import numpy as np import pytest import matplotlib as mpl from matplotlib.testing.decorators import check_figures_equal, image_comparison import matplotlib.pyplot as plt if not mpl.checkdep_usetex(True): pytestmark = pytest.mark.skip('Missing TeX of Ghostscript or dvipng') @image_comparison( baseline_images=['test_usetex'], extensions=['pdf', 'png'], style="mpl20") def test_usetex(): mpl.rcParams['text.usetex'] = True fig = plt.figure() ax = fig.add_subplot(111) kwargs = {"verticalalignment": "baseline", "size": 24, "bbox": dict(pad=0, edgecolor="k", facecolor="none")} ax.text(0.2, 0.7, # the \LaTeX macro exercises character sizing and placement, # \left[ ... \right\} draw some variable-height characters, # \sqrt and \frac draw horizontal rules, \mathrm changes the font r'\LaTeX\ $\left[\int\limits_e^{2e}' r'\sqrt\frac{\log^3 x}{x}\,\mathrm{d}x \right\}$', **kwargs) ax.text(0.2, 0.3, "lg", **kwargs) ax.text(0.4, 0.3, r"$\frac{1}{2}\pi$", **kwargs) ax.text(0.6, 0.3, "$p^{3^A}$", **kwargs) ax.text(0.8, 0.3, "$p_{3_2}$", **kwargs) for x in {t.get_position()[0] for t in ax.texts}: ax.axvline(x) for y in {t.get_position()[1] for t in ax.texts}: ax.axhline(y) ax.set_axis_off() @check_figures_equal() def test_empty(fig_test, fig_ref): mpl.rcParams['text.usetex'] = True fig_test.text(.5, .5, "% a comment") @check_figures_equal() def test_unicode_minus(fig_test, fig_ref): mpl.rcParams['text.usetex'] = True fig_test.text(.5, .5, "$-$") fig_ref.text(.5, .5, "\N{MINUS SIGN}") def test_mathdefault(): plt.rcParams["axes.formatter.use_mathtext"] = True fig = plt.figure() fig.add_subplot().set_xlim(-1, 1) # Check that \mathdefault commands generated by tickers don't cause # problems when later switching usetex on. mpl.rcParams['text.usetex'] = True fig.canvas.draw() def test_minus_no_descent(): # Test special-casing of minus descent in DviFont._height_depth_of, by # checking that overdrawing a 1 and a -1 results in an overall height # equivalent to drawing either of them separately. mpl.style.use("mpl20") heights = {} fig = plt.figure() for vals in [(1,), (-1,), (-1, 1)]: fig.clf() for x in vals: fig.text(.5, .5, f"${x}$", usetex=True) fig.canvas.draw() # The following counts the number of non-fully-blank pixel rows. heights[vals] = ((np.array(fig.canvas.buffer_rgba())[..., 0] != 255) .any(axis=1).sum()) assert len({*heights.values()}) == 1 def test_textcomp_full(): plt.rcParams["text.latex.preamble"] = r"\usepackage[full]{textcomp}" fig = plt.figure() fig.text(.5, .5, "hello, world", usetex=True) fig.canvas.draw()