Traktor/myenv/Lib/site-packages/matplotlib/tests/test_pickle.py

from io import BytesIO
import ast
import pickle
import pickletools

import numpy as np
import pytest

import matplotlib as mpl
from matplotlib import cm
from matplotlib.testing import subprocess_run_helper
from matplotlib.testing.decorators import check_figures_equal
from matplotlib.dates import rrulewrapper
from matplotlib.lines import VertexSelector
import matplotlib.pyplot as plt
import matplotlib.transforms as mtransforms
import matplotlib.figure as mfigure
from mpl_toolkits.axes_grid1 import axes_divider, parasite_axes  # type: ignore


def test_simple():
    fig = plt.figure()
    pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)

    ax = plt.subplot(121)
    pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)

    ax = plt.axes(projection='polar')
    plt.plot(np.arange(10), label='foobar')
    plt.legend()

    pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)

#    ax = plt.subplot(121, projection='hammer')
#    pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)

    plt.figure()
    plt.bar(x=np.arange(10), height=np.arange(10))
    pickle.dump(plt.gca(), BytesIO(), pickle.HIGHEST_PROTOCOL)

    fig = plt.figure()
    ax = plt.axes()
    plt.plot(np.arange(10))
    ax.set_yscale('log')
    pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)


def _generate_complete_test_figure(fig_ref):
    fig_ref.set_size_inches((10, 6))
    plt.figure(fig_ref)

    plt.suptitle('Can you fit any more in a figure?')

    # make some arbitrary data
    x, y = np.arange(8), np.arange(10)
    data = u = v = np.linspace(0, 10, 80).reshape(10, 8)
    v = np.sin(v * -0.6)

    # Ensure lists also pickle correctly.
    plt.subplot(3, 3, 1)
    plt.plot(list(range(10)))
    plt.ylabel("hello")

    plt.subplot(3, 3, 2)
    plt.contourf(data, hatches=['//', 'ooo'])
    plt.colorbar()

    plt.subplot(3, 3, 3)
    plt.pcolormesh(data)

    plt.subplot(3, 3, 4)
    plt.imshow(data)
    plt.ylabel("hello\nworld!")

    plt.subplot(3, 3, 5)
    plt.pcolor(data)

    ax = plt.subplot(3, 3, 6)
    ax.set_xlim(0, 7)
    ax.set_ylim(0, 9)
    plt.streamplot(x, y, u, v)

    ax = plt.subplot(3, 3, 7)
    ax.set_xlim(0, 7)
    ax.set_ylim(0, 9)
    plt.quiver(x, y, u, v)

    plt.subplot(3, 3, 8)
    plt.scatter(x, x ** 2, label='$x^2$')
    plt.legend(loc='upper left')

    plt.subplot(3, 3, 9)
    plt.errorbar(x, x * -0.5, xerr=0.2, yerr=0.4, label='$-.5 x$')
    plt.legend(draggable=True)

    fig_ref.align_ylabels()  # Test handling of _align_label_groups Groupers.


@mpl.style.context("default")
@check_figures_equal(extensions=["png"])
def test_complete(fig_test, fig_ref):
    _generate_complete_test_figure(fig_ref)
    # plotting is done, now test its pickle-ability
    pkl = pickle.dumps(fig_ref, pickle.HIGHEST_PROTOCOL)
    # FigureCanvasAgg is picklable and GUI canvases are generally not, but there should
    # be no reference to the canvas in the pickle stream in either case.  In order to
    # keep the test independent of GUI toolkits, run it with Agg and check that there's
    # no reference to FigureCanvasAgg in the pickle stream.
    assert "FigureCanvasAgg" not in [arg for op, arg, pos in pickletools.genops(pkl)]
    loaded = pickle.loads(pkl)
    loaded.canvas.draw()

    fig_test.set_size_inches(loaded.get_size_inches())
    fig_test.figimage(loaded.canvas.renderer.buffer_rgba())

    plt.close(loaded)


def _pickle_load_subprocess():
    import os
    import pickle

    path = os.environ['PICKLE_FILE_PATH']

    with open(path, 'rb') as blob:
        fig = pickle.load(blob)

    print(str(pickle.dumps(fig)))


