dpi, prop) return dims[0:3] # return width, height, descent flags = self._text2path._get_hinting_flag() font = self._text2path._get_font(prop) size = prop.get_size_in_points() font.set_size(size, dpi) # the width and height of unrotated string font.set_text(s, 0.0, flags=flags) w, h = font.get_width_height() d = font.get_descent() w /= 64.0 # convert from subpixels h /= 64.0 d /= 64.0 return w, h, d
[docs] def flipy(self): """ Return whether y values increase from top to bottom. Note that this only affects drawing of texts and images. """ return True
[docs] def get_canvas_width_height(self): """Return the canvas width and height in display coords.""" return 1, 1
[docs] def get_texmanager(self): """Return the `.TexManager` instance.""" if self._texmanager is None: from matplotlib.texmanager import TexManager self._texmanager = TexManager() return self._texmanager
[docs] def new_gc(self): """Return an instance of a `.GraphicsContextBase`.""" return GraphicsContextBase()
[docs] def points_to_pixels(self, points): """ Convert points to display units. You need to override this function (unless your backend doesn't have a dpi, e.g., postscript or svg). Some imaging systems assume some value for pixels per inch:: points to pixels = points * pixels_per_inch/72 * dpi/72 Parameters ---------- points : float or array-like a float or a numpy array of float Returns ------- Points converted to pixels """ return points
[docs] def start_rasterizing(self): """ Switch to the raster renderer. Used by `.MixedModeRenderer`. """
[docs] def stop_rasterizing(self): """ Switch back to the vector renderer and draw the contents of the raster renderer as an image on the vector renderer. Used by `.MixedModeRenderer`. """
[docs] def start_filter(self): """ Switch to a temporary renderer for image filtering effects. Currently only supported by the agg renderer. """
[docs] def stop_filter(self, filter_func): """ Switch back to the original renderer. The contents of the temporary renderer is processed with the *filter_func* and is drawn on the original renderer as an image. Currently only supported by the agg renderer. """
def _draw_disabled(self): """ Context manager to temporary disable drawing. This is used for getting the drawn size of Artists. This lets us run the draw process to update any Python state but does not pay the cost of the draw_XYZ calls on the canvas. """ no_ops = { meth_name: lambda *args, **kwargs: None for meth_name in dir(RendererBase) if (meth_name.startswith("draw_") or meth_name in ["open_group", "close_group"]) } return _setattr_cm(self, **no_ops)
[docs]class GraphicsContextBase: """An abstract base class that provides color, line styles, etc.""" def __init__(self): self._alpha = 1.0 self._forced_alpha = False # if True, _alpha overrides A from RGBA self._antialiased = 1 # use 0, 1 not True, False for extension code self._capstyle = 'butt' self._cliprect = None self._clippath = None self._dashes = 0, None self._joinstyle = 'round' self._linestyle = 'solid' self._linewidth = 1 self._rgb = (0.0, 0.0, 0.0, 1.0) self._hatch = None self._hatch_color = colors.to_rgba(rcParams['hatch.color']) self._hatch_linewidth = rcParams['hatch.linewidth'] self._url = None self._gid = None self._snap = None self._sketch = None
[docs] def copy_properties(self, gc): """Copy properties from *gc* to self.""" self._alpha = gc._alpha self._forced_alpha = gc._forced_alpha self._antialiased = gc._antialiased self._capstyle = gc._capstyle self._cliprect = gc._cliprect self._clippath = gc._clippath self._dashes = gc._dashes self._joinstyle = gc._joinstyle self._linestyle = gc._linestyle self._linewidth = gc._linewidth self._rgb = gc._rgb self._hatch = gc._hatch self._hatch_color = gc._hatch_color self._hatch_linewidth = gc._hatch_linewidth self._url = gc._url self._gid = gc._gid self._snap = gc._snap self._sketch = gc._sketch
[docs] def restore(self): """ Restore the graphics context from the stack - needed only for backends that save graphics contexts on a stack. """
[docs] def get_alpha(self): """ Return the alpha value used for blending - not supported on all backends. """ return self._alpha
[docs] def get_antialiased(self): """Return whether the object should try to do antialiased rendering.""" return self._antialiased
[docs] def get_capstyle(self): """ Return the capstyle as a string in ('butt', 'round', 'projecting'). """ return self._capstyle
[docs] def get_clip_rectangle(self): """ Return the clip rectangle as a `~matplotlib.transforms.Bbox` instance. """ return self._cliprect
[docs] def get_clip_path(self): """ Return the clip path in the form (path, transform), where path is a `~.path.Path` instance, and transform is an affine transform to apply to the path before clipping. """ if self._clippath is not None: return self._clippath.get_transformed_path_and_affine() return None, None
[docs] def get_dashes(self): """ Return the dash style as an (offset, dash-list) pair. The dash list is a even-length list that gives the ink on, ink off in points. See p. 107 of to PostScript `blue book`_ for more info. Default value is (None, None). .. _blue book: https://www-cdf.fnal.gov/offline/PostScript/BLUEBOOK.PDF """ return self._dashes
[docs] def get_forced_alpha(self): """ Return whether the value given by get_alpha() should be used to override any other alpha-channel values. """ return self._forced_alpha
[docs] def get_joinstyle(self): """Return the line join style as one of ('miter', 'round', 'bevel').""" return self._joinstyle
[docs] def get_linewidth(self): """Return the line width in points.""" return self._linewidth
[docs] def get_rgb(self): """Return a tuple of three or four floats from 0-1.""" return self._rgb
[docs] def get_url(self): """Return a url if one is set, None otherwise.""" return self._url
[docs] def get_gid(self): """Return the object identifier if one is set, None otherwise.""" return self._gid
[docs] def get_snap(self): """ Return the snap setting, which can be: * True: snap vertices to the nearest pixel center * False: leave vertices as-is * None: (auto) If the path contains only rectilinear line segments, round to the nearest pixel center """ return self._snap
[docs] def set_alpha(self, alpha): """ Set the alpha value used for blending - not supported on all backends. If ``alpha=None`` (the default), the alpha components of the foreground and fill colors will be used to set their respective transparencies (where applicable); otherwise, ``alpha`` will override them. """ if alpha is not None: self._alpha = alpha self._forced_alpha = True else: self._alpha = 1.0 self._forced_alpha = False self.set_foreground(self._rgb, isRGBA=True)
[docs] def set_antialiased(self, b): """Set whether object should be drawn with antialiased rendering.""" # Use ints to make life easier on extension code trying to read the gc. self._antialiased = int(bool(b))
[docs] def set_capstyle(self, cs): """Set the capstyle to be one of ('butt', 'round', 'projecting').""" cbook._check_in_list(['butt', 'round', 'projecting'], cs=cs) self._capstyle = cs
[docs] def set_clip_rectangle(self, rectangle): """ Set the clip rectangle with sequence (left, bottom, width, height) """ self._cliprect = rectangle
[docs] def set_clip_path(self, path): """ Set the clip path and transformation. Parameters ---------- path : `~matplotlib.transforms.TransformedPath` or None """ cbook._check_isinstance((transforms.TransformedPath, None), path=path) self._clippath = path
[docs] def set_dashes(self, dash_offset, dash_list): """ Set the dash style for the gc. Parameters ---------- dash_offset : float or None The offset (usually 0). dash_list : array-like or None The on-off sequence as points. Notes ----- ``(None, None)`` specifies a solid line. See p. 107 of to PostScript `blue book`_ for more info. .. _blue book: https://www-cdf.fnal.gov/offline/PostScript/BLUEBOOK.PDF """ if dash_list is not None: dl = np.asarray(dash_list) if np.any(dl < 0.0): raise ValueError( "All values in the dash list must be positive") self._dashes = dash_offset, dash_list
[docs] def set_foreground(self, fg, isRGBA=False): """ Set the foreground color. Parameters ---------- fg : color isRGBA : bool If *fg* is known to be an ``(r, g, b, a)`` tuple, *isRGBA* can be set to True to improve performance. """ if self._forced_alpha and isRGBA: self._rgb = fg[:3] + (self._alpha,) elif self._forced_alpha: self._rgb = colors.to_rgba(fg, self._alpha) elif isRGBA: self._rgb = fg else: self._rgb = colors.to_rgba(fg)
[docs] def set_joinstyle(self, js): """Set the join style to be one of ('miter', 'round', 'bevel').""" cbook._check_in_list(['miter', 'round', 'bevel'], js=js) self._joinstyle = js
[docs] def set_linewidth(self, w): """Set the linewidth in points.""" self._linewidth = float(w)
[docs] def set_url(self, url): """Set the url for links in compatible backends.""" self._url = url
[docs] def set_gid(self, id): """Set the id.""" self._gid = id
[docs] def set_snap(self, snap): """ Set the snap setting which may be: * True: snap vertices to the nearest pixel center * False: leave vertices as-is * None: (auto) If the path contains only rectilinear line segments, round to the nearest pixel center """ self._snap = snap
[docs] def set_hatch(self, hatch): """Set the hatch style (for fills).""" self._hatch = hatch
[docs] def get_hatch(self): """Get the current hatch style.""" return self._hatch
[docs] def get_hatch_path(self, density=6.0): """Return a `.Path` for the current hatch.""" hatch = self.get_hatch() if hatch is None: return None return Path.hatch(hatch, density)
[docs] def get_hatch_color(self): """Get the hatch color.""" return self._hatch_color
[docs] def set_hatch_color(self, hatch_color): """Set the hatch color.""" self._hatch_color = hatch_color
[docs] def get_hatch_linewidth(self): """Get the hatch linewidth.""" return self._hatch_linewidth
[docs] def get_sketch_params(self): """ Return the sketch parameters for the artist. Returns ------- tuple or `None` A 3-tuple with the following elements: * ``scale``: The amplitude of the wiggle perpendicular to the source line. * ``length``: The length of the wiggle along the line. * ``randomness``: The scale factor by which the length is shrunken or expanded. May return `None` if no sketch parameters were set. """ return self._sketch
[docs] def set_sketch_params(self, scale=None, length=None, randomness=None): """ Set the sketch parameters. Parameters ---------- scale : float, optional The amplitude of the wiggle perpendicular to the source line, in pixels. If scale is `None`, or not provided, no sketch filter will be provided. length : float, default: 128 The length of the wiggle along the line, in pixels. randomness : float, default: 16 The scale factor by which the length is shrunken or expanded. """ self._sketch = ( None if scale is None else (scale, length or 128., randomness or 16.))
