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"""
Axislines includes modified implementation of the Axes class. The
biggest difference is that the artists responsible for drawing the axis spine,
ticks, ticklabels and axis labels are separated out from mpl's Axis
class. Originally, this change was motivated to support curvilinear
grid. Here are a few reasons that I came up with a new axes class:
* "top" and "bottom" x-axis (or "left" and "right" y-axis) can have
different ticks (tick locations and labels). This is not possible
with the current mpl, although some twin axes trick can help.
* Curvilinear grid.
* angled ticks.
In the new axes class, xaxis and yaxis is set to not visible by
default, and new set of artist (AxisArtist) are defined to draw axis
line, ticks, ticklabels and axis label. Axes.axis attribute serves as
a dictionary of these artists, i.e., ax.axis["left"] is a AxisArtist
instance responsible to draw left y-axis. The default Axes.axis contains
"bottom", "left", "top" and "right".
AxisArtist can be considered as a container artist and
has following children artists which will draw ticks, labels, etc.
* line
* major_ticks, major_ticklabels
* minor_ticks, minor_ticklabels
* offsetText
* label
Note that these are separate artists from Axis class of the
original mpl, thus most of tick-related command in the original mpl
won't work, although some effort has made to work with. For example,
color and markerwidth of the ax.axis["bottom"].major_ticks will follow
those of Axes.xaxis unless explicitly specified.
In addition to AxisArtist, the Axes will have *gridlines* attribute,
which obviously draws grid lines. The gridlines needs to be separated
from the axis as some gridlines can never pass any axis.
"""
import numpy as np
from matplotlib import cbook, rcParams
import matplotlib.artist as martist
import matplotlib.axes as maxes
from matplotlib.path import Path
from mpl_toolkits.axes_grid1 import mpl_axes
from .axisline_style import AxislineStyle
from .axis_artist import AxisArtist, GridlinesCollection
class AxisArtistHelper:
"""
AxisArtistHelper should define
following method with given APIs. Note that the first axes argument
will be axes attribute of the caller artist.::
# LINE (spinal line?)
def get_line(self, axes):
# path : Path
return path
def get_line_transform(self, axes):
# ...
# trans : transform
return trans
# LABEL
def get_label_pos(self, axes):
# x, y : position
return (x, y), trans
def get_label_offset_transform(self,
axes,
pad_points, fontprops, renderer,
bboxes,
):
# va : vertical alignment
# ha : horizontal alignment
# a : angle
return trans, va, ha, a
# TICK
def get_tick_transform(self, axes):
return trans
def get_tick_iterators(self, axes):
# iter : iterable object that yields (c, angle, l) where
# c, angle, l is position, tick angle, and label
return iter_major, iter_minor
"""
class _Base:
"""Base class for axis helper."""
def __init__(self):
self.delta1, self.delta2 = 0.00001, 0.00001
def update_lim(self, axes):
pass
class Fixed(_Base):
"""Helper class for a fixed (in the axes coordinate) axis."""
_default_passthru_pt = dict(left=(0, 0),
right=(1, 0),
bottom=(0, 0),
top=(0, 1))
def __init__(self, loc, nth_coord=None):
"""
nth_coord = along which coordinate value varies
in 2d, nth_coord = 0 -> x axis, nth_coord = 1 -> y axis
"""
cbook._check_in_list(["left", "right", "bottom", "top"], loc=loc)
self._loc = loc
if nth_coord is None:
if loc in ["left", "right"]:
nth_coord = 1
elif loc in ["bottom", "top"]:
nth_coord = 0
self.nth_coord = nth_coord
super().__init__()
self.passthru_pt = self._default_passthru_pt[loc]
_verts = np.array([[0., 0.],
[1., 1.]])
fixed_coord = 1 - nth_coord
_verts[:, fixed_coord] = self.passthru_pt[fixed_coord]
# axis line in transAxes
self._path = Path(_verts)
def get_nth_coord(self):
return self.nth_coord
# LINE
def get_line(self, axes):
return self._path
def get_line_transform(self, axes):
return axes.transAxes
# LABEL
def get_axislabel_transform(self, axes):
return axes.transAxes
def get_axislabel_pos_angle(self, axes):
"""
label reference position in transAxes.
