Traktor/myenv/Lib/site-packages/mpl_toolkits/axisartist/axis_artist.py
2024-05-23 01:57:24 +02:00

1116 lines
37 KiB
Python

"""
The :mod:`.axis_artist` module implements custom artists to draw axis elements
(axis lines and labels, tick lines and labels, grid lines).
Axis lines and labels and tick lines and labels are managed by the `AxisArtist`
class; grid lines are managed by the `GridlinesCollection` class.
There is one `AxisArtist` per Axis; it can be accessed through
the ``axis`` dictionary of the parent Axes (which should be a
`mpl_toolkits.axislines.Axes`), e.g. ``ax.axis["bottom"]``.
Children of the AxisArtist are accessed as attributes: ``.line`` and ``.label``
for the axis line and label, ``.major_ticks``, ``.major_ticklabels``,
``.minor_ticks``, ``.minor_ticklabels`` for the tick lines and labels (e.g.
``ax.axis["bottom"].line``).
Children properties (colors, fonts, line widths, etc.) can be set using
setters, e.g. ::
# Make the major ticks of the bottom axis red.
ax.axis["bottom"].major_ticks.set_color("red")
However, things like the locations of ticks, and their ticklabels need to be
changed from the side of the grid_helper.
axis_direction
--------------
`AxisArtist`, `AxisLabel`, `TickLabels` have an *axis_direction* attribute,
which adjusts the location, angle, etc. The *axis_direction* must be one of
"left", "right", "bottom", "top", and follows the Matplotlib convention for
rectangular axis.
For example, for the *bottom* axis (the left and right is relative to the
direction of the increasing coordinate),
* ticklabels and axislabel are on the right
* ticklabels and axislabel have text angle of 0
* ticklabels are baseline, center-aligned
* axislabel is top, center-aligned
The text angles are actually relative to (90 + angle of the direction to the
ticklabel), which gives 0 for bottom axis.
=================== ====== ======== ====== ========
Property left bottom right top
=================== ====== ======== ====== ========
ticklabel location left right right left
axislabel location left right right left
ticklabel angle 90 0 -90 180
axislabel angle 180 0 0 180
ticklabel va center baseline center baseline
axislabel va center top center bottom
ticklabel ha right center right center
axislabel ha right center right center
=================== ====== ======== ====== ========
Ticks are by default direct opposite side of the ticklabels. To make ticks to
the same side of the ticklabels, ::
ax.axis["bottom"].major_ticks.set_tick_out(True)
The following attributes can be customized (use the ``set_xxx`` methods):
* `Ticks`: ticksize, tick_out
* `TickLabels`: pad
* `AxisLabel`: pad
"""
# FIXME :
# angles are given in data coordinate - need to convert it to canvas coordinate
from operator import methodcaller
import numpy as np
import matplotlib as mpl
from matplotlib import _api, cbook
import matplotlib.artist as martist
import matplotlib.colors as mcolors
import matplotlib.text as mtext
from matplotlib.collections import LineCollection
from matplotlib.lines import Line2D
from matplotlib.patches import PathPatch
from matplotlib.path import Path
from matplotlib.transforms import (
Affine2D, Bbox, IdentityTransform, ScaledTranslation)
from .axisline_style import AxislineStyle
class AttributeCopier:
def get_ref_artist(self):
"""
Return the underlying artist that actually defines some properties
(e.g., color) of this artist.
"""
raise RuntimeError("get_ref_artist must overridden")
def get_attribute_from_ref_artist(self, attr_name):
getter = methodcaller("get_" + attr_name)
prop = getter(super())
return getter(self.get_ref_artist()) if prop == "auto" else prop
class Ticks(AttributeCopier, Line2D):
"""
Ticks are derived from `.Line2D`, and note that ticks themselves
are markers. Thus, you should use set_mec, set_mew, etc.