[docs]class TimerBase: """ A base class for providing timer events, useful for things animations. Backends need to implement a few specific methods in order to use their own timing mechanisms so that the timer events are integrated into their event loops. Subclasses must override the following methods: - ``_timer_start``: Backend-specific code for starting the timer. - ``_timer_stop``: Backend-specific code for stopping the timer. Subclasses may additionally override the following methods: - ``_timer_set_single_shot``: Code for setting the timer to single shot operating mode, if supported by the timer object. If not, the `Timer` class itself will store the flag and the ``_on_timer`` method should be overridden to support such behavior. - ``_timer_set_interval``: Code for setting the interval on the timer, if there is a method for doing so on the timer object. - ``_on_timer``: The internal function that any timer object should call, which will handle the task of running all callbacks that have been set. """ def __init__(self, interval=None, callbacks=None): """ Parameters ---------- interval : int, default: 1000ms The time between timer events in milliseconds. Will be stored as ``timer.interval``. callbacks : List[Tuple[callable, Tuple, Dict]] List of (func, args, kwargs) tuples that will be called upon timer events. This list is accessible as ``timer.callbacks`` and can be manipulated directly, or the functions `add_callback` and `remove_callback` can be used. """ self.callbacks = [] if callbacks is None else callbacks.copy() # Set .interval and not ._interval to go through the property setter. self.interval = 1000 if interval is None else interval self.single_shot = False def __del__(self): """Need to stop timer and possibly disconnect timer.""" self._timer_stop()
[docs] def start(self, interval=None): """ Start the timer object. Parameters ---------- interval : int, optional Timer interval in milliseconds; overrides a previously set interval if provided. """ if interval is not None: self.interval = interval self._timer_start()
[docs] def stop(self): """Stop the timer.""" self._timer_stop()
def _timer_start(self): pass def _timer_stop(self): pass @property def interval(self): """The time between timer events, in milliseconds.""" return self._interval @interval.setter def interval(self, interval): # Force to int since none of the backends actually support fractional # milliseconds, and some error or give warnings. interval = int(interval) self._interval = interval self._timer_set_interval() @property def single_shot(self): """Whether this timer should stop after a single run.""" return self._single @single_shot.setter def single_shot(self, ss): self._single = ss self._timer_set_single_shot()
[docs] def add_callback(self, func, *args, **kwargs): """ Register *func* to be called by timer when the event fires. Any additional arguments provided will be passed to *func*. This function returns *func*, which makes it possible to use it as a decorator. """ self.callbacks.append((func, args, kwargs)) return func
[docs] def remove_callback(self, func, *args, **kwargs): """ Remove *func* from list of callbacks. *args* and *kwargs* are optional and used to distinguish between copies of the same function registered to be called with different arguments. This behavior is deprecated. In the future, ``*args, **kwargs`` won't be considered anymore; to keep a specific callback removable by itself, pass it to `add_callback` as a `functools.partial` object. """ if args or kwargs: cbook.warn_deprecated( "3.1", message="In a future version, Timer.remove_callback " "will not take *args, **kwargs anymore, but remove all " "callbacks where the callable matches; to keep a specific " "callback removable by itself, pass it to add_callback as a " "functools.partial object.") self.callbacks.remove((func, args, kwargs)) else: funcs = [c[0] for c in self.callbacks] if func in funcs: self.callbacks.pop(funcs.index(func))
def _timer_set_interval(self): """Used to set interval on underlying timer object.""" def _timer_set_single_shot(self): """Used to set single shot on underlying timer object.""" def _on_timer(self): """ Runs all function that have been registered as callbacks. Functions can return False (or 0) if they should not be called any more. If there are no callbacks, the timer is automatically stopped. """ for func, args, kwargs in self.callbacks: ret = func(*args, **kwargs) # docstring above explains why we use `if ret == 0` here, # instead of `if not ret`. # This will also catch `ret == False` as `False == 0` # but does not annoy the linters # https://docs.python.org/3/library/stdtypes.html#boolean-values if ret == 0: self.callbacks.remove((func, args, kwargs)) if len(self.callbacks) == 0: self.stop()
[docs]class Event: """ A Matplotlib event. Attach additional attributes as defined in :meth:`FigureCanvasBase.mpl_connect`. The following attributes are defined and shown with their default values Attributes ---------- name : str The event name. canvas : `FigureCanvasBase` The backend-specific canvas instance generating the event. guiEvent The GUI event that triggered the Matplotlib event. """ def __init__(self, name, canvas, guiEvent=None): self.name = name self.canvas = canvas self.guiEvent = guiEvent
[docs]class DrawEvent(Event): """ An event triggered by a draw operation on the canvas In most backends callbacks subscribed to this callback will be fired after the rendering is complete but before the screen is updated. Any extra artists drawn to the canvas's renderer will be reflected without an explicit call to ``blit``. .. warning:: Calling ``canvas.draw`` and ``canvas.blit`` in these callbacks may not be safe with all backends and may cause infinite recursion. In addition to the `Event` attributes, the following event attributes are defined: Attributes ---------- renderer : `RendererBase` The renderer for the draw event. """ def __init__(self, name, canvas, renderer): Event.__init__(self, name, canvas) self.renderer = renderer
[docs]class ResizeEvent(Event): """ An event triggered by a canvas resize In addition to the `Event` attributes, the following event attributes are defined: Attributes ---------- width : int Width of the canvas in pixels. height : int Height of the canvas in pixels. """ def __init__(self, name, canvas): Event.__init__(self, name, canvas) self.width, self.height = canvas.get_width_height()
[docs]class CloseEvent(Event): """An event triggered by a figure being closed."""
