import datetime import platform import re import numpy as np from numpy.testing import assert_array_almost_equal import matplotlib as mpl from matplotlib.testing.decorators import image_comparison from matplotlib import pyplot as plt, rc_context from matplotlib.colors import LogNorm import pytest def test_contour_shape_1d_valid(): x = np.arange(10) y = np.arange(9) z = np.random.random((9, 10)) fig, ax = plt.subplots() ax.contour(x, y, z) def test_contour_shape_2d_valid(): x = np.arange(10) y = np.arange(9) xg, yg = np.meshgrid(x, y) z = np.random.random((9, 10)) fig, ax = plt.subplots() ax.contour(xg, yg, z) @pytest.mark.parametrize("args, message", [ ((np.arange(9), np.arange(9), np.empty((9, 10))), 'Length of x (9) must match number of columns in z (10)'), ((np.arange(10), np.arange(10), np.empty((9, 10))), 'Length of y (10) must match number of rows in z (9)'), ((np.empty((10, 10)), np.arange(10), np.empty((9, 10))), 'Number of dimensions of x (2) and y (1) do not match'), ((np.arange(10), np.empty((10, 10)), np.empty((9, 10))), 'Number of dimensions of x (1) and y (2) do not match'), ((np.empty((9, 9)), np.empty((9, 10)), np.empty((9, 10))), 'Shapes of x (9, 9) and z (9, 10) do not match'), ((np.empty((9, 10)), np.empty((9, 9)), np.empty((9, 10))), 'Shapes of y (9, 9) and z (9, 10) do not match'), ((np.empty((3, 3, 3)), np.empty((3, 3, 3)), np.empty((9, 10))), 'Inputs x and y must be 1D or 2D, not 3D'), ((np.empty((3, 3, 3)), np.empty((3, 3, 3)), np.empty((3, 3, 3))), 'Input z must be 2D, not 3D'), (([[0]],), # github issue 8197 'Input z must be at least a (2, 2) shaped array, but has shape (1, 1)'), (([0], [0], [[0]]), 'Input z must be at least a (2, 2) shaped array, but has shape (1, 1)'), ]) def test_contour_shape_error(args, message): fig, ax = plt.subplots() with pytest.raises(TypeError, match=re.escape(message)): ax.contour(*args) def test_contour_empty_levels(): x = np.arange(9) z = np.random.random((9, 9)) fig, ax = plt.subplots() with pytest.warns(UserWarning) as record: ax.contour(x, x, z, levels=[]) assert len(record) == 1 def test_contour_Nlevels(): # A scalar levels arg or kwarg should trigger auto level generation. # https://github.com/matplotlib/matplotlib/issues/11913 z = np.arange(12).reshape((3, 4)) fig, ax = plt.subplots() cs1 = ax.contour(z, 5) assert len(cs1.levels) > 1 cs2 = ax.contour(z, levels=5) assert (cs1.levels == cs2.levels).all() def test_contour_badlevel_fmt(): # Test edge case from https://github.com/matplotlib/matplotlib/issues/9742 # User supplied fmt for each level as a dictionary, but Matplotlib changed # the level to the minimum data value because no contours possible. # This was fixed in https://github.com/matplotlib/matplotlib/pull/9743 x = np.arange(9) z = np.zeros((9, 9)) fig, ax = plt.subplots() fmt = {1.: '%1.2f'} with pytest.warns(UserWarning) as record: cs = ax.contour(x, x, z, levels=[1.]) ax.clabel(cs, fmt=fmt) assert len(record) == 1 def test_contour_uniform_z(): x = np.arange(9) z = np.ones((9, 9)) fig, ax = plt.subplots() with pytest.warns(UserWarning) as record: ax.contour(x, x, z) assert len(record) == 1 @image_comparison(['contour_manual_labels'], remove_text=True, style='mpl20') def test_contour_manual_labels(): x, y = np.meshgrid(np.arange(0, 10), np.arange(0, 10)) z = np.max(np.dstack([abs(x), abs(y)]), 2) plt.figure(figsize=(6, 2), dpi=200) cs = plt.contour(x, y, z) pts = np.array([(1.0, 3.0), (1.0, 4.4), (1.0, 6.0)]) plt.clabel(cs, manual=pts) pts = np.array([(2.0, 3.0), (2.0, 4.4), (2.0, 6.0)]) plt.clabel(cs, manual=pts, fontsize='small', colors=('r', 'g')) @image_comparison(['contour_manual_colors_and_levels.png'], remove_text=True) def test_given_colors_levels_and_extends(): # Remove this line when this test image is regenerated. plt.rcParams['pcolormesh.snap'] = False _, axs = plt.subplots(2, 4) data = np.arange(12).reshape(3, 4) colors = ['red', 'yellow', 'pink', 'blue', 'black'] levels = [2, 4, 8, 10] for i, ax in enumerate(axs.flat): filled = i % 2 == 0. extend = ['neither', 'min', 'max', 'both'][i // 2] if filled: # If filled, we have 3 colors