To change the tick size (length), you need to use
`set_ticksize`. To change the direction of the ticks (ticks are
in opposite direction of ticklabels by default), use
``set_tick_out(False)``
"""
def __init__(self, ticksize, tick_out=False, *, axis=None, **kwargs):
self._ticksize = ticksize
self.locs_angles_labels = []
self.set_tick_out(tick_out)
self._axis = axis
if self._axis is not None:
if "color" not in kwargs:
kwargs["color"] = "auto"
if "mew" not in kwargs and "markeredgewidth" not in kwargs:
kwargs["markeredgewidth"] = "auto"
Line2D.__init__(self, [0.], [0.], **kwargs)
self.set_snap(True)
def get_ref_artist(self):
# docstring inherited
return self._axis.majorTicks[0].tick1line
def set_color(self, color):
# docstring inherited
# Unlike the base Line2D.set_color, this also supports "auto".
if not cbook._str_equal(color, "auto"):
mcolors._check_color_like(color=color)
self._color = color
self.stale = True
def get_color(self):
return self.get_attribute_from_ref_artist("color")
def get_markeredgecolor(self):
return self.get_attribute_from_ref_artist("markeredgecolor")
def get_markeredgewidth(self):
return self.get_attribute_from_ref_artist("markeredgewidth")
def set_tick_out(self, b):
"""Set whether ticks are drawn inside or outside the axes."""
self._tick_out = b
def get_tick_out(self):
"""Return whether ticks are drawn inside or outside the axes."""
return self._tick_out
def set_ticksize(self, ticksize):
"""Set length of the ticks in points."""
self._ticksize = ticksize
def get_ticksize(self):
"""Return length of the ticks in points."""
return self._ticksize
def set_locs_angles(self, locs_angles):
self.locs_angles = locs_angles
_tickvert_path = Path([[0., 0.], [1., 0.]])
def draw(self, renderer):
if not self.get_visible():
return
gc = renderer.new_gc()
gc.set_foreground(self.get_markeredgecolor())
gc.set_linewidth(self.get_markeredgewidth())
gc.set_alpha(self._alpha)
path_trans = self.get_transform()
marker_transform = (Affine2D()
.scale(renderer.points_to_pixels(self._ticksize)))
if self.get_tick_out():
marker_transform.rotate_deg(180)
for loc, angle in self.locs_angles:
locs = path_trans.transform_non_affine(np.array([loc]))
if self.axes and not self.axes.viewLim.contains(*locs[0]):
continue
renderer.draw_markers(
gc, self._tickvert_path,
marker_transform + Affine2D().rotate_deg(angle),
Path(locs), path_trans.get_affine())
gc.restore()
class LabelBase(mtext.Text):
"""
A base class for `.AxisLabel` and `.TickLabels`. The position and
angle of the text are calculated by the offset_ref_angle,
text_ref_angle, and offset_radius attributes.
"""
def __init__(self, *args, **kwargs):
self.locs_angles_labels = []
self._ref_angle = 0
self._offset_radius = 0.
super().__init__(*args, **kwargs)
self.set_rotation_mode("anchor")
self._text_follow_ref_angle = True
@property
def _text_ref_angle(self):
if self._text_follow_ref_angle:
return self._ref_angle + 90
else:
return 0
@property
def _offset_ref_angle(self):
return self._ref_angle
_get_opposite_direction = {"left": "right",
"right": "left",
"top": "bottom",
"bottom": "top"}.__getitem__
def draw(self, renderer):
if not self.get_visible():
return
# save original and adjust some properties
tr = self.get_transform()
angle_orig = self.get_rotation()
theta = np.deg2rad(self._offset_ref_angle)
dd = self._offset_radius
dx, dy = dd * np.cos(theta), dd * np.sin(theta)
self.set_transform(tr + Affine2D().translate(dx, dy))
self.set_rotation(self._text_ref_angle + angle_orig)
super().draw(renderer)
# restore original properties
self.set_transform(tr)
self.set_rotation(angle_orig)
def get_window_extent(self, renderer=None):
if renderer is None:
renderer = self.figure._get_renderer()
# save original and adjust some properties
tr = self.get_transform()
angle_orig = self.get_rotation()
theta = np.deg2rad(self._offset_ref_angle)
dd = self._offset_radius
dx, dy = dd * np.cos(theta), dd * np.sin(theta)
self.set_transform(tr + Affine2D().translate(dx, dy))
self.set_rotation(self._text_ref_angle + angle_orig)
bbox = super().get_window_extent(renderer).frozen()
# restore original properties
self.set_transform(tr)
self.set_rotation(angle_orig)
return bbox
class AxisLabel(AttributeCopier, LabelBase):
"""
Axis label. Derived from `.Text`. The position of the text is updated
in the fly, so changing text position has no effect. Otherwise, the
properties can be changed as a normal `.Text`.