[docs]class LocationEvent(Event): """ An event that has a screen location. The following additional attributes are defined and shown with their default values. In addition to the `Event` attributes, the following event attributes are defined: Attributes ---------- x : int x position - pixels from left of canvas. y : int y position - pixels from bottom of canvas. inaxes : `~.axes.Axes` or None The `~.axes.Axes` instance over which the mouse is, if any. xdata : float or None x data coordinate of the mouse. ydata : float or None y data coordinate of the mouse. """ lastevent = None # the last event that was triggered before this one def __init__(self, name, canvas, x, y, guiEvent=None): """ (*x*, *y*) in figure coords ((0, 0) = bottom left). """ Event.__init__(self, name, canvas, guiEvent=guiEvent) # x position - pixels from left of canvas self.x = int(x) if x is not None else x # y position - pixels from right of canvas self.y = int(y) if y is not None else y self.inaxes = None # the Axes instance if mouse us over axes self.xdata = None # x coord of mouse in data coords self.ydata = None # y coord of mouse in data coords if x is None or y is None: # cannot check if event was in axes if no (x, y) info self._update_enter_leave() return if self.canvas.mouse_grabber is None: self.inaxes = self.canvas.inaxes((x, y)) else: self.inaxes = self.canvas.mouse_grabber if self.inaxes is not None: try: trans = self.inaxes.transData.inverted() xdata, ydata = trans.transform((x, y)) except ValueError: pass else: self.xdata = xdata self.ydata = ydata self._update_enter_leave() def _update_enter_leave(self): """Process the figure/axes enter leave events.""" if LocationEvent.lastevent is not None: last = LocationEvent.lastevent if last.inaxes != self.inaxes: # process axes enter/leave events try: if last.inaxes is not None: last.canvas.callbacks.process('axes_leave_event', last) except Exception: pass # See ticket 2901582. # I think this is a valid exception to the rule # against catching all exceptions; if anything goes # wrong, we simply want to move on and process the # current event. if self.inaxes is not None: self.canvas.callbacks.process('axes_enter_event', self) else: # process a figure enter event if self.inaxes is not None: self.canvas.callbacks.process('axes_enter_event', self) LocationEvent.lastevent = self
[docs]class MouseButton(IntEnum): LEFT = 1 MIDDLE = 2 RIGHT = 3 BACK = 8 FORWARD = 9
[docs]class MouseEvent(LocationEvent): """ A mouse event ('button_press_event', 'button_release_event', 'scroll_event', 'motion_notify_event'). In addition to the `Event` and `LocationEvent` attributes, the following attributes are defined: Attributes ---------- button : None or `MouseButton` or {'up', 'down'} The button pressed. 'up' and 'down' are used for scroll events. Note that in the nbagg backend, both the middle and right clicks return RIGHT since right clicking will bring up the context menu in some browsers. Note that LEFT and RIGHT actually refer to the "primary" and "secondary" buttons, i.e. if the user inverts their left and right buttons ("left-handed setting") then the LEFT button will be the one physically on the right. key : None or str The key pressed when the mouse event triggered, e.g. 'shift'. See `KeyEvent`. .. warning:: This key is currently obtained from the last 'key_press_event' or 'key_release_event' that occurred within the canvas. Thus, if the last change of keyboard state occurred while the canvas did not have focus, this attribute will be wrong. step : float The number of scroll steps (positive for 'up', negative for 'down'). This applies only to 'scroll_event' and defaults to 0 otherwise. dblclick : bool Whether the event is a double-click. This applies only to 'button_press_event' and is False otherwise. In particular, it's not used in 'button_release_event'. Examples -------- :: def on_press(event): print('you pressed', event.button, event.xdata, event.ydata) cid = fig.canvas.mpl_connect('button_press_event', on_press) """ def __init__(self, name, canvas, x, y, button=None, key=None, step=0, dblclick=False, guiEvent=None): """ (*x*, *y*) in figure coords ((0, 0) = bottom left) button pressed None, 1, 2, 3, 'up', 'down' """ if button in MouseButton.__members__.values(): button = MouseButton(button) self.button = button self.key = key self.step = step self.dblclick = dblclick # super-init is deferred to the end because it calls back on # 'axes_enter_event', which requires a fully initialized event. LocationEvent.__init__(self, name, canvas, x, y, guiEvent=guiEvent) def __str__(self): return (f"{self.name}: " f"xy=({self.x}, {self.y}) xydata=({self.xdata}, {self.ydata}) " f"button={self.button} dblclick={self.dblclick} " f"inaxes={self.inaxes}")
[docs]class PickEvent(Event): """ A pick event, fired when the user picks a location on the canvas sufficiently close to an artist. Attrs: all the `Event` attributes plus Attributes ---------- mouseevent : `MouseEvent` The mouse event that generated the pick. artist : `matplotlib.artist.Artist` The picked artist. other Additional attributes may be present depending on the type of the picked object; e.g., a `~.Line2D` pick may define different extra attributes than a `~.PatchCollection` pick. Examples -------- Bind a function ``on_pick()`` to pick events, that prints the coordinates of the picked data point:: ax.plot(np.rand(100), 'o', picker=5) # 5 points tolerance def on_pick(event): line = event.artist xdata, ydata = line.get_data() ind = event.ind print('on pick line:', np.array([xdata[ind], ydata[ind]]).T) cid = fig.canvas.mpl_connect('pick_event', on_pick) """ def __init__(self, name, canvas, mouseevent, artist, guiEvent=None, **kwargs): Event.__init__(self, name, canvas, guiEvent) self.mouseevent = mouseevent self.artist = artist self.__dict__.update(kwargs)
[docs]class KeyEvent(LocationEvent): """ A key event (key press, key release). Attach additional attributes as defined in :meth:`FigureCanvasBase.mpl_connect`. In addition to the `Event` and `LocationEvent` attributes, the following attributes are defined: Attributes ---------- key : None or str the key(s) pressed. Could be **None**, a single case sensitive ascii character ("g", "G", "#", etc.), a special key ("control", "shift", "f1", "up", etc.) or a combination of the above (e.g., "ctrl+alt+g", "ctrl+alt+G"). Notes ----- Modifier keys will be prefixed to the pressed key and will be in the order "ctrl", "alt", "super". The exception to this rule is when the pressed key is itself a modifier key, therefore "ctrl+alt" and "alt+control" can both be valid key values. Examples -------- :: def on_key(event): print('you pressed', event.key, event.xdata, event.ydata) cid = fig.canvas.mpl_connect('key_press_event', on_key) """ def __init__(self, name, canvas, key, x=0, y=0, guiEvent=None): self.key = key # super-init deferred to the end: callback errors if called before LocationEvent.__init__(self, name, canvas, x, y, guiEvent=guiEvent)