with no extension, # 4 colors with one extension, and 5 colors with both extensions first_color = 1 if extend in ['max', 'neither'] else None last_color = -1 if extend in ['min', 'neither'] else None c = ax.contourf(data, colors=colors[first_color:last_color], levels=levels, extend=extend) else: # If not filled, we have 4 levels and 4 colors c = ax.contour(data, colors=colors[:-1], levels=levels, extend=extend) plt.colorbar(c, ax=ax) @image_comparison(['contour_datetime_axis.png'], remove_text=False, style='mpl20') def test_contour_datetime_axis(): fig = plt.figure() fig.subplots_adjust(hspace=0.4, top=0.98, bottom=.15) base = datetime.datetime(2013, 1, 1) x = np.array([base + datetime.timedelta(days=d) for d in range(20)]) y = np.arange(20) z1, z2 = np.meshgrid(np.arange(20), np.arange(20)) z = z1 * z2 plt.subplot(221) plt.contour(x, y, z) plt.subplot(222) plt.contourf(x, y, z) x = np.repeat(x[np.newaxis], 20, axis=0) y = np.repeat(y[:, np.newaxis], 20, axis=1) plt.subplot(223) plt.contour(x, y, z) plt.subplot(224) plt.contourf(x, y, z) for ax in fig.get_axes(): for label in ax.get_xticklabels(): label.set_ha('right') label.set_rotation(30) @image_comparison(['contour_test_label_transforms.png'], remove_text=True, style='mpl20', tol=0 if platform.machine() == 'x86_64' else 0.08) def test_labels(): # Adapted from pylab_examples example code: contour_demo.py # see issues #2475, #2843, and #2818 for explanation delta = 0.025 x = np.arange(-3.0, 3.0, delta) y = np.arange(-2.0, 2.0, delta) X, Y = np.meshgrid(x, y) Z1 = np.exp(-(X**2 + Y**2) / 2) / (2 * np.pi) Z2 = (np.exp(-(((X - 1) / 1.5)**2 + ((Y - 1) / 0.5)**2) / 2) / (2 * np.pi * 0.5 * 1.5)) # difference of Gaussians Z = 10.0 * (Z2 - Z1) fig, ax = plt.subplots(1, 1) CS = ax.contour(X, Y, Z) disp_units = [(216, 177), (359, 290), (521, 406)] data_units = [(-2, .5), (0, -1.5), (2.8, 1)] CS.clabel() for x, y in data_units: CS.add_label_near(x, y, inline=True, transform=None) for x, y in disp_units: CS.add_label_near(x, y, inline=True, transform=False) @image_comparison(['contour_corner_mask_False.png', 'contour_corner_mask_True.png'], remove_text=True) def test_corner_mask(): n = 60 mask_level = 0.95 noise_amp = 1.0 np.random.seed([1]) x, y = np.meshgrid(np.linspace(0, 2.0, n), np.linspace(0, 2.0, n)) z = np.cos(7*x)*np.sin(8*y) + noise_amp*np.random.rand(n, n) mask = np.random.rand(n, n) >= mask_level z = np.ma.array(z, mask=mask) for corner_mask in [False, True]: plt.figure() plt.contourf(z, corner_mask=corner_mask) def test_contourf_decreasing_levels(): # github issue 5477. z = [[0.1, 0.3], [0.5, 0.7]] plt.figure() with pytest.raises(ValueError): plt.contourf(z, [1.0, 0.0]) def test_contourf_symmetric_locator(): # github issue 7271 z = np.arange(12).reshape((3, 4)) locator = plt.MaxNLocator(nbins=4, symmetric=True) cs = plt.contourf(z, locator=locator) assert_array_almost_equal(cs.levels, np.linspace(-12, 12, 5)) @pytest.mark.parametrize("args, cls, message", [ ((), TypeError, 'function takes exactly 6 arguments (0 given)'), ((1, 2, 3, 4, 5, 6), ValueError, 'Expected 2-dimensional array, got 0'), (([[0]], [[0]], [[]], None, True, 0), ValueError, 'x, y and z must all be 2D arrays with the same dimensions'), (([[0]], [[0]], [[0]], None, True, 0), ValueError, 'x, y and z must all be at least 2x2 arrays'), ((*[np.arange(4).reshape((2, 2))] * 3, [[0]], True, 0), ValueError, 'If mask is set it must be a 2D array with the same dimensions as x.'), ]) def test_internal_cpp_api(args, cls, message): # Github issue 8197. from matplotlib import _contour # noqa: ensure lazy-loaded module *is* loaded. with pytest.raises(cls, match=re.escape(message)): mpl._contour.QuadContourGenerator(*args) def test_internal_cpp_api_2(): from matplotlib import _contour # noqa: ensure lazy-loaded module *is* loaded. arr = [[0, 1], [2, 3]] qcg = mpl._contour.QuadContourGenerator(arr, arr, arr, None, True, 0) with pytest.raises( ValueError, match=r'filled contour levels must be increasing'): qcg.create_filled_contour(1, 0) def test_circular_contour_warning(): # Check that almost circular contours