To change the pad between tick labels and axis label, use `set_pad`.
"""
def __init__(self, *args, axis_direction="bottom", axis=None, **kwargs):
self._axis = axis
self._pad = 5
self._external_pad = 0 # in pixels
LabelBase.__init__(self, *args, **kwargs)
self.set_axis_direction(axis_direction)
def set_pad(self, pad):
"""
Set the internal pad in points.
The actual pad will be the sum of the internal pad and the
external pad (the latter is set automatically by the `.AxisArtist`).
Parameters
----------
pad : float
The internal pad in points.
"""
self._pad = pad
def get_pad(self):
"""
Return the internal pad in points.
See `.set_pad` for more details.
"""
return self._pad
def get_ref_artist(self):
# docstring inherited
return self._axis.get_label()
def get_text(self):
# docstring inherited
t = super().get_text()
if t == "__from_axes__":
return self._axis.get_label().get_text()
return self._text
_default_alignments = dict(left=("bottom", "center"),
right=("top", "center"),
bottom=("top", "center"),
top=("bottom", "center"))
def set_default_alignment(self, d):
"""
Set the default alignment. See `set_axis_direction` for details.
Parameters
----------
d : {"left", "bottom", "right", "top"}
"""
va, ha = _api.check_getitem(self._default_alignments, d=d)
self.set_va(va)
self.set_ha(ha)
_default_angles = dict(left=180,
right=0,
bottom=0,
top=180)
def set_default_angle(self, d):
"""
Set the default angle. See `set_axis_direction` for details.
Parameters
----------
d : {"left", "bottom", "right", "top"}
"""
self.set_rotation(_api.check_getitem(self._default_angles, d=d))
def set_axis_direction(self, d):
"""
Adjust the text angle and text alignment of axis label
according to the matplotlib convention.
===================== ========== ========= ========== ==========
Property left bottom right top
===================== ========== ========= ========== ==========
axislabel angle 180 0 0 180
axislabel va center top center bottom
axislabel ha right center right center
===================== ========== ========= ========== ==========
Note that the text angles are actually relative to (90 + angle
of the direction to the ticklabel), which gives 0 for bottom
axis.
Parameters
----------
d : {"left", "bottom", "right", "top"}
"""
self.set_default_alignment(d)
self.set_default_angle(d)
def get_color(self):
return self.get_attribute_from_ref_artist("color")
def draw(self, renderer):
if not self.get_visible():
return
self._offset_radius = \
self._external_pad + renderer.points_to_pixels(self.get_pad())
super().draw(renderer)
def get_window_extent(self, renderer=None):
if renderer is None:
renderer = self.figure._get_renderer()
if not self.get_visible():
return
r = self._external_pad + renderer.points_to_pixels(self.get_pad())
self._offset_radius = r
bb = super().get_window_extent(renderer)
return bb
class TickLabels(AxisLabel): # mtext.Text
"""
Tick labels. While derived from `.Text`, this single artist draws all
ticklabels. As in `.AxisLabel`, the position of the text is updated
in the fly, so changing text position has no effect. Otherwise,
the properties can be changed as a normal `.Text`. Unlike the
ticklabels of the mainline Matplotlib, properties of a single
ticklabel alone cannot be modified.
To change the pad between ticks and ticklabels, use `~.AxisLabel.set_pad`.