def _get_renderer(figure, print_method=None): """ Get the renderer that would be used to save a `~.Figure`, and cache it on the figure. If you need a renderer without any active draw methods use renderer._draw_disabled to temporary patch them out at your call site. """ # This is implemented by triggering a draw, then immediately jumping out of # Figure.draw() by raising an exception. class Done(Exception): pass def _draw(renderer): raise Done(renderer) with cbook._setattr_cm(figure, draw=_draw): orig_canvas = figure.canvas if print_method is None: fmt = figure.canvas.get_default_filetype() # Even for a canvas' default output type, a canvas switch may be # needed, e.g. for FigureCanvasBase. print_method = getattr( figure.canvas._get_output_canvas(None, fmt), f"print_{fmt}") try: print_method(io.BytesIO(), dpi=figure.dpi) except Done as exc: renderer, = figure._cachedRenderer, = exc.args return renderer else: raise RuntimeError(f"{print_method} did not call Figure.draw, so " f"no renderer is available") finally: figure.canvas = orig_canvas def _is_non_interactive_terminal_ipython(ip): """ Return whether we are in a a terminal IPython, but non interactive. When in _terminal_ IPython, ip.parent will have and `interact` attribute, if this attribute is False we do not setup eventloop integration as the user will _not_ interact with IPython. In all other case (ZMQKernel, or is interactive), we do. """ return (hasattr(ip, 'parent') and (ip.parent is not None) and getattr(ip.parent, 'interact', None) is False) def _check_savefig_extra_args(func=None, extra_kwargs=()): """ Decorator for the final print_* methods that accept keyword arguments. If any unused keyword arguments are left, this decorator will warn about them, and as part of the warning, will attempt to specify the function that the user actually called, instead of the backend-specific method. If unable to determine which function the user called, it will specify `.savefig`. For compatibility across backends, this does not warn about keyword arguments added by `FigureCanvasBase.print_figure` for use in a subset of backends, because the user would not have added them directly. """ if func is None: return functools.partial(_check_savefig_extra_args, extra_kwargs=extra_kwargs) old_sig = inspect.signature(func) @functools.wraps(func) def wrapper(*args, **kwargs): name = 'savefig' # Reasonable default guess. public_api = re.compile(r'^savefig|print_[A-Za-z0-9]+$') seen_print_figure = False for frame, line in traceback.walk_stack(None): if frame is None: # when called in embedded context may hit frame is None. break if re.match(r'\A(matplotlib|mpl_toolkits)(\Z|\.(?!tests\.))', # Work around sphinx-gallery not setting __name__. frame.f_globals.get('__name__', '')): if public_api.match(frame.f_code.co_name): name = frame.f_code.co_name if name == 'print_figure': seen_print_figure = True else: break accepted_kwargs = {*old_sig.parameters, *extra_kwargs} if seen_print_figure: for kw in ['dpi', 'facecolor', 'edgecolor', 'orientation', 'bbox_inches_restore']: # Ignore keyword arguments that are passed in by print_figure # for the use of other renderers. if kw not in accepted_kwargs: kwargs.pop(kw, None) for arg in list(kwargs): if arg in accepted_kwargs: continue cbook.warn_deprecated( '3.3', name=name, message='%(name)s() got unexpected keyword argument "' + arg + '" which is no longer supported as of ' '%(since)s and will become an error ' '%(removal)s') kwargs.pop(arg) return func(*args, **kwargs) return wrapper
[docs]class FigureCanvasBase: """ The canvas the figure renders into. Attributes ---------- figure : `matplotlib.figure.Figure` A high-level figure instance. """ # Set to one of {"qt5", "qt4", "gtk3", "wx", "tk", "macosx"} if an # interactive framework is required, or None otherwise. required_interactive_framework = None events = [ 'resize_event', 'draw_event', 'key_press_event', 'key_release_event', 'button_press_event', 'button_release_event', 'scroll_event', 'motion_notify_event', 'pick_event', 'figure_enter_event', 'figure_leave_event', 'axes_enter_event', 'axes_leave_event', 'close_event' ] fixed_dpi = None filetypes = _default_filetypes @cbook._classproperty def supports_blit(cls): """If this Canvas sub-class supports blitting.""" return (hasattr(cls, "copy_from_bbox") and hasattr(cls, "restore_region")) def __init__(self, figure): self._fix_ipython_backend2gui() self._is_idle_drawing = True self._is_saving = False figure.set_canvas(self) self.figure = figure self.manager = None # a dictionary from event name to a dictionary that maps cid->func self.callbacks = cbook.CallbackRegistry() self.widgetlock = widgets.LockDraw() self._button = None # the button pressed self._key = None # the key pressed self._lastx, self._lasty = None, None self.button_pick_id = self.mpl_connect('button_press_event', self.pick) self.scroll_pick_id = self.mpl_connect('scroll_event', self.pick) self.mouse_grabber = None # the axes currently grabbing mouse self.toolbar = None # NavigationToolbar2 will set me self._is_idle_drawing = False @classmethod @functools.lru_cache() def _fix_ipython_backend2gui(cls): # Fix hard-coded module -> toolkit mapping in IPython (used for # `ipython --auto`). This cannot be done at import time due to # ordering issues, so we do it when creating a canvas, and should only # be done once per class (hence the `lru_cache(1)`). if "IPython" not in sys.modules: return import IPython ip = IPython.get_ipython() if not ip: return from IPython.core import pylabtools as pt if (not hasattr(pt, "backend2gui") or not hasattr(ip, "enable_matplotlib")): # In case we ever move the patch to IPython and remove these APIs, # don't break on our side. return rif = getattr(cls, "required_interactive_framework", None) backend2gui_rif = {"qt5": "qt", "qt4": "qt", "gtk3": "gtk3", "wx": "wx", "macosx": "osx"}.get(rif) if backend2gui_rif: if _is_non_interactive_terminal_ipython(ip): ip.enable_gui(backend2gui_rif) @contextmanager def _idle_draw_cntx(self): self._is_idle_drawing = True try: yield finally: self._is_idle_drawing = False
[docs] def is_saving(self): """ Return whether the renderer is in the process of saving to a file, rather than rendering for an on-screen buffer. """ return self._is_saving
[docs] def pick(self, mouseevent): if not self.widgetlock.locked(): self.figure.pick(mouseevent)
[docs] def blit(self, bbox=None): """Blit the canvas in bbox (default entire canvas)."""
[docs] def resize(self, w, h): """Set the canvas size in pixels."""
[docs] def draw_event(self, renderer): """Pass a `DrawEvent` to all functions connected to ``draw_event``.""" s = 'draw_event' event = DrawEvent(s, self, renderer) self.callbacks.process(s, event)
[docs] def resize_event(self): """ Pass a `ResizeEvent` to all functions connected to ``resize_event``. """ s = 'resize_event' event = ResizeEvent(s, self) self.callbacks.process(s, event) self.draw_idle()
[docs] def close_event(self, guiEvent=None): """ Pass a `CloseEvent` to all functions connected to ``close_event``. """ s = 'close_event' try: event = CloseEvent(s, self, guiEvent=guiEvent) self.callbacks.process(s, event) except (TypeError, AttributeError): pass
# Suppress the TypeError when the python session is being killed. # It may be that a better solution would be a mechanism to # disconnect all callbacks upon shutdown. # AttributeError occurs on OSX with qt4agg upon exiting # with an open window; 'callbacks' attribute no longer exists.