get_label_transform() returns a transform of (transAxes+offset)
"""
return dict(left=((0., 0.5), 90), # (position, angle_tangent)
right=((1., 0.5), 90),
bottom=((0.5, 0.), 0),
top=((0.5, 1.), 0))[self._loc]
# TICK
def get_tick_transform(self, axes):
return [axes.get_xaxis_transform(),
axes.get_yaxis_transform()][self.nth_coord]
class Floating(_Base):
def __init__(self, nth_coord, value):
self.nth_coord = nth_coord
self._value = value
super().__init__()
def get_nth_coord(self):
return self.nth_coord
def get_line(self, axes):
raise RuntimeError(
"get_line method should be defined by the derived class")
class AxisArtistHelperRectlinear:
class Fixed(AxisArtistHelper.Fixed):
def __init__(self, axes, loc, nth_coord=None):
"""
nth_coord = along which coordinate value varies
in 2d, nth_coord = 0 -> x axis, nth_coord = 1 -> y axis
"""
super().__init__(loc, nth_coord)
self.axis = [axes.xaxis, axes.yaxis][self.nth_coord]
# TICK
def get_tick_iterators(self, axes):
"""tick_loc, tick_angle, tick_label"""
loc = self._loc
if loc in ["bottom", "top"]:
angle_normal, angle_tangent = 90, 0
else:
angle_normal, angle_tangent = 0, 90
major = self.axis.major
majorLocs = major.locator()
majorLabels = major.formatter.format_ticks(majorLocs)
minor = self.axis.minor
minorLocs = minor.locator()
minorLabels = minor.formatter.format_ticks(minorLocs)
tick_to_axes = self.get_tick_transform(axes) - axes.transAxes
def _f(locs, labels):
for x, l in zip(locs, labels):
c = list(self.passthru_pt) # copy
c[self.nth_coord] = x
# check if the tick point is inside axes
c2 = tick_to_axes.transform(c)
if (0 - self.delta1
<= c2[self.nth_coord]
<= 1 + self.delta2):
yield c, angle_normal, angle_tangent, l
return _f(majorLocs, majorLabels), _f(minorLocs, minorLabels)
class Floating(AxisArtistHelper.Floating):
def __init__(self, axes, nth_coord,
passingthrough_point, axis_direction="bottom"):
super().__init__(nth_coord, passingthrough_point)
self._axis_direction = axis_direction
self.axis = [axes.xaxis, axes.yaxis][self.nth_coord]
def get_line(self, axes):
_verts = np.array([[0., 0.],
[1., 1.]])
fixed_coord = 1 - self.nth_coord
data_to_axes = axes.transData - axes.transAxes
p = data_to_axes.transform([self._value, self._value])
_verts[:, fixed_coord] = p[fixed_coord]
return Path(_verts)
def get_line_transform(self, axes):
return axes.transAxes
def get_axislabel_transform(self, axes):
return axes.transAxes
def get_axislabel_pos_angle(self, axes):
"""
label reference position in transAxes.
get_label_transform() returns a transform of (transAxes+offset)
"""
angle = [0, 90][self.nth_coord]
_verts = [0.5, 0.5]
fixed_coord = 1 - self.nth_coord
data_to_axes = axes.transData - axes.transAxes
p = data_to_axes.transform([self._value, self._value])
_verts[fixed_coord] = p[fixed_coord]
if 0 <= _verts[fixed_coord] <= 1:
return _verts, angle
else:
return None, None
def get_tick_transform(self, axes):
return axes.transData
def get_tick_iterators(self, axes):
"""tick_loc, tick_angle, tick_label"""
if self.nth_coord == 0:
angle_normal, angle_tangent = 90, 0
else:
angle_normal, angle_tangent = 0, 90
major = self.axis.major
majorLocs = major.locator()
majorLabels = major.formatter.format_ticks(majorLocs)
minor = self.axis.minor
minorLocs = minor.locator()
minorLabels = minor.formatter.format_ticks(minorLocs)
data_to_axes = axes.transData - axes.transAxes
def _f(locs, labels):
for x, l in zip(locs, labels):
c = [self._value, self._value]
c[self.nth_coord] = x
c1, c2 = data_to_axes.transform(c)
if (0 <= c1 <= 1 and 0 <= c2 <= 1
and 0 - self.delta1
<= [c1, c2][self.nth_coord]
<= 1 + self.delta2):
yield c, angle_normal, angle_tangent, l
return _f(majorLocs, majorLabels), _f(minorLocs, minorLabels)
class GridHelperBase:
def __init__(self):
self._force_update = True
self._old_limits = None
super().__init__()
def update_lim(self, axes):
x1, x2 = axes.get_xlim()
y1, y2 = axes.get_ylim()
if self._force_update or self._old_limits != (x1, x2, y1, y2):
self._update(x1, x2, y1, y2)
self._force_update = False
self._old_limits = (x1, x2, y1, y2)
def _update(self, x1, x2, y1, y2):
pass
def invalidate(self):
self._force_update = True
def valid(self):
return not self._force_update
def get_gridlines(self, which, axis):
"""
Return list of grid lines as a list of paths (list of points).