"""
def __init__(self, *, axis_direction="bottom", **kwargs):
super().__init__(**kwargs)
self.set_axis_direction(axis_direction)
self._axislabel_pad = 0
def get_ref_artist(self):
# docstring inherited
return self._axis.get_ticklabels()[0]
def set_axis_direction(self, label_direction):
"""
Adjust the text angle and text alignment of ticklabels
according to the Matplotlib convention.
The *label_direction* must be one of [left, right, bottom, top].
===================== ========== ========= ========== ==========
Property left bottom right top
===================== ========== ========= ========== ==========
ticklabel angle 90 0 -90 180
ticklabel va center baseline center baseline
ticklabel ha right center right center
===================== ========== ========= ========== ==========
Note that the text angles are actually relative to (90 + angle
of the direction to the ticklabel), which gives 0 for bottom
axis.
Parameters
----------
label_direction : {"left", "bottom", "right", "top"}
"""
self.set_default_alignment(label_direction)
self.set_default_angle(label_direction)
self._axis_direction = label_direction
def invert_axis_direction(self):
label_direction = self._get_opposite_direction(self._axis_direction)
self.set_axis_direction(label_direction)
def _get_ticklabels_offsets(self, renderer, label_direction):
"""
Calculate the ticklabel offsets from the tick and their total heights.
The offset only takes account the offset due to the vertical alignment
of the ticklabels: if axis direction is bottom and va is 'top', it will
return 0; if va is 'baseline', it will return (height-descent).
"""
whd_list = self.get_texts_widths_heights_descents(renderer)
if not whd_list:
return 0, 0
r = 0
va, ha = self.get_va(), self.get_ha()
if label_direction == "left":
pad = max(w for w, h, d in whd_list)
if ha == "left":
r = pad
elif ha == "center":
r = .5 * pad
elif label_direction == "right":
pad = max(w for w, h, d in whd_list)
if ha == "right":
r = pad
elif ha == "center":
r = .5 * pad
elif label_direction == "bottom":
pad = max(h for w, h, d in whd_list)
if va == "bottom":
r = pad
elif va == "center":
r = .5 * pad
elif va == "baseline":
max_ascent = max(h - d for w, h, d in whd_list)
max_descent = max(d for w, h, d in whd_list)
r = max_ascent
pad = max_ascent + max_descent
elif label_direction == "top":
pad = max(h for w, h, d in whd_list)
if va == "top":
r = pad
elif va == "center":
r = .5 * pad
elif va == "baseline":
max_ascent = max(h - d for w, h, d in whd_list)
max_descent = max(d for w, h, d in whd_list)
r = max_descent
pad = max_ascent + max_descent
# r : offset
# pad : total height of the ticklabels. This will be used to
# calculate the pad for the axislabel.
return r, pad
_default_alignments = dict(left=("center", "right"),
right=("center", "left"),
bottom=("baseline", "center"),
top=("baseline", "center"))
_default_angles = dict(left=90,
right=-90,
bottom=0,
top=180)
def draw(self, renderer):
if not self.get_visible():
self._axislabel_pad = self._external_pad
return
r, total_width = self._get_ticklabels_offsets(renderer,
self._axis_direction)
pad = self._external_pad + renderer.points_to_pixels(self.get_pad())
self._offset_radius = r + pad
for (x, y), a, l in self._locs_angles_labels:
if not l.strip():
continue
self._ref_angle = a
self.set_x(x)
self.set_y(y)
self.set_text(l)
LabelBase.draw(self, renderer)
# the value saved will be used to draw axislabel.
self._axislabel_pad = total_width + pad
def set_locs_angles_labels(self, locs_angles_labels):
self._locs_angles_labels = locs_angles_labels
def get_window_extents(self, renderer=None):
if renderer is None:
renderer = self.figure._get_renderer()
if not self.get_visible():
self._axislabel_pad = self._external_pad
return []
bboxes = []
r, total_width = self._get_ticklabels_offsets(renderer,
self._axis_direction)
pad = self._external_pad + renderer.points_to_pixels(self.get_pad())
self._offset_radius = r + pad
for (x, y), a, l in self._locs_angles_labels:
self._ref_angle = a
self.set_x(x)
self.set_y(y)
self.set_text(l)
bb = LabelBase.get_window_extent(self, renderer)
bboxes.append(bb)
# the value saved will be used to draw axislabel.
self._axislabel_pad = total_width + pad
return bboxes
def get_texts_widths_heights_descents(self, renderer):
"""
Return a list of ``(width, height, descent)`` tuples for ticklabels.