[docs] def key_press_event(self, key, guiEvent=None): """ Pass a `KeyEvent` to all functions connected to ``key_press_event``. """ self._key = key s = 'key_press_event' event = KeyEvent( s, self, key, self._lastx, self._lasty, guiEvent=guiEvent) self.callbacks.process(s, event)
[docs] def key_release_event(self, key, guiEvent=None): """ Pass a `KeyEvent` to all functions connected to ``key_release_event``. """ s = 'key_release_event' event = KeyEvent( s, self, key, self._lastx, self._lasty, guiEvent=guiEvent) self.callbacks.process(s, event) self._key = None
[docs] def pick_event(self, mouseevent, artist, **kwargs): """ Callback processing for pick events. This method will be called by artists who are picked and will fire off `PickEvent` callbacks registered listeners. """ s = 'pick_event' event = PickEvent(s, self, mouseevent, artist, guiEvent=mouseevent.guiEvent, **kwargs) self.callbacks.process(s, event)
[docs] def scroll_event(self, x, y, step, guiEvent=None): """ Callback processing for scroll events. Backend derived classes should call this function on any scroll wheel event. (*x*, *y*) are the canvas coords ((0, 0) is lower left). button and key are as defined in `MouseEvent`. This method will call all functions connected to the 'scroll_event' with a `MouseEvent` instance. """ if step >= 0: self._button = 'up' else: self._button = 'down' s = 'scroll_event' mouseevent = MouseEvent(s, self, x, y, self._button, self._key, step=step, guiEvent=guiEvent) self.callbacks.process(s, mouseevent)
[docs] def button_press_event(self, x, y, button, dblclick=False, guiEvent=None): """ Callback processing for mouse button press events. Backend derived classes should call this function on any mouse button press. (*x*, *y*) are the canvas coords ((0, 0) is lower left). button and key are as defined in `MouseEvent`. This method will call all functions connected to the 'button_press_event' with a `MouseEvent` instance. """ self._button = button s = 'button_press_event' mouseevent = MouseEvent(s, self, x, y, button, self._key, dblclick=dblclick, guiEvent=guiEvent) self.callbacks.process(s, mouseevent)
[docs] def button_release_event(self, x, y, button, guiEvent=None): """ Callback processing for mouse button release events. Backend derived classes should call this function on any mouse button release. This method will call all functions connected to the 'button_release_event' with a `MouseEvent` instance. Parameters ---------- x : float The canvas coordinates where 0=left. y : float The canvas coordinates where 0=bottom. guiEvent The native UI event that generated the Matplotlib event. """ s = 'button_release_event' event = MouseEvent(s, self, x, y, button, self._key, guiEvent=guiEvent) self.callbacks.process(s, event) self._button = None
[docs] def motion_notify_event(self, x, y, guiEvent=None): """ Callback processing for mouse movement events. Backend derived classes should call this function on any motion-notify-event. This method will call all functions connected to the 'motion_notify_event' with a `MouseEvent` instance. Parameters ---------- x : float The canvas coordinates where 0=left. y : float The canvas coordinates where 0=bottom. guiEvent The native UI event that generated the Matplotlib event. """ self._lastx, self._lasty = x, y s = 'motion_notify_event' event = MouseEvent(s, self, x, y, self._button, self._key, guiEvent=guiEvent) self.callbacks.process(s, event)
[docs] def leave_notify_event(self, guiEvent=None): """ Callback processing for the mouse cursor leaving the canvas. Backend derived classes should call this function when leaving canvas. Parameters ---------- guiEvent The native UI event that generated the Matplotlib event. """ self.callbacks.process('figure_leave_event', LocationEvent.lastevent) LocationEvent.lastevent = None self._lastx, self._lasty = None, None
[docs] def enter_notify_event(self, guiEvent=None, xy=None): """ Callback processing for the mouse cursor entering the canvas. Backend derived classes should call this function when entering canvas. Parameters ---------- guiEvent The native UI event that generated the Matplotlib event. xy : (float, float) The coordinate location of the pointer when the canvas is entered. """ if xy is not None: x, y = xy self._lastx, self._lasty = x, y else: x = None y = None cbook.warn_deprecated( '3.0', removal='3.5', name='enter_notify_event', message='Since %(since)s, %(name)s expects a location but ' 'your backend did not pass one. This will become an error ' '%(removal)s.') event = LocationEvent('figure_enter_event', self, x, y, guiEvent) self.callbacks.process('figure_enter_event', event)
[docs] def inaxes(self, xy): """ Return the topmost visible `~.axes.Axes` containing the point *xy*. Parameters ---------- xy : (float, float) (x, y) pixel positions from left/bottom of the canvas. Returns ------- `~matplotlib.axes.Axes` or None The topmost visible axes containing the point, or None if no axes. """ axes_list = [a for a in self.figure.get_axes() if a.patch.contains_point(xy) and a.get_visible()] if axes_list: axes = cbook._topmost_artist(axes_list) else: axes = None return axes
[docs] def grab_mouse(self, ax): """ Set the child `~.axes.Axes` which is grabbing the mouse events. Usually called by the widgets themselves. It is an error to call this if the mouse is already grabbed by another axes. """ if self.mouse_grabber not in (None, ax): raise RuntimeError("Another Axes already grabs mouse input") self.mouse_grabber = ax
[docs] def release_mouse(self, ax): """ Release the mouse grab held by the `~.axes.Axes` *ax*. Usually called by the widgets. It is ok to call this even if *ax* doesn't have the mouse grab currently. """ if self.mouse_grabber is ax: self.mouse_grabber = None
[docs] def draw(self, *args, **kwargs): """Render the `.Figure`."""
[docs] def draw_idle(self, *args, **kwargs): """ Request a widget redraw once control returns to the GUI event loop. Even if multiple calls to `draw_idle` occur before control returns to the GUI event loop, the figure will only be rendered once. Notes ----- Backends may choose to override the method and implement their own strategy to prevent multiple renderings. """ if not self._is_idle_drawing: with self._idle_draw_cntx(): self.draw(*args, **kwargs)
[docs] @cbook.deprecated("3.2") def draw_cursor(self, event): """ Draw a cursor in the event.axes if inaxes is not None. Use native GUI drawing for efficiency if possible """
[docs] def get_width_height(self): """ Return the figure width and height in points or pixels (depending on the backend), truncated to integers. """ return int(self.figure.bbox.width), int(self.figure.bbox.height)
[docs] @classmethod def get_supported_filetypes(cls): """Return dict of savefig file formats supported by this backend.""" return cls.filetypes
[docs] @classmethod def get_supported_filetypes_grouped(cls): """ Return a dict of savefig file formats supported by this backend, where the keys are a file type name, such as 'Joint Photographic Experts Group', and the values are a list of filename extensions used for that filetype, such as ['jpg', 'jpeg']. """ groupings = {} for ext, name in cls.filetypes.items(): groupings.setdefault(name, []).append(ext) groupings[name].sort() return groupings
def _get_output_canvas(self, backend, fmt): """ Set the canvas in preparation for saving the figure. Parameters ---------- backend : str or None If not None, switch the figure canvas to the ``FigureCanvas`` class of the given backend. fmt : str If *backend* is None, then determine a suitable canvas class for saving to format *fmt* -- either the current canvas class, if it supports *fmt*, or whatever `get_registered_canvas_class` returns; switch the figure canvas to that canvas class. """ if backend is not None: # Return a specific canvas class, if requested. canvas_class = ( importlib.import_module(cbook._backend_module_name(backend)) .FigureCanvas) if not hasattr(canvas_class, f"print_{fmt}"): raise ValueError( f"The {backend!r} backend does not support {fmt} output") elif hasattr(self, f"print_{fmt}"): # Return the current canvas if it supports the requested format. return self else: # Return a default canvas for the requested format, if it exists. canvas_class = get_registered_canvas_class(fmt) if canvas_class: return self.switch_backends(canvas_class) # Else report error for unsupported format. raise ValueError( "Format {!r} is not supported (supported formats: {})" .format(fmt, ", ".join(sorted(self.get_supported_filetypes()))))