@mpl.style.context("default")
@check_figures_equal(extensions=['png'])
def test_pickle_load_from_subprocess(fig_test, fig_ref, tmp_path):
    _generate_complete_test_figure(fig_ref)

    fp = tmp_path / 'sinus.pickle'
    assert not fp.exists()

    with fp.open('wb') as file:
        pickle.dump(fig_ref, file, pickle.HIGHEST_PROTOCOL)
    assert fp.exists()

    proc = subprocess_run_helper(
        _pickle_load_subprocess,
        timeout=60,
        extra_env={'PICKLE_FILE_PATH': str(fp), 'MPLBACKEND': 'Agg'}
    )

    loaded_fig = pickle.loads(ast.literal_eval(proc.stdout))

    loaded_fig.canvas.draw()

    fig_test.set_size_inches(loaded_fig.get_size_inches())
    fig_test.figimage(loaded_fig.canvas.renderer.buffer_rgba())

    plt.close(loaded_fig)


def test_gcf():
    fig = plt.figure("a label")
    buf = BytesIO()
    pickle.dump(fig, buf, pickle.HIGHEST_PROTOCOL)
    plt.close("all")
    assert plt._pylab_helpers.Gcf.figs == {}  # No figures must be left.
    fig = pickle.loads(buf.getbuffer())
    assert plt._pylab_helpers.Gcf.figs != {}  # A manager is there again.
    assert fig.get_label() == "a label"


def test_no_pyplot():
    # tests pickle-ability of a figure not created with pyplot
    from matplotlib.backends.backend_pdf import FigureCanvasPdf
    fig = mfigure.Figure()
    _ = FigureCanvasPdf(fig)
    ax = fig.add_subplot(1, 1, 1)
    ax.plot([1, 2, 3], [1, 2, 3])
    pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)


def test_renderer():
    from matplotlib.backends.backend_agg import RendererAgg
    renderer = RendererAgg(10, 20, 30)
    pickle.dump(renderer, BytesIO())


def test_image():
    # Prior to v1.4.0 the Image would cache data which was not picklable
    # once it had been drawn.
    from matplotlib.backends.backend_agg import new_figure_manager
    manager = new_figure_manager(1000)
    fig = manager.canvas.figure
    ax = fig.add_subplot(1, 1, 1)
    ax.imshow(np.arange(12).reshape(3, 4))
    manager.canvas.draw()
    pickle.dump(fig, BytesIO())


def test_polar():
    plt.subplot(polar=True)
    fig = plt.gcf()
    pf = pickle.dumps(fig)
    pickle.loads(pf)
    plt.draw()


class TransformBlob:
    def __init__(self):
        self.identity = mtransforms.IdentityTransform()
        self.identity2 = mtransforms.IdentityTransform()
        # Force use of the more complex composition.
        self.composite = mtransforms.CompositeGenericTransform(
            self.identity,
            self.identity2)
        # Check parent -> child links of TransformWrapper.
        self.wrapper = mtransforms.TransformWrapper(self.composite)
        # Check child -> parent links of TransformWrapper.
        self.composite2 = mtransforms.CompositeGenericTransform(
            self.wrapper,
            self.identity)


def test_transform():
    obj = TransformBlob()
    pf = pickle.dumps(obj)
    del obj

    obj = pickle.loads(pf)
    # Check parent -> child links of TransformWrapper.
    assert obj.wrapper._child == obj.composite
    # Check child -> parent links of TransformWrapper.
    assert [v() for v in obj.wrapper._parents.values()] == [obj.composite2]
    # Check input and output dimensions are set as expected.
    assert obj.wrapper.input_dims == obj.composite.input_dims
    assert obj.wrapper.output_dims == obj.composite.output_dims


def test_rrulewrapper():
    r = rrulewrapper(2)
    try:
        pickle.loads(pickle.dumps(r))
    except RecursionError:
        print('rrulewrapper pickling test failed')
        raise


def test_shared():
    fig, axs = plt.subplots(2, sharex=True)
    fig = pickle.loads(pickle.dumps(fig))
    fig.axes[0].set_xlim(10, 20)
    assert fig.axes[1].get_xlim() == (10, 20)


def test_inset_and_secondary():
    fig, ax = plt.subplots()
    ax.inset_axes([.1, .1, .3, .3])
    ax.secondary_xaxis("top", functions=(np.square, np.sqrt))
    pickle.loads(pickle.dumps(fig))