Empty labels are left out.
"""
whd_list = []
for _loc, _angle, label in self._locs_angles_labels:
if not label.strip():
continue
clean_line, ismath = self._preprocess_math(label)
whd = renderer.get_text_width_height_descent(
clean_line, self._fontproperties, ismath=ismath)
whd_list.append(whd)
return whd_list
class GridlinesCollection(LineCollection):
def __init__(self, *args, which="major", axis="both", **kwargs):
"""
Collection of grid lines.
Parameters
----------
which : {"major", "minor"}
Which grid to consider.
axis : {"both", "x", "y"}
Which axis to consider.
*args, **kwargs
Passed to `.LineCollection`.
"""
self._which = which
self._axis = axis
super().__init__(*args, **kwargs)
self.set_grid_helper(None)
def set_which(self, which):
"""
Select major or minor grid lines.
Parameters
----------
which : {"major", "minor"}
"""
self._which = which
def set_axis(self, axis):
"""
Select axis.
Parameters
----------
axis : {"both", "x", "y"}
"""
self._axis = axis
def set_grid_helper(self, grid_helper):
"""
Set grid helper.
Parameters
----------
grid_helper : `.GridHelperBase` subclass
"""
self._grid_helper = grid_helper
def draw(self, renderer):
if self._grid_helper is not None:
self._grid_helper.update_lim(self.axes)
gl = self._grid_helper.get_gridlines(self._which, self._axis)
self.set_segments([np.transpose(l) for l in gl])
super().draw(renderer)
class AxisArtist(martist.Artist):
"""
An artist which draws axis (a line along which the n-th axes coord
is constant) line, ticks, tick labels, and axis label.
"""
zorder = 2.5
@property
def LABELPAD(self):
return self.label.get_pad()
@LABELPAD.setter
def LABELPAD(self, v):
self.label.set_pad(v)
def __init__(self, axes,
helper,
offset=None,
axis_direction="bottom",
**kwargs):
"""
Parameters
----------
axes : `mpl_toolkits.axisartist.axislines.Axes`
helper : `~mpl_toolkits.axisartist.axislines.AxisArtistHelper`
"""
# axes is also used to follow the axis attribute (tick color, etc).
super().__init__(**kwargs)
self.axes = axes
self._axis_artist_helper = helper
if offset is None:
offset = (0, 0)
self.offset_transform = ScaledTranslation(
*offset,
Affine2D().scale(1 / 72) # points to inches.
+ self.axes.figure.dpi_scale_trans)
if axis_direction in ["left", "right"]:
self.axis = axes.yaxis
else:
self.axis = axes.xaxis
self._axisline_style = None
self._axis_direction = axis_direction
self._init_line()
self._init_ticks(**kwargs)
self._init_offsetText(axis_direction)
self._init_label()
# axis direction
self._ticklabel_add_angle = 0.
self._axislabel_add_angle = 0.
self.set_axis_direction(axis_direction)
# axis direction
def set_axis_direction(self, axis_direction):
"""
Adjust the direction, text angle, and text alignment of tick labels
and axis labels following the Matplotlib convention for the rectangle
axes.
The *axis_direction* must be one of [left, right, bottom, top].
===================== ========== ========= ========== ==========
Property left bottom right top
===================== ========== ========= ========== ==========
ticklabel direction "-" "+" "+" "-"
axislabel direction "-" "+" "+" "-"
ticklabel angle 90 0 -90 180
ticklabel va center baseline center baseline
ticklabel ha right center right center
axislabel angle 180 0 0 180
axislabel va center top center bottom
axislabel ha right center right center
===================== ========== ========= ========== ==========
Note that the direction "+" and "-" are relative to the direction of
the increasing coordinate. Also, the text angles are actually
relative to (90 + angle of the direction to the ticklabel),
which gives 0 for bottom axis.