[docs] def print_figure( self, filename, dpi=None, facecolor=None, edgecolor=None, orientation='portrait', format=None, *, bbox_inches=None, pad_inches=None, bbox_extra_artists=None, backend=None, **kwargs): """ Render the figure to hardcopy. Set the figure patch face and edge colors. This is useful because some of the GUIs have a gray figure face color background and you'll probably want to override this on hardcopy. Parameters ---------- filename : str or path-like or file-like The file where the figure is saved. dpi : float, default: :rc:`savefig.dpi` The dots per inch to save the figure in. facecolor : color or 'auto', default: :rc:`savefig.facecolor` The facecolor of the figure. If 'auto', use the current figure facecolor. edgecolor : color or 'auto', default: :rc:`savefig.edgecolor` The edgecolor of the figure. If 'auto', use the current figure edgecolor. orientation : {'landscape', 'portrait'}, default: 'portrait' Only currently applies to PostScript printing. format : str, optional Force a specific file format. If not given, the format is inferred from the *filename* extension, and if that fails from :rc:`savefig.format`. bbox_inches : 'tight' or `.Bbox`, default: :rc:`savefig.bbox` Bounding box in inches: only the given portion of the figure is saved. If 'tight', try to figure out the tight bbox of the figure. pad_inches : float, default: :rc:`savefig.pad_inches` Amount of padding around the figure when *bbox_inches* is 'tight'. bbox_extra_artists : list of `~matplotlib.artist.Artist`, optional A list of extra artists that will be considered when the tight bbox is calculated. backend : str, optional Use a non-default backend to render the file, e.g. to render a png file with the "cairo" backend rather than the default "agg", or a pdf file with the "pgf" backend rather than the default "pdf". Note that the default backend is normally sufficient. See :ref:`the-builtin-backends` for a list of valid backends for each file format. Custom backends can be referenced as "module://...". """ if format is None: # get format from filename, or from backend's default filetype if isinstance(filename, os.PathLike): filename = os.fspath(filename) if isinstance(filename, str): format = os.path.splitext(filename)[1][1:] if format is None or format == '': format = self.get_default_filetype() if isinstance(filename, str): filename = filename.rstrip('.') + '.' + format format = format.lower() # get canvas object and print method for format canvas = self._get_output_canvas(backend, format) print_method = getattr(canvas, 'print_%s' % format) if dpi is None: dpi = rcParams['savefig.dpi'] if dpi == 'figure': dpi = getattr(self.figure, '_original_dpi', self.figure.dpi) # Remove the figure manager, if any, to avoid resizing the GUI widget. # Some code (e.g. Figure.show) differentiates between having *no* # manager and a *None* manager, which should be fixed at some point, # but this should be fine. with cbook._setattr_cm(self, manager=None), \ cbook._setattr_cm(self.figure, dpi=dpi), \ cbook._setattr_cm(canvas, _is_saving=True): origfacecolor = self.figure.get_facecolor() origedgecolor = self.figure.get_edgecolor() if facecolor is None: facecolor = rcParams['savefig.facecolor'] if cbook._str_equal(facecolor, 'auto'): facecolor = origfacecolor if edgecolor is None: edgecolor = rcParams['savefig.edgecolor'] if cbook._str_equal(edgecolor, 'auto'): edgecolor = origedgecolor self.figure.set_facecolor(facecolor) self.figure.set_edgecolor(edgecolor) if bbox_inches is None: bbox_inches = rcParams['savefig.bbox'] if bbox_inches: if bbox_inches == "tight": renderer = _get_renderer( self.figure, functools.partial( print_method, orientation=orientation) ) ctx = (renderer._draw_disabled() if hasattr(renderer, '_draw_disabled') else suppress()) with ctx: self.figure.draw(renderer) bbox_inches = self.figure.get_tightbbox( renderer, bbox_extra_artists=bbox_extra_artists) if pad_inches is None: pad_inches = rcParams['savefig.pad_inches'] bbox_inches = bbox_inches.padded(pad_inches) # call adjust_bbox to save only the given area restore_bbox = tight_bbox.adjust_bbox(self.figure, bbox_inches, canvas.fixed_dpi) _bbox_inches_restore = (bbox_inches, restore_bbox) else: _bbox_inches_restore = None try: result = print_method( filename, dpi=dpi, facecolor=facecolor, edgecolor=edgecolor, orientation=orientation, bbox_inches_restore=_bbox_inches_restore, **kwargs) finally: if bbox_inches and restore_bbox: restore_bbox() self.figure.set_facecolor(origfacecolor) self.figure.set_edgecolor(origedgecolor) self.figure.set_canvas(self) return result
[docs] @classmethod def get_default_filetype(cls): """ Return the default savefig file format as specified in :rc:`savefig.format`. The returned string does not include a period. This method is overridden in backends that only support a single file type. """ return rcParams['savefig.format']
[docs] def get_window_title(self): """ Return the title text of the window containing the figure, or None if there is no window (e.g., a PS backend). """ if self.manager is not None: return self.manager.get_window_title()
[docs] def set_window_title(self, title): """ Set the title text of the window containing the figure. Note that this has no effect if there is no window (e.g., a PS backend). """ if self.manager is not None: self.manager.set_window_title(title)
[docs] def get_default_filename(self): """ Return a string, which includes extension, suitable for use as a default filename. """ default_basename = self.get_window_title() or 'image' default_basename = default_basename.replace(' ', '_') default_filetype = self.get_default_filetype() default_filename = default_basename + '.' + default_filetype return default_filename
[docs] def switch_backends(self, FigureCanvasClass): """ Instantiate an instance of FigureCanvasClass This is used for backend switching, e.g., to instantiate a FigureCanvasPS from a FigureCanvasGTK. Note, deep copying is not done, so any changes to one of the instances (e.g., setting figure size or line props), will be reflected in the other """ newCanvas = FigureCanvasClass(self.figure) newCanvas._is_saving = self._is_saving return newCanvas
[docs] def mpl_connect(self, s, func): """ Bind function *func* to event *s*. Parameters ---------- s : str One of the following events ids: - 'button_press_event' - 'button_release_event' - 'draw_event' - 'key_press_event' - 'key_release_event' - 'motion_notify_event' - 'pick_event' - 'resize_event' - 'scroll_event' - 'figure_enter_event', - 'figure_leave_event', - 'axes_enter_event', - 'axes_leave_event' - 'close_event'. func : callable The callback function to be executed, which must have the signature:: def func(event: Event) -> Any For the location events (button and key press/release), if the mouse is over the axes, the ``inaxes`` attribute of the event will be set to the `~matplotlib.axes.Axes` the event occurs is over, and additionally, the variables ``xdata`` and ``ydata`` attributes will be set to the mouse location in data coordinates. See `.KeyEvent` and `.MouseEvent` for more info. Returns ------- cid A connection id that can be used with `.FigureCanvasBase.mpl_disconnect`. Examples -------- :: def on_press(event): print('you pressed', event.button, event.xdata, event.ydata) cid = canvas.mpl_connect('button_press_event', on_press) """ return self.callbacks.connect(s, func)
[docs] def mpl_disconnect(self, cid): """ Disconnect the callback with id *cid*. Examples -------- :: cid = canvas.mpl_connect('button_press_event', on_press) # ... later canvas.mpl_disconnect(cid) """ return self.callbacks.disconnect(cid)
# Internal subclasses can override _timer_cls instead of new_timer, though # this is not a public API for third-party subclasses. _timer_cls = TimerBase
[docs] def new_timer(self, interval=None, callbacks=None): """ Create a new backend-specific subclass of `.Timer`. This is useful for getting periodic events through the backend's native event loop. Implemented only for backends with GUIs. Parameters ---------- interval : int Timer interval in milliseconds. callbacks : List[Tuple[callable, Tuple, Dict]] Sequence of (func, args, kwargs) where ``func(*args, **kwargs)`` will be executed by the timer every *interval*. Callbacks which return ``False`` or ``0`` will be removed from the timer. Examples -------- >>> timer = fig.canvas.new_timer(callbacks=[(f1, (1,), {'a': 3})]) """ return self._timer_cls(interval=interval, callbacks=callbacks)
[docs] def flush_events(self): """ Flush the GUI events for the figure. Interactive backends need to reimplement this method. """
[docs] def start_event_loop(self, timeout=0): """ Start a blocking event loop. Such an event loop is used by interactive functions, such as `~.Figure.ginput` and `~.Figure.waitforbuttonpress`, to wait for events. The event loop blocks until a callback function triggers `stop_event_loop`, or *timeout* is reached. If *timeout* is 0 or negative, never timeout. Only interactive backends need to reimplement this method and it relies on `flush_events` being properly implemented. Interactive backends should implement this in a more native way. """ if timeout <= 0: timeout = np.inf timestep = 0.01 counter = 0 self._looping = True while self._looping and counter * timestep < timeout: self.flush_events() time.sleep(timestep) counter += 1
[docs] def stop_event_loop(self): """ Stop the current blocking event loop. Interactive backends need to reimplement this to match `start_event_loop` """ self._looping = False