*which* : "major" or "minor"
*axis* : "both", "x" or "y"
"""
return []
def new_gridlines(self, ax):
"""
Create and return a new GridlineCollection instance.
*which* : "major" or "minor"
*axis* : "both", "x" or "y"
"""
gridlines = GridlinesCollection(None, transform=ax.transData,
colors=rcParams['grid.color'],
linestyles=rcParams['grid.linestyle'],
linewidths=rcParams['grid.linewidth'])
ax._set_artist_props(gridlines)
gridlines.set_grid_helper(self)
ax.axes._set_artist_props(gridlines)
# gridlines.set_clip_path(self.axes.patch)
# set_clip_path need to be deferred after Axes.cla is completed.
# It is done inside the cla.
return gridlines
class GridHelperRectlinear(GridHelperBase):
def __init__(self, axes):
super().__init__()
self.axes = axes
def new_fixed_axis(self, loc,
nth_coord=None,
axis_direction=None,
offset=None,
axes=None,
):
if axes is None:
cbook._warn_external(
"'new_fixed_axis' explicitly requires the axes keyword.")
axes = self.axes
_helper = AxisArtistHelperRectlinear.Fixed(axes, loc, nth_coord)
if axis_direction is None:
axis_direction = loc
axisline = AxisArtist(axes, _helper, offset=offset,
axis_direction=axis_direction,
)
return axisline
def new_floating_axis(self, nth_coord, value,
axis_direction="bottom",
axes=None,
):
if axes is None:
cbook._warn_external(
"'new_floating_axis' explicitly requires the axes keyword.")
axes = self.axes
_helper = AxisArtistHelperRectlinear.Floating(
axes, nth_coord, value, axis_direction)
axisline = AxisArtist(axes, _helper)
axisline.line.set_clip_on(True)
axisline.line.set_clip_box(axisline.axes.bbox)
return axisline
def get_gridlines(self, which="major", axis="both"):
"""
return list of gridline coordinates in data coordinates.
*which* : "major" or "minor"
*axis* : "both", "x" or "y"
"""
gridlines = []
if axis in ["both", "x"]:
locs = []
y1, y2 = self.axes.get_ylim()
if which in ["both", "major"]:
locs.extend(self.axes.xaxis.major.locator())
if which in ["both", "minor"]:
locs.extend(self.axes.xaxis.minor.locator())
for x in locs:
gridlines.append([[x, x], [y1, y2]])
if axis in ["both", "y"]:
x1, x2 = self.axes.get_xlim()
locs = []
if self.axes.yaxis._gridOnMajor:
locs.extend(self.axes.yaxis.major.locator())
if self.axes.yaxis._gridOnMinor:
locs.extend(self.axes.yaxis.minor.locator())
for y in locs:
gridlines.append([[x1, x2], [y, y]])
return gridlines
@cbook.deprecated("3.1")
class SimpleChainedObjects:
def __init__(self, objects):
self._objects = objects
def __getattr__(self, k):
_a = SimpleChainedObjects([getattr(a, k) for a in self._objects])
return _a
def __call__(self, *args, **kwargs):
for m in self._objects:
m(*args, **kwargs)
class Axes(maxes.Axes):
@cbook.deprecated("3.1")
class AxisDict(dict):
def __init__(self, axes):
self.axes = axes
super().__init__()
def __getitem__(self, k):
if isinstance(k, tuple):
return SimpleChainedObjects(
[dict.__getitem__(self, k1) for k1 in k])
elif isinstance(k, slice):
if k == slice(None):
return SimpleChainedObjects(list(self.values()))
else:
raise ValueError("Unsupported slice")
else:
return dict.__getitem__(self, k)
def __call__(self, *args, **kwargs):
return maxes.Axes.axis(self.axes, *args, **kwargs)
def __init__(self, *args, grid_helper=None, **kwargs):
self._axisline_on = True
self._grid_helper = (grid_helper if grid_helper
else GridHelperRectlinear(self))
super().__init__(*args, **kwargs)
self.toggle_axisline(True)
def toggle_axisline(self, b=None):
if b is None:
b = not self._axisline_on
if b:
self._axisline_on = True