Parameters
----------
axis_direction : {"left", "bottom", "right", "top"}
"""
self.major_ticklabels.set_axis_direction(axis_direction)
self.label.set_axis_direction(axis_direction)
self._axis_direction = axis_direction
if axis_direction in ["left", "top"]:
self.set_ticklabel_direction("-")
self.set_axislabel_direction("-")
else:
self.set_ticklabel_direction("+")
self.set_axislabel_direction("+")
def set_ticklabel_direction(self, tick_direction):
r"""
Adjust the direction of the tick labels.
Note that the *tick_direction*\s '+' and '-' are relative to the
direction of the increasing coordinate.
Parameters
----------
tick_direction : {"+", "-"}
"""
self._ticklabel_add_angle = _api.check_getitem(
{"+": 0, "-": 180}, tick_direction=tick_direction)
def invert_ticklabel_direction(self):
self._ticklabel_add_angle = (self._ticklabel_add_angle + 180) % 360
self.major_ticklabels.invert_axis_direction()
self.minor_ticklabels.invert_axis_direction()
def set_axislabel_direction(self, label_direction):
r"""
Adjust the direction of the axis label.
Note that the *label_direction*\s '+' and '-' are relative to the
direction of the increasing coordinate.
Parameters
----------
label_direction : {"+", "-"}
"""
self._axislabel_add_angle = _api.check_getitem(
{"+": 0, "-": 180}, label_direction=label_direction)
def get_transform(self):
return self.axes.transAxes + self.offset_transform
def get_helper(self):
"""
Return axis artist helper instance.
"""
return self._axis_artist_helper
def set_axisline_style(self, axisline_style=None, **kwargs):
"""
Set the axisline style.
The new style is completely defined by the passed attributes. Existing
style attributes are forgotten.
Parameters
----------
axisline_style : str or None
The line style, e.g. '->', optionally followed by a comma-separated
list of attributes. Alternatively, the attributes can be provided
as keywords.
If *None* this returns a string containing the available styles.
Examples
--------
The following two commands are equal:
>>> set_axisline_style("->,size=1.5")
>>> set_axisline_style("->", size=1.5)
"""
if axisline_style is None:
return AxislineStyle.pprint_styles()
if isinstance(axisline_style, AxislineStyle._Base):
self._axisline_style = axisline_style
else:
self._axisline_style = AxislineStyle(axisline_style, **kwargs)
self._init_line()
def get_axisline_style(self):
"""Return the current axisline style."""
return self._axisline_style
def _init_line(self):
"""
Initialize the *line* artist that is responsible to draw the axis line.
"""
tran = (self._axis_artist_helper.get_line_transform(self.axes)
+ self.offset_transform)
axisline_style = self.get_axisline_style()
if axisline_style is None:
self.line = PathPatch(
self._axis_artist_helper.get_line(self.axes),
color=mpl.rcParams['axes.edgecolor'],
fill=False,
linewidth=mpl.rcParams['axes.linewidth'],
capstyle=mpl.rcParams['lines.solid_capstyle'],
joinstyle=mpl.rcParams['lines.solid_joinstyle'],
transform=tran)
else:
self.line = axisline_style(self, transform=tran)
def _draw_line(self, renderer):
self.line.set_path(self._axis_artist_helper.get_line(self.axes))
if self.get_axisline_style() is not None:
self.line.set_line_mutation_scale(self.major_ticklabels.get_size())
self.line.draw(renderer)
def _init_ticks(self, **kwargs):
axis_name = self.axis.axis_name
trans = (self._axis_artist_helper.get_tick_transform(self.axes)
+ self.offset_transform)
self.major_ticks = Ticks(
kwargs.get(
"major_tick_size",
mpl.rcParams[f"{axis_name}tick.major.size"]),
axis=self.axis, transform=trans)
self.minor_ticks = Ticks(
kwargs.get(
"minor_tick_size",
mpl.rcParams[f"{axis_name}tick.minor.size"]),
axis=self.axis, transform=trans)
size = mpl.rcParams[f"{axis_name}tick.labelsize"]
self.major_ticklabels = TickLabels(
axis=self.axis,
axis_direction=self._axis_direction,
figure=self.axes.figure,
transform=trans,
fontsize=size,
pad=kwargs.get(
"major_tick_pad", mpl.rcParams[f"{axis_name}tick.major.pad"]),
)
self.minor_ticklabels = TickLabels(
axis=self.axis,
axis_direction=self._axis_direction,
figure=self.axes.figure,
transform=trans,
fontsize=size,
pad=kwargs.get(
"minor_tick_pad", mpl.rcParams[f"{axis_name}tick.minor.pad"]),
)
def _get_tick_info(self, tick_iter):
"""
Return a pair of:
- list of locs and angles for ticks
- list of locs, angles and labels for ticklabels.