[docs]def key_press_handler(event, canvas=None, toolbar=None): """ Implement the default Matplotlib key bindings for the canvas and toolbar described at :ref:`key-event-handling`. Parameters ---------- event : `KeyEvent` A key press/release event. canvas : `FigureCanvasBase`, default: ``event.canvas`` The backend-specific canvas instance. This parameter is kept for back-compatibility, but, if set, should always be equal to ``event.canvas``. toolbar : `NavigationToolbar2`, default: ``event.canvas.toolbar`` The navigation cursor toolbar. This parameter is kept for back-compatibility, but, if set, should always be equal to ``event.canvas.toolbar``. """ # these bindings happen whether you are over an axes or not if event.key is None: return if canvas is None: canvas = event.canvas if toolbar is None: toolbar = canvas.toolbar # Load key-mappings from rcParams. fullscreen_keys = rcParams['keymap.fullscreen'] home_keys = rcParams['keymap.home'] back_keys = rcParams['keymap.back'] forward_keys = rcParams['keymap.forward'] pan_keys = rcParams['keymap.pan'] zoom_keys = rcParams['keymap.zoom'] save_keys = rcParams['keymap.save'] quit_keys = rcParams['keymap.quit'] quit_all_keys = rcParams['keymap.quit_all'] grid_keys = rcParams['keymap.grid'] grid_minor_keys = rcParams['keymap.grid_minor'] toggle_yscale_keys = rcParams['keymap.yscale'] toggle_xscale_keys = rcParams['keymap.xscale'] all_keys = dict.__getitem__(rcParams, 'keymap.all_axes') # toggle fullscreen mode ('f', 'ctrl + f') if event.key in fullscreen_keys: try: canvas.manager.full_screen_toggle() except AttributeError: pass # quit the figure (default key 'ctrl+w') if event.key in quit_keys: Gcf.destroy_fig(canvas.figure) if event.key in quit_all_keys: Gcf.destroy_all() if toolbar is not None: # home or reset mnemonic (default key 'h', 'home' and 'r') if event.key in home_keys: toolbar.home() # forward / backward keys to enable left handed quick navigation # (default key for backward: 'left', 'backspace' and 'c') elif event.key in back_keys: toolbar.back() # (default key for forward: 'right' and 'v') elif event.key in forward_keys: toolbar.forward() # pan mnemonic (default key 'p') elif event.key in pan_keys: toolbar.pan() toolbar._update_cursor(event) # zoom mnemonic (default key 'o') elif event.key in zoom_keys: toolbar.zoom() toolbar._update_cursor(event) # saving current figure (default key 's') elif event.key in save_keys: toolbar.save_figure() if event.inaxes is None: return # these bindings require the mouse to be over an axes to trigger def _get_uniform_gridstate(ticks): # Return True/False if all grid lines are on or off, None if they are # not all in the same state. if all(tick.gridline.get_visible() for tick in ticks): return True elif not any(tick.gridline.get_visible() for tick in ticks): return False else: return None ax = event.inaxes # toggle major grids in current axes (default key 'g') # Both here and below (for 'G'), we do nothing if *any* grid (major or # minor, x or y) is not in a uniform state, to avoid messing up user # customization. if (event.key in grid_keys # Exclude minor grids not in a uniform state. and None not in [_get_uniform_gridstate(ax.xaxis.minorTicks), _get_uniform_gridstate(ax.yaxis.minorTicks)]): x_state = _get_uniform_gridstate(ax.xaxis.majorTicks) y_state = _get_uniform_gridstate(ax.yaxis.majorTicks) cycle = [(False, False), (True, False), (True, True), (False, True)] try: x_state, y_state = ( cycle[(cycle.index((x_state, y_state)) + 1) % len(cycle)]) except ValueError: # Exclude major grids not in a uniform state. pass else: # If turning major grids off, also turn minor grids off. ax.grid(x_state, which="major" if x_state else "both", axis="x") ax.grid(y_state, which="major" if y_state else "both", axis="y") canvas.draw_idle() # toggle major and minor grids in current axes (default key 'G') if (event.key in grid_minor_keys # Exclude major grids not in a uniform state. and None not in [_get_uniform_gridstate(ax.xaxis.majorTicks), _get_uniform_gridstate(ax.yaxis.majorTicks)]): x_state = _get_uniform_gridstate(ax.xaxis.minorTicks) y_state = _get_uniform_gridstate(ax.yaxis.minorTicks) cycle = [(False, False), (True, False), (True, True), (False, True)] try: x_state, y_state = ( cycle[(cycle.index((x_state, y_state)) + 1) % len(cycle)]) except ValueError: # Exclude minor grids not in a uniform state. pass else: ax.grid(x_state, which="both", axis="x") ax.grid(y_state, which="both", axis="y") canvas.draw_idle() # toggle scaling of y-axes between 'log and 'linear' (default key 'l') elif event.key in toggle_yscale_keys: scale = ax.get_yscale() if scale == 'log': ax.set_yscale('linear') ax.figure.canvas.draw_idle() elif scale == 'linear': try: ax.set_yscale('log') except ValueError as exc: _log.warning(str(exc)) ax.set_yscale('linear') ax.figure.canvas.draw_idle() # toggle scaling of x-axes between 'log and 'linear' (default key 'k') elif event.key in toggle_xscale_keys: scalex = ax.get_xscale() if scalex == 'log': ax.set_xscale('linear') ax.figure.canvas.draw_idle() elif scalex == 'linear': try: ax.set_xscale('log') except ValueError as exc: _log.warning(str(exc)) ax.set_xscale('linear') ax.figure.canvas.draw_idle() # enable nagivation for all axes that contain the event (default key 'a') elif event.key in all_keys: for a in canvas.figure.get_axes(): if (event.x is not None and event.y is not None and a.in_axes(event)): # FIXME: Why only these? cbook.warn_deprecated( "3.3", message="Toggling axes navigation from the " "keyboard is deprecated since %(since)s and will be " "removed %(removal)s.") a.set_navigate(True) # enable navigation only for axes with this index (if such an axes exist, # otherwise do nothing) elif event.key.isdigit() and event.key != '0': n = int(event.key) - 1 if n < len(canvas.figure.get_axes()): for i, a in enumerate(canvas.figure.get_axes()): if (event.x is not None and event.y is not None and a.in_axes(event)): # FIXME: Why only these? cbook.warn_deprecated( "3.3", message="Toggling axes navigation from the " "keyboard is deprecated since %(since)s and will be " "removed %(removal)s.") a.set_navigate(i == n)
[docs]def button_press_handler(event, canvas=None, toolbar=None): """ The default Matplotlib button actions for extra mouse buttons. Parameters are as for `key_press_handler`, except that *event* is a `MouseEvent`. """ if canvas is None: canvas = event.canvas if toolbar is None: toolbar = canvas.toolbar if toolbar is not None: button_name = str(MouseButton(event.button)) if button_name in rcParams['keymap.back']: toolbar.back() elif button_name in rcParams['keymap.forward']: toolbar.forward()
[docs]class NonGuiException(Exception): """Raised when trying show a figure in a non-GUI backend.""" pass
[docs]class FigureManagerBase: """ A backend-independent abstraction of a figure container and controller. The figure manager is used by pyplot to interact with the window in a backend-independent way. It's an adapter for the real (GUI) framework that represents the visual figure on screen. GUI backends define from this class to translate common operations such as *show* or *resize* to the GUI-specific code. Non-GUI backends do not support these operations an can just use the base class. This following basic operations are accessible: **Window operations** - `~.FigureManagerBase.show` - `~.FigureManagerBase.destroy` - `~.FigureManagerBase.full_screen_toggle` - `~.FigureManagerBase.resize` - `~.FigureManagerBase.get_window_title` - `~.FigureManagerBase.set_window_title` **Key and mouse button press handling** The figure manager sets up default key and mouse button press handling by hooking up the `.key_press_handler` to the matplotlib event system. This ensures the same shortcuts and mouse actions across backends. **Other operations** Subclasses will have additional attributes and functions to access additional functionality. This is of course backend-specific. For example, most GUI backends have ``window`` and ``toolbar`` attributes that give access to the native GUI widgets of the respective framework. Attributes ---------- canvas : `FigureCanvasBase` The backend-specific canvas instance. num : int or str The figure number. key_press_handler_id : int The default key handler cid, when using the toolmanager. To disable the default key press handling use:: figure.canvas.mpl_disconnect( figure.canvas.manager.key_press_handler_id) button_press_handler_id : int The default mouse button handler cid, when using the toolmanager. To disable the default button press handling use:: figure.canvas.mpl_disconnect( figure.canvas.manager.button_press_handler_id) """ def __init__(self, canvas, num): self.canvas = canvas canvas.manager = self # store a pointer to parent self.num = num self.key_press_handler_id = None self.button_press_handler_id = None if rcParams['toolbar'] != 'toolmanager': self.key_press_handler_id = self.canvas.mpl_connect( 'key_press_event', self.key_press) self.button_press_handler_id = self.canvas.mpl_connect( 'button_press_event', self.button_press) self.toolmanager = (ToolManager(canvas.figure) if mpl.rcParams['toolbar'] == 'toolmanager' else None) self.toolbar = None @self.canvas.figure.add_axobserver def notify_axes_change(fig): # Called whenever the current axes is changed. if self.toolmanager is None and self.toolbar is not None: self.toolbar.update() @cbook.deprecated("3.3") @property def statusbar(self): return None
[docs] def show(self): """ For GUI backends, show the figure window and redraw. For non-GUI backends, raise an exception, unless running headless (i.e. on Linux with an unset DISPLAY); this exception is converted to a warning in `.Figure.show`. """ # This should be overridden in GUI backends. if cbook._get_running_interactive_framework() != "headless": raise NonGuiException( f"Matplotlib is currently using {get_backend()}, which is " f"a non-GUI backend, so cannot show the figure.")
