from __future__ import (absolute_import, division, print_function, unicode_literals) from matplotlib.externals import six from matplotlib.patches import _Style, FancyArrowPatch from matplotlib.transforms import IdentityTransform from matplotlib.path import Path import numpy as np class _FancyAxislineStyle(object): class SimpleArrow(FancyArrowPatch): """ The artist class that will be returned for SimpleArrow style. """ _ARROW_STYLE = "->" def __init__(self, axis_artist, line_path, transform, line_mutation_scale): self._axis_artist = axis_artist self._line_transform = transform self._line_path = line_path self._line_mutation_scale = line_mutation_scale FancyArrowPatch.__init__(self, path=self._line_path, arrowstyle=self._ARROW_STYLE, arrow_transmuter=None, patchA=None, patchB=None, shrinkA=0., shrinkB=0., mutation_scale=line_mutation_scale, mutation_aspect=None, transform=IdentityTransform(), ) def set_line_mutation_scale(self, scale): self.set_mutation_scale(scale*self._line_mutation_scale) def _extend_path(self, path, mutation_size=10): """ Extend the path to make a room for drawing arrow. """ from matplotlib.bezier import get_cos_sin x0, y0 = path.vertices[-2] x1, y1 = path.vertices[-1] cost, sint = get_cos_sin(x0, y0, x1, y1) d = mutation_size * 1. x2, y2 = x1 + cost*d, y1+sint*d if path.codes is None: _path = Path(np.concatenate([path.vertices, [[x2, y2]]])) else: _path = Path(np.concatenate([path.vertices, [[x2, y2]]]), np.concatenate([path.codes, [Path.LINETO]])) return _path def set_path(self, path): self._line_path = path def draw(self, renderer): """ Draw the axis line. 1) transform the path to the display coordinate. 2) extend the path to make a room for arrow 3) update the path of the FancyArrowPatch. 4) draw """ path_in_disp = self._line_transform.transform_path(self._line_path) mutation_size = self.get_mutation_scale() #line_mutation_scale() extented_path = self._extend_path(path_in_disp, mutation_size=mutation_size) self._path_original = extented_path FancyArrowPatch.draw(self, renderer) class FilledArrow(SimpleArrow): """ The artist class that will be returned for SimpleArrow style. """ _ARROW_STYLE = "-|>" class AxislineStyle(_Style): """ :class:`AxislineStyle` is a container class which defines style classes for AxisArtists. An instance of any axisline style class is an callable object, whose call signature is :: __call__(self, axis_artist, path, transform) When called, this should return a mpl artist with following methods implemented. :: def set_path(self, path): # set the path for axisline. def set_line_mutation_scale(self, scale): # set the scale def draw(self, renderer): # draw """ _style_list = {} class _Base(object): # The derived classes are required to be able to be initialized # w/o arguments, i.e., all its argument (except self) must have # the default values. def __init__(self): """ initialization. """ super(AxislineStyle._Base, self).__init__() def __call__(self, axis_artist, transform): """ Given the AxisArtist instance, and transform for the path (set_path method), return the mpl artist for drawing the axis line. """ return self.new_line(axis_artist, transform) class SimpleArrow(_Base): """ A simple arrow. """ ArrowAxisClass = _FancyAxislineStyle.SimpleArrow def __init__(self, size=1): """ *size* size of the arrow as a fraction of the ticklabel size. """ self.size = size super(AxislineStyle.SimpleArrow, self).__init__() def new_line(self, axis_artist, transform): linepath = Path([(0,0), (0, 1)]) axisline = self.ArrowAxisClass(axis_artist, linepath, transform, line_mutation_scale=self.size) return axisline _style_list["->"] = SimpleArrow class FilledArrow(SimpleArrow): ArrowAxisClass = _FancyAxislineStyle.FilledArrow _style_list["-|>"] = FilledArrow