"""
ticks_loc_angle = []
ticklabels_loc_angle_label = []
ticklabel_add_angle = self._ticklabel_add_angle
for loc, angle_normal, angle_tangent, label in tick_iter:
angle_label = angle_tangent - 90 + ticklabel_add_angle
angle_tick = (angle_normal
if 90 <= (angle_label - angle_normal) % 360 <= 270
else angle_normal + 180)
ticks_loc_angle.append([loc, angle_tick])
ticklabels_loc_angle_label.append([loc, angle_label, label])
return ticks_loc_angle, ticklabels_loc_angle_label
def _update_ticks(self, renderer=None):
# set extra pad for major and minor ticklabels: use ticksize of
# majorticks even for minor ticks. not clear what is best.
if renderer is None:
renderer = self.figure._get_renderer()
dpi_cor = renderer.points_to_pixels(1.)
if self.major_ticks.get_visible() and self.major_ticks.get_tick_out():
ticklabel_pad = self.major_ticks._ticksize * dpi_cor
self.major_ticklabels._external_pad = ticklabel_pad
self.minor_ticklabels._external_pad = ticklabel_pad
else:
self.major_ticklabels._external_pad = 0
self.minor_ticklabels._external_pad = 0
majortick_iter, minortick_iter = \
self._axis_artist_helper.get_tick_iterators(self.axes)
tick_loc_angle, ticklabel_loc_angle_label = \
self._get_tick_info(majortick_iter)
self.major_ticks.set_locs_angles(tick_loc_angle)
self.major_ticklabels.set_locs_angles_labels(ticklabel_loc_angle_label)
tick_loc_angle, ticklabel_loc_angle_label = \
self._get_tick_info(minortick_iter)
self.minor_ticks.set_locs_angles(tick_loc_angle)
self.minor_ticklabels.set_locs_angles_labels(ticklabel_loc_angle_label)
def _draw_ticks(self, renderer):
self._update_ticks(renderer)
self.major_ticks.draw(renderer)
self.major_ticklabels.draw(renderer)
self.minor_ticks.draw(renderer)
self.minor_ticklabels.draw(renderer)
if (self.major_ticklabels.get_visible()
or self.minor_ticklabels.get_visible()):
self._draw_offsetText(renderer)
_offsetText_pos = dict(left=(0, 1, "bottom", "right"),
right=(1, 1, "bottom", "left"),
bottom=(1, 0, "top", "right"),
top=(1, 1, "bottom", "right"))
def _init_offsetText(self, direction):
x, y, va, ha = self._offsetText_pos[direction]
self.offsetText = mtext.Annotation(
"",
xy=(x, y), xycoords="axes fraction",
xytext=(0, 0), textcoords="offset points",
color=mpl.rcParams['xtick.color'],
horizontalalignment=ha, verticalalignment=va,
)
self.offsetText.set_transform(IdentityTransform())
self.axes._set_artist_props(self.offsetText)
def _update_offsetText(self):
self.offsetText.set_text(self.axis.major.formatter.get_offset())
self.offsetText.set_size(self.major_ticklabels.get_size())
offset = (self.major_ticklabels.get_pad()
+ self.major_ticklabels.get_size()
+ 2)
self.offsetText.xyann = (0, offset)
def _draw_offsetText(self, renderer):
self._update_offsetText()
self.offsetText.draw(renderer)
def _init_label(self, **kwargs):
tr = (self._axis_artist_helper.get_axislabel_transform(self.axes)
+ self.offset_transform)
self.label = AxisLabel(
0, 0, "__from_axes__",
color="auto",
fontsize=kwargs.get("labelsize", mpl.rcParams['axes.labelsize']),