[docs] def destroy(self): pass
[docs] def full_screen_toggle(self): pass
[docs] def resize(self, w, h): """For GUI backends, resize the window (in pixels)."""
[docs] def key_press(self, event): """ Implement the default Matplotlib key bindings defined at :ref:`key-event-handling`. """ if rcParams['toolbar'] != 'toolmanager': key_press_handler(event)
[docs] def button_press(self, event): """The default Matplotlib button actions for extra mouse buttons.""" if rcParams['toolbar'] != 'toolmanager': button_press_handler(event)
[docs] def get_window_title(self): """ Return the title text of the window containing the figure, or None if there is no window (e.g., a PS backend). """ return 'image'
[docs] def set_window_title(self, title): """ Set the title text of the window containing the figure. This has no effect for non-GUI (e.g., PS) backends. """
cursors = tools.cursors class _Mode(str, Enum): NONE = "" PAN = "pan/zoom" ZOOM = "zoom rect" def __str__(self): return self.value @property def _navigate_mode(self): return self.name if self is not _Mode.NONE else None
[docs]class ToolContainerBase: """ Base class for all tool containers, e.g. toolbars. Attributes ---------- toolmanager : `.ToolManager` The tools with which this `ToolContainer` wants to communicate. """ _icon_extension = '.png' """ Toolcontainer button icon image format extension **String**: Image extension """ def __init__(self, toolmanager): self.toolmanager = toolmanager toolmanager.toolmanager_connect( 'tool_message_event', lambda event: self.set_message(event.message)) toolmanager.toolmanager_connect( 'tool_removed_event', lambda event: self.remove_toolitem(event.tool.name)) def _tool_toggled_cbk(self, event): """ Capture the 'tool_trigger_[name]' This only gets used for toggled tools. """ self.toggle_toolitem(event.tool.name, event.tool.toggled)
[docs] def add_tool(self, tool, group, position=-1): """ Add a tool to this container. Parameters ---------- tool : tool_like The tool to add, see `.ToolManager.get_tool`. group : str The name of the group to add this tool to. position : int, default: -1 The position within the group to place this tool. """ tool = self.toolmanager.get_tool(tool) image = self._get_image_filename(tool.image) toggle = getattr(tool, 'toggled', None) is not None self.add_toolitem(tool.name, group, position, image, tool.description, toggle) if toggle: self.toolmanager.toolmanager_connect('tool_trigger_%s' % tool.name, self._tool_toggled_cbk) # If initially toggled if tool.toggled: self.toggle_toolitem(tool.name, True)
def _get_image_filename(self, image): """Find the image based on its name.""" if not image: return None basedir = cbook._get_data_path("images") for fname in [ image, image + self._icon_extension, str(basedir / image), str(basedir / (image + self._icon_extension)), ]: if os.path.isfile(fname): return fname
[docs] def trigger_tool(self, name): """ Trigger the tool. Parameters ---------- name : str Name (id) of the tool triggered from within the container. """ self.toolmanager.trigger_tool(name, sender=self)
[docs] def add_toolitem(self, name, group, position, image, description, toggle): """ Add a toolitem to the container. This method must be implemented per backend. The callback associated with the button click event, must be *exactly* ``self.trigger_tool(name)``. Parameters ---------- name : str Name of the tool to add, this gets used as the tool's ID and as the default label of the buttons. group : str Name of the group that this tool belongs to. position : int Position of the tool within its group, if -1 it goes at the end. image_file : str Filename of the image for the button or `None`. description : str Description of the tool, used for the tooltips. toggle : bool * `True` : The button is a toggle (change the pressed/unpressed state between consecutive clicks). * `False` : The button is a normal button (returns to unpressed state after release). """ raise NotImplementedError
[docs] def toggle_toolitem(self, name, toggled): """ Toggle the toolitem without firing event. Parameters ---------- name : str Id of the tool to toggle. toggled : bool Whether to set this tool as toggled or not. """ raise NotImplementedError
[docs] def remove_toolitem(self, name): """ Remove a toolitem from the `ToolContainer`. This method must get implemented per backend. Called when `.ToolManager` emits a `tool_removed_event`. Parameters ---------- name : str Name of the tool to remove. """ raise NotImplementedError
[docs] def set_message(self, s): """ Display a message on the toolbar. Parameters ---------- s : str Message text. """ raise NotImplementedError
[docs]@cbook.deprecated("3.3") class StatusbarBase: """Base class for the statusbar.""" def __init__(self, toolmanager): self.toolmanager = toolmanager self.toolmanager.toolmanager_connect('tool_message_event', self._message_cbk) def _message_cbk(self, event): """Capture the 'tool_message_event' and set the message.""" self.set_message(event.message)
[docs] def set_message(self, s): """ Display a message on toolbar or in status bar. Parameters ---------- s : str Message text. """
class _Backend: # A backend can be defined by using the following pattern: # # @_Backend.export # class FooBackend(_Backend): # # override the attributes and methods documented below. # `backend_version` may be overridden by the subclass. backend_version = "unknown" # The `FigureCanvas` class must be defined. FigureCanvas = None # For interactive backends, the `FigureManager` class must be overridden. FigureManager = FigureManagerBase # The following methods must be left as None for non-interactive backends. # For interactive backends, `trigger_manager_draw` should be a function # taking a manager as argument and triggering a canvas draw, and `mainloop` # should be a function taking no argument and starting the backend main # loop. trigger_manager_draw = None mainloop = None # The following methods will be automatically defined and exported, but # can be overridden. @classmethod def new_figure_manager(cls, num, *args, **kwargs): """Create a new figure manager instance.""" # This import needs to happen here due to circular imports. from matplotlib.figure import Figure fig_cls = kwargs.pop('FigureClass', Figure) fig = fig_cls(*args, **kwargs) return cls.new_figure_manager_given_figure(num, fig) @classmethod def new_figure_manager_given_figure(cls, num, figure): """Create a new figure manager instance for the given figure.""" canvas = cls.FigureCanvas(figure) manager = cls.FigureManager(canvas, num) return manager @classmethod def draw_if_interactive(cls): if cls.trigger_manager_draw is not None and is_interactive(): manager = Gcf.get_active() if manager: cls.trigger_manager_draw(manager) @classmethod def show(cls, *, block=None): """ Show all figures. `show` blocks by calling `mainloop` if *block* is ``True``, or if it is ``None`` and we are neither in IPython's ``%pylab`` mode, nor in `interactive` mode. """ managers = Gcf.get_all_fig_managers() if not managers: return for manager in managers: try: manager.show() # Emits a warning for non-interactive backend. except NonGuiException as exc: cbook._warn_external(str(exc)) if cls.mainloop is None: return if block is None: # Hack: Are we in IPython's pylab mode? from matplotlib import pyplot try: # IPython versions >= 0.10 tack the _needmain attribute onto # pyplot.show, and always set it to False, when in %pylab mode. ipython_pylab = not pyplot.show._needmain except AttributeError: ipython_pylab = False block = not ipython_pylab and not is_interactive() # TODO: The above is a hack to get the WebAgg backend working with # ipython's `%pylab` mode until proper integration is implemented. if get_backend() == "WebAgg": block = True if block: cls.mainloop() # This method is the one actually exporting the required methods. @staticmethod def export(cls): for name in [ "backend_version", "FigureCanvas", "FigureManager", "new_figure_manager", "new_figure_manager_given_figure", "draw_if_interactive", "show", ]: setattr(sys.modules[cls.__module__], name, getattr(cls, name)) # For back-compatibility, generate a shim `Show` class. class Show(ShowBase): def mainloop(self): return cls.mainloop() setattr(sys.modules[cls.__module__], "Show", Show) return cls
[docs]class ShowBase(_Backend): """ Simple base class to generate a ``show()`` function in backends. Subclass must override ``mainloop()`` method. """ def __call__(self, block=None): return self.show(block=block)