for s in self.spines.values():
s.set_visible(False)
self.xaxis.set_visible(False)
self.yaxis.set_visible(False)
else:
self._axisline_on = False
for s in self.spines.values():
s.set_visible(True)
self.xaxis.set_visible(True)
self.yaxis.set_visible(True)
def _init_axis_artists(self, axes=None):
if axes is None:
axes = self
self._axislines = mpl_axes.Axes.AxisDict(self)
new_fixed_axis = self.get_grid_helper().new_fixed_axis
for loc in ["bottom", "top", "left", "right"]:
self._axislines[loc] = new_fixed_axis(loc=loc, axes=axes,
axis_direction=loc)
for axisline in [self._axislines["top"], self._axislines["right"]]:
axisline.label.set_visible(False)
axisline.major_ticklabels.set_visible(False)
axisline.minor_ticklabels.set_visible(False)
@property
def axis(self):
return self._axislines
def new_gridlines(self, grid_helper=None):
"""
Create and return a new GridlineCollection instance.
*which* : "major" or "minor"
*axis* : "both", "x" or "y"
"""
if grid_helper is None:
grid_helper = self.get_grid_helper()
gridlines = grid_helper.new_gridlines(self)
return gridlines
def _init_gridlines(self, grid_helper=None):
# It is done inside the cla.
self.gridlines = self.new_gridlines(grid_helper)
def cla(self):
# gridlines need to b created before cla() since cla calls grid()
self._init_gridlines()
super().cla()
# the clip_path should be set after Axes.cla() since that's
# when a patch is created.
self.gridlines.set_clip_path(self.axes.patch)
self._init_axis_artists()
def get_grid_helper(self):
return self._grid_helper
def grid(self, b=None, which='major', axis="both", **kwargs):
"""
Toggle the gridlines, and optionally set the properties of the lines.
"""
# their are some discrepancy between the behavior of grid in
# axes_grid and the original mpl's grid, because axes_grid
# explicitly set the visibility of the gridlines.
super().grid(b, which=which, axis=axis, **kwargs)
if not self._axisline_on:
return
if b is None:
b = (self.axes.xaxis._gridOnMinor
or self.axes.xaxis._gridOnMajor
or self.axes.yaxis._gridOnMinor
or self.axes.yaxis._gridOnMajor)
self.gridlines.set_which(which)
self.gridlines.set_axis(axis)
self.gridlines.set_visible(b)
if len(kwargs):
martist.setp(self.gridlines, **kwargs)
def get_children(self):
if self._axisline_on:
children = [*self._axislines.values(), self.gridlines]
else:
children = []
children.extend(super().get_children())
return children
def invalidate_grid_helper(self):
self._grid_helper.invalidate()
def new_fixed_axis(self, loc, offset=None):
gh = self.get_grid_helper()
axis = gh.new_fixed_axis(loc,
nth_coord=None,
axis_direction=None,
offset=offset,
axes=self,
)
return axis
def new_floating_axis(self, nth_coord, value, axis_direction="bottom"):
gh = self.get_grid_helper()
axis = gh.new_floating_axis(nth_coord, value,
axis_direction=axis_direction,
axes=self)
return axis
Subplot = maxes.subplot_class_factory(Axes)
class AxesZero(Axes):
def _init_axis_artists(self):
super()._init_axis_artists()
new_floating_axis = self._grid_helper.new_floating_axis
xaxis_zero = new_floating_axis(nth_coord=0,
value=0.,
axis_direction="bottom",
axes=self)
xaxis_zero.line.set_clip_path(self.patch)
xaxis_zero.set_visible(False)
self._axislines["xzero"] = xaxis_zero
yaxis_zero = new_floating_axis(nth_coord=1,
value=0.,
axis_direction="left",
axes=self)
yaxis_zero.line.set_clip_path(self.patch)
yaxis_zero.set_visible(False)
self._axislines["yzero"] = yaxis_zero
SubplotZero = maxes.subplot_class_factory(AxesZero)