fontweight=mpl.rcParams['axes.labelweight'],
axis=self.axis,
transform=tr,
axis_direction=self._axis_direction,
)
self.label.set_figure(self.axes.figure)
labelpad = kwargs.get("labelpad", 5)
self.label.set_pad(labelpad)
def _update_label(self, renderer):
if not self.label.get_visible():
return
if self._ticklabel_add_angle != self._axislabel_add_angle:
if ((self.major_ticks.get_visible()
and not self.major_ticks.get_tick_out())
or (self.minor_ticks.get_visible()
and not self.major_ticks.get_tick_out())):
axislabel_pad = self.major_ticks._ticksize
else:
axislabel_pad = 0
else:
axislabel_pad = max(self.major_ticklabels._axislabel_pad,
self.minor_ticklabels._axislabel_pad)
self.label._external_pad = axislabel_pad
xy, angle_tangent = \
self._axis_artist_helper.get_axislabel_pos_angle(self.axes)
if xy is None:
return
angle_label = angle_tangent - 90
x, y = xy
self.label._ref_angle = angle_label + self._axislabel_add_angle
self.label.set(x=x, y=y)
def _draw_label(self, renderer):
self._update_label(renderer)
self.label.draw(renderer)
def set_label(self, s):
# docstring inherited
self.label.set_text(s)
def get_tightbbox(self, renderer=None):
if not self.get_visible():
return
self._axis_artist_helper.update_lim(self.axes)
self._update_ticks(renderer)
self._update_label(renderer)
self.line.set_path(self._axis_artist_helper.get_line(self.axes))
if self.get_axisline_style() is not None:
self.line.set_line_mutation_scale(self.major_ticklabels.get_size())
bb = [
*self.major_ticklabels.get_window_extents(renderer),
*self.minor_ticklabels.get_window_extents(renderer),
self.label.get_window_extent(renderer),
self.offsetText.get_window_extent(renderer),
self.line.get_window_extent(renderer),
]
bb = [b for b in bb if b and (b.width != 0 or b.height != 0)]
if bb:
_bbox = Bbox.union(bb)
return _bbox
else:
return None
@martist.allow_rasterization
def draw(self, renderer):
# docstring inherited
if not self.get_visible():
return
renderer.open_group(__name__, gid=self.get_gid())
self._axis_artist_helper.update_lim(self.axes)
self._draw_ticks(renderer)
self._draw_line(renderer)
self._draw_label(renderer)
renderer.close_group(__name__)
def toggle(self, all=None, ticks=None, ticklabels=None, label=None):
"""
Toggle visibility of ticks, ticklabels, and (axis) label.
To turn all off, ::
axis.toggle(all=False)
To turn all off but ticks on ::
axis.toggle(all=False, ticks=True)
To turn all on but (axis) label off ::
axis.toggle(all=True, label=False)
"""
if all:
_ticks, _ticklabels, _label = True, True, True
elif all is not None:
_ticks, _ticklabels, _label = False, False, False
else:
_ticks, _ticklabels, _label = None, None, None
if ticks is not None:
_ticks = ticks
if ticklabels is not None:
_ticklabels = ticklabels
if label is not None:
_label = label
if _ticks is not None:
self.major_ticks.set_visible(_ticks)
self.minor_ticks.set_visible(_ticks)
if _ticklabels is not None:
self.major_ticklabels.set_visible(_ticklabels)
self.minor_ticklabels.set_visible(_ticklabels)
if _label is not None:
self.label.set_visible(_label)