def test_triangular(self): from mpl_plotter.presets.publication import two_d t = np.linspace(0, 4, 1000) s_c = 2*triangular((t-2)/2, t) two_d.line(t, s_c, show=True)
def test_square(self): from mpl_plotter.presets.publication import two_d t = np.linspace(0, 4, 1000) s = square((t-2)/2, t) two_d.line(t, s, show=True)
def test_precision2(self): from mpl_plotter.presets.precision import two_d two_d.line(x, z, color=one()[5], show=show, backend=backend) two_d.scatter(x, z, norm=z, show=show, backend=backend) two_d.heatmap(color=one()[5], show=show, backend=backend) two_d.quiver(color=one()[5], show=show, backend=backend) two_d.streamline(color=one()[5], show=show, backend=backend) two_d.fill_area(color=one()[5], show=show, backend=backend)
def test_ramp(self): from mpl_plotter.presets.publication import two_d t = np.linspace(-10, 10, 100) s = 3 * ramp((t - 5) / 2) two_d.line(t, s, show=True)