@pytest.mark.parametrize("cmap", cm._colormaps.values())
def test_cmap(cmap):
    pickle.dumps(cmap)


def test_unpickle_canvas():
    fig = mfigure.Figure()
    assert fig.canvas is not None
    out = BytesIO()
    pickle.dump(fig, out)
    out.seek(0)
    fig2 = pickle.load(out)
    assert fig2.canvas is not None


def test_mpl_toolkits():
    ax = parasite_axes.host_axes([0, 0, 1, 1])
    axes_divider.make_axes_area_auto_adjustable(ax)
    assert type(pickle.loads(pickle.dumps(ax))) == parasite_axes.HostAxes


def test_standard_norm():
    assert type(pickle.loads(pickle.dumps(mpl.colors.LogNorm()))) \
        == mpl.colors.LogNorm


def test_dynamic_norm():
    logit_norm_instance = mpl.colors.make_norm_from_scale(
        mpl.scale.LogitScale, mpl.colors.Normalize)()
    assert type(pickle.loads(pickle.dumps(logit_norm_instance))) \
        == type(logit_norm_instance)


def test_vertexselector():
    line, = plt.plot([0, 1], picker=True)
    pickle.loads(pickle.dumps(VertexSelector(line)))


def test_cycler():
    ax = plt.figure().add_subplot()
    ax.set_prop_cycle(c=["c", "m", "y", "k"])
    ax.plot([1, 2])
    ax = pickle.loads(pickle.dumps(ax))
    l, = ax.plot([3, 4])
    assert l.get_color() == "m"
dodanie neuralnetwork 2024-05-23 01:57:24 +02:00			`from io import BytesIO`
			`import ast`
			`import pickle`
			`import pickletools`

			`import numpy as np`
			`import pytest`

			`import matplotlib as mpl`
			`from matplotlib import cm`
			`from matplotlib.testing import subprocess_run_helper`
			`from matplotlib.testing.decorators import check_figures_equal`
			`from matplotlib.dates import rrulewrapper`
			`from matplotlib.lines import VertexSelector`
			`import matplotlib.pyplot as plt`
			`import matplotlib.transforms as mtransforms`
			`import matplotlib.figure as mfigure`
			`from mpl_toolkits.axes_grid1 import axes_divider, parasite_axes # type: ignore`


			`def test_simple():`
			`fig = plt.figure()`
			`pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)`

			`ax = plt.subplot(121)`
			`pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)`

			`ax = plt.axes(projection='polar')`
			`plt.plot(np.arange(10), label='foobar')`
			`plt.legend()`

			`pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)`

			`# ax = plt.subplot(121, projection='hammer')`
			`# pickle.dump(ax, BytesIO(), pickle.HIGHEST_PROTOCOL)`

			`plt.figure()`
			`plt.bar(x=np.arange(10), height=np.arange(10))`
			`pickle.dump(plt.gca(), BytesIO(), pickle.HIGHEST_PROTOCOL)`

			`fig = plt.figure()`
			`ax = plt.axes()`
			`plt.plot(np.arange(10))`
			`ax.set_yscale('log')`
			`pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)`


			`def _generate_complete_test_figure(fig_ref):`
			`fig_ref.set_size_inches((10, 6))`
			`plt.figure(fig_ref)`

			`plt.suptitle('Can you fit any more in a figure?')`

			`# make some arbitrary data`
			`x, y = np.arange(8), np.arange(10)`
			`data = u = v = np.linspace(0, 10, 80).reshape(10, 8)`
			`v = np.sin(v * -0.6)`

			`# Ensure lists also pickle correctly.`
			`plt.subplot(3, 3, 1)`
			`plt.plot(list(range(10)))`
			`plt.ylabel("hello")`

			`plt.subplot(3, 3, 2)`
			`plt.contourf(data, hatches=['//', 'ooo'])`
			`plt.colorbar()`

			`plt.subplot(3, 3, 3)`
			`plt.pcolormesh(data)`

			`plt.subplot(3, 3, 4)`
			`plt.imshow(data)`
			`plt.ylabel("hello\nworld!")`

			`plt.subplot(3, 3, 5)`
			`plt.pcolor(data)`

			`ax = plt.subplot(3, 3, 6)`
			`ax.set_xlim(0, 7)`
			`ax.set_ylim(0, 9)`
			`plt.streamplot(x, y, u, v)`

			`ax = plt.subplot(3, 3, 7)`
			`ax.set_xlim(0, 7)`
			`ax.set_ylim(0, 9)`
			`plt.quiver(x, y, u, v)`

			`plt.subplot(3, 3, 8)`
			`plt.scatter(x, x ** 2, label='$x^2$')`
			`plt.legend(loc='upper left')`

			`plt.subplot(3, 3, 9)`
			`plt.errorbar(x, x * -0.5, xerr=0.2, yerr=0.4, label='$-.5 x$')`
			`plt.legend(draggable=True)`

