Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/matplotlib/tests/test_marker.py

176 lines
6.3 KiB
Python

import numpy as np
import matplotlib.pyplot as plt
from matplotlib import markers
from matplotlib.path import Path
from matplotlib.testing.decorators import check_figures_equal
import pytest
def test_markers_valid():
marker_style = markers.MarkerStyle()
mrk_array = np.array([[-0.5, 0],
[0.5, 0]])
# Checking this doesn't fail.
marker_style.set_marker(mrk_array)
def test_markers_invalid():
marker_style = markers.MarkerStyle()
mrk_array = np.array([[-0.5, 0, 1, 2, 3]])
# Checking this does fail.
with pytest.raises(ValueError):
marker_style.set_marker(mrk_array)
def test_marker_path():
marker_style = markers.MarkerStyle()
path = Path([[0, 0], [1, 0]], [Path.MOVETO, Path.LINETO])
# Checking this doesn't fail.
marker_style.set_marker(path)
class UnsnappedMarkerStyle(markers.MarkerStyle):
"""
A MarkerStyle where the snap threshold is force-disabled.
This is used to compare to polygon/star/asterisk markers which do not have
any snap threshold set.
"""
def _recache(self):
super()._recache()
self._snap_threshold = None
@check_figures_equal()
def test_poly_marker(fig_test, fig_ref):
ax_test = fig_test.add_subplot()
ax_ref = fig_ref.add_subplot()
# Note, some reference sizes must be different because they have unit
# *length*, while polygon markers are inscribed in a circle of unit
# *radius*. This introduces a factor of np.sqrt(2), but since size is
# squared, that becomes 2.
size = 20**2
# Squares
ax_test.scatter([0], [0], marker=(4, 0, 45), s=size)
ax_ref.scatter([0], [0], marker='s', s=size/2)
# Diamonds, with and without rotation argument
ax_test.scatter([1], [1], marker=(4, 0), s=size)
ax_ref.scatter([1], [1], marker=UnsnappedMarkerStyle('D'), s=size/2)
ax_test.scatter([1], [1.5], marker=(4, 0, 0), s=size)
ax_ref.scatter([1], [1.5], marker=UnsnappedMarkerStyle('D'), s=size/2)
# Pentagon, with and without rotation argument
ax_test.scatter([2], [2], marker=(5, 0), s=size)
ax_ref.scatter([2], [2], marker=UnsnappedMarkerStyle('p'), s=size)
ax_test.scatter([2], [2.5], marker=(5, 0, 0), s=size)
ax_ref.scatter([2], [2.5], marker=UnsnappedMarkerStyle('p'), s=size)
# Hexagon, with and without rotation argument
ax_test.scatter([3], [3], marker=(6, 0), s=size)
ax_ref.scatter([3], [3], marker='h', s=size)
ax_test.scatter([3], [3.5], marker=(6, 0, 0), s=size)
ax_ref.scatter([3], [3.5], marker='h', s=size)
# Rotated hexagon
ax_test.scatter([4], [4], marker=(6, 0, 30), s=size)
ax_ref.scatter([4], [4], marker='H', s=size)
# Octagons
ax_test.scatter([5], [5], marker=(8, 0, 22.5), s=size)
ax_ref.scatter([5], [5], marker=UnsnappedMarkerStyle('8'), s=size)
ax_test.set(xlim=(-0.5, 5.5), ylim=(-0.5, 5.5))
ax_ref.set(xlim=(-0.5, 5.5), ylim=(-0.5, 5.5))
def test_star_marker():
# We don't really have a strict equivalent to this marker, so we'll just do
# a smoke test.
size = 20**2
fig, ax = plt.subplots()
ax.scatter([0], [0], marker=(5, 1), s=size)
ax.scatter([1], [1], marker=(5, 1, 0), s=size)
ax.set(xlim=(-0.5, 0.5), ylim=(-0.5, 1.5))
# The asterisk marker is really a star with 0-size inner circle, so the ends
# are corners and get a slight bevel. The reference markers are just singular
# lines without corners, so they have no bevel, and we need to add a slight
# tolerance.
@check_figures_equal(tol=1.45)
def test_asterisk_marker(fig_test, fig_ref, request):
ax_test = fig_test.add_subplot()
ax_ref = fig_ref.add_subplot()
# Note, some reference sizes must be different because they have unit
# *length*, while asterisk markers are inscribed in a circle of unit
# *radius*. This introduces a factor of np.sqrt(2), but since size is
# squared, that becomes 2.
size = 20**2
def draw_ref_marker(y, style, size):
# As noted above, every line is doubled. Due to antialiasing, these
# doubled lines make a slight difference in the .png results.
ax_ref.scatter([y], [y], marker=UnsnappedMarkerStyle(style), s=size)
if request.getfixturevalue('ext') == 'png':
ax_ref.scatter([y], [y], marker=UnsnappedMarkerStyle(style),
s=size)
# Plus
ax_test.scatter([0], [0], marker=(4, 2), s=size)
draw_ref_marker(0, '+', size)
ax_test.scatter([0.5], [0.5], marker=(4, 2, 0), s=size)
draw_ref_marker(0.5, '+', size)
# Cross
ax_test.scatter([1], [1], marker=(4, 2, 45), s=size)
draw_ref_marker(1, 'x', size/2)
ax_test.set(xlim=(-0.5, 1.5), ylim=(-0.5, 1.5))
ax_ref.set(xlim=(-0.5, 1.5), ylim=(-0.5, 1.5))
@check_figures_equal()
def test_marker_clipping(fig_ref, fig_test):
# Plotting multiple markers can trigger different optimized paths in
# backends, so compare single markers vs multiple to ensure they are
# clipped correctly.
marker_count = len(markers.MarkerStyle.markers)
marker_size = 50
ncol = 7
nrow = marker_count // ncol + 1
width = 2 * marker_size * ncol
height = 2 * marker_size * nrow * 2
fig_ref.set_size_inches((width / fig_ref.dpi, height / fig_ref.dpi))
ax_ref = fig_ref.add_axes([0, 0, 1, 1])
fig_test.set_size_inches((width / fig_test.dpi, height / fig_ref.dpi))
ax_test = fig_test.add_axes([0, 0, 1, 1])
for i, marker in enumerate(markers.MarkerStyle.markers):
x = i % ncol
y = i // ncol * 2
# Singular markers per call.
ax_ref.plot([x, x], [y, y + 1], c='k', linestyle='-', lw=3)
ax_ref.plot(x, y, c='k',
marker=marker, markersize=marker_size, markeredgewidth=10,
fillstyle='full', markerfacecolor='white')
ax_ref.plot(x, y + 1, c='k',
marker=marker, markersize=marker_size, markeredgewidth=10,
fillstyle='full', markerfacecolor='white')
# Multiple markers in a single call.
ax_test.plot([x, x], [y, y + 1], c='k', linestyle='-', lw=3,
marker=marker, markersize=marker_size, markeredgewidth=10,
fillstyle='full', markerfacecolor='white')
ax_ref.set(xlim=(-0.5, ncol), ylim=(-0.5, 2 * nrow))
ax_test.set(xlim=(-0.5, ncol), ylim=(-0.5, 2 * nrow))
ax_ref.axis('off')
ax_test.axis('off')