don't throw a warning x, y = np.meshgrid(np.linspace(-2, 2, 4), np.linspace(-2, 2, 4)) r = np.hypot(x, y) plt.figure() cs = plt.contour(x, y, r) plt.clabel(cs) @pytest.mark.parametrize("use_clabeltext, contour_zorder, clabel_zorder", [(True, 123, 1234), (False, 123, 1234), (True, 123, None), (False, 123, None)]) def test_clabel_zorder(use_clabeltext, contour_zorder, clabel_zorder): x, y = np.meshgrid(np.arange(0, 10), np.arange(0, 10)) z = np.max(np.dstack([abs(x), abs(y)]), 2) fig, (ax1, ax2) = plt.subplots(ncols=2) cs = ax1.contour(x, y, z, zorder=contour_zorder) cs_filled = ax2.contourf(x, y, z, zorder=contour_zorder) clabels1 = cs.clabel(zorder=clabel_zorder, use_clabeltext=use_clabeltext) clabels2 = cs_filled.clabel(zorder=clabel_zorder, use_clabeltext=use_clabeltext) if clabel_zorder is None: expected_clabel_zorder = 2+contour_zorder else: expected_clabel_zorder = clabel_zorder for clabel in clabels1: assert clabel.get_zorder() == expected_clabel_zorder for clabel in clabels2: assert clabel.get_zorder() == expected_clabel_zorder @image_comparison(['contour_log_extension.png'], remove_text=True, style='mpl20') def test_contourf_log_extension(): # Remove this line when this test image is regenerated. plt.rcParams['pcolormesh.snap'] = False # Test that contourf with lognorm is extended correctly fig, (ax1, ax2, ax3) = plt.subplots(1, 3, figsize=(10, 5)) fig.subplots_adjust(left=0.05, right=0.95) # make data set with large range e.g. between 1e-8 and 1e10 data_exp = np.linspace(-7.5, 9.5, 1200) data = np.power(10, data_exp).reshape(30, 40) # make manual levels e.g. between 1e-4 and 1e-6 levels_exp = np.arange(-4., 7.) levels = np.power(10., levels_exp) # original data c1 = ax1.contourf(data, norm=LogNorm(vmin=data.min(), vmax=data.max())) # just show data in levels c2 = ax2.contourf(data, levels=levels, norm=LogNorm(vmin=levels.min(), vmax=levels.max()), extend='neither') # extend data from levels c3 = ax3.contourf(data, levels=levels, norm=LogNorm(vmin=levels.min(), vmax=levels.max()), extend='both') cb = plt.colorbar(c1, ax=ax1) assert cb.ax.get_ylim() == (1e-8, 1e10) cb = plt.colorbar(c2, ax=ax2) assert cb.ax.get_ylim() == (1e-4, 1e6) cb = plt.colorbar(c3, ax=ax3) assert_array_almost_equal( cb.ax.get_ylim(), [3.162277660168379e-05, 3162277.660168383], 2) @image_comparison(['contour_addlines.png'], remove_text=True, style='mpl20', tol=0.03) # tolerance is because image changed minutely when tick finding on # colorbars was cleaned up... def test_contour_addlines(): # Remove this line when this test image is regenerated. plt.rcParams['pcolormesh.snap'] = False fig, ax = plt.subplots() np.random.seed(19680812) X = np.random.rand(10, 10)*10000 pcm = ax.pcolormesh(X) # add 1000 to make colors visible... cont = ax.contour(X+1000) cb = fig.colorbar(pcm) cb.add_lines(cont) assert_array_almost_equal(cb.ax.get_ylim(), [114.3091, 9972.30735], 3) @image_comparison(baseline_images=['contour_uneven'], extensions=['png'], remove_text=True, style='mpl20') def test_contour_uneven(): # Remove this line when this test image is regenerated. plt.rcParams['pcolormesh.snap'] = False z = np.arange(24).reshape(4, 6) fig, axs = plt.subplots(1, 2) ax = axs[0] cs = ax.contourf(z, levels=[2, 4, 6, 10, 20]) fig.colorbar(cs, ax=ax, spacing='proportional') ax = axs[1] cs = ax.contourf(z, levels=[2, 4, 6, 10, 20]) fig.colorbar(cs, ax=ax, spacing='uniform') @pytest.mark.parametrize( "rc_lines_linewidth, rc_contour_linewidth, call_linewidths, expected", [ (1.23, None, None, 1.23), (1.23, 4.24, None, 4.24), (1.23, 4.24, 5.02, 5.02) ]) def test_contour_linewidth( rc_lines_linewidth, rc_contour_linewidth, call_linewidths, expected): with rc_context(rc={"lines.linewidth": rc_lines_linewidth, "contour.linewidth": rc_contour_linewidth}): fig, ax = plt.subplots() X = np.arange(4*3).reshape(4, 3) cs = ax.contour(X, linewidths=call_linewidths) assert cs.tlinewidths[0][0] == expected @pytest.mark.backend("pdf") def test_label_nonagg(): # This should not crash even if the canvas doesn't have a get_renderer(). plt.clabel(plt.contour([[1, 2], [3, 4]]))