			`fig_ref.align_ylabels() # Test handling of _align_label_groups Groupers.`


			`@mpl.style.context("default")`
			`@check_figures_equal(extensions=["png"])`
			`def test_complete(fig_test, fig_ref):`
			`_generate_complete_test_figure(fig_ref)`
			`# plotting is done, now test its pickle-ability`
			`pkl = pickle.dumps(fig_ref, pickle.HIGHEST_PROTOCOL)`
			`# FigureCanvasAgg is picklable and GUI canvases are generally not, but there should`
			`# be no reference to the canvas in the pickle stream in either case. In order to`
			`# keep the test independent of GUI toolkits, run it with Agg and check that there's`
			`# no reference to FigureCanvasAgg in the pickle stream.`
			`assert "FigureCanvasAgg" not in [arg for op, arg, pos in pickletools.genops(pkl)]`
			`loaded = pickle.loads(pkl)`
			`loaded.canvas.draw()`

			`fig_test.set_size_inches(loaded.get_size_inches())`
			`fig_test.figimage(loaded.canvas.renderer.buffer_rgba())`

			`plt.close(loaded)`


			`def _pickle_load_subprocess():`
			`import os`
			`import pickle`

			`path = os.environ['PICKLE_FILE_PATH']`

			`with open(path, 'rb') as blob:`
			`fig = pickle.load(blob)`

			`print(str(pickle.dumps(fig)))`


			`@mpl.style.context("default")`
			`@check_figures_equal(extensions=['png'])`
			`def test_pickle_load_from_subprocess(fig_test, fig_ref, tmp_path):`
			`_generate_complete_test_figure(fig_ref)`

			`fp = tmp_path / 'sinus.pickle'`
			`assert not fp.exists()`

			`with fp.open('wb') as file:`
			`pickle.dump(fig_ref, file, pickle.HIGHEST_PROTOCOL)`
			`assert fp.exists()`

			`proc = subprocess_run_helper(`
			`_pickle_load_subprocess,`
			`timeout=60,`
			`extra_env={'PICKLE_FILE_PATH': str(fp), 'MPLBACKEND': 'Agg'}`
			`)`

			`loaded_fig = pickle.loads(ast.literal_eval(proc.stdout))`

			`loaded_fig.canvas.draw()`

			`fig_test.set_size_inches(loaded_fig.get_size_inches())`
			`fig_test.figimage(loaded_fig.canvas.renderer.buffer_rgba())`

			`plt.close(loaded_fig)`


			`def test_gcf():`
			`fig = plt.figure("a label")`
			`buf = BytesIO()`
			`pickle.dump(fig, buf, pickle.HIGHEST_PROTOCOL)`
			`plt.close("all")`
			`assert plt._pylab_helpers.Gcf.figs == {} # No figures must be left.`
			`fig = pickle.loads(buf.getbuffer())`
			`assert plt._pylab_helpers.Gcf.figs != {} # A manager is there again.`
			`assert fig.get_label() == "a label"`


			`def test_no_pyplot():`
			`# tests pickle-ability of a figure not created with pyplot`
			`from matplotlib.backends.backend_pdf import FigureCanvasPdf`
			`fig = mfigure.Figure()`
			`_ = FigureCanvasPdf(fig)`
			`ax = fig.add_subplot(1, 1, 1)`
			`ax.plot([1, 2, 3], [1, 2, 3])`
			`pickle.dump(fig, BytesIO(), pickle.HIGHEST_PROTOCOL)`


			`def test_renderer():`
			`from matplotlib.backends.backend_agg import RendererAgg`
			`renderer = RendererAgg(10, 20, 30)`
			`pickle.dump(renderer, BytesIO())`


			`def test_image():`
			`# Prior to v1.4.0 the Image would cache data which was not picklable`
			`# once it had been drawn.`
			`from matplotlib.backends.backend_agg import new_figure_manager`
			`manager = new_figure_manager(1000)`
			`fig = manager.canvas.figure`
			`ax = fig.add_subplot(1, 1, 1)`
			`ax.imshow(np.arange(12).reshape(3, 4))`
			`manager.canvas.draw()`
			`pickle.dump(fig, BytesIO())`


			`def test_polar():`
			`plt.subplot(polar=True)`
			`fig = plt.gcf()`
			`pf = pickle.dumps(fig)`
			`pickle.loads(pf)`
			`plt.draw()`


			`class TransformBlob:`
			`def __init__(self):`
			`self.identity = mtransforms.IdentityTransform()`
			`self.identity2 = mtransforms.IdentityTransform()`
			`# Force use of the more complex composition.`
			`self.composite = mtransforms.CompositeGenericTransform(`
			`self.identity,`
			`self.identity2)`
			`# Check parent -> child links of TransformWrapper.`
			`self.wrapper = mtransforms.TransformWrapper(self.composite)`
			`# Check child -> parent links of TransformWrapper.`
			`self.composite2 = mtransforms.CompositeGenericTransform(`
			`self.wrapper,`
			`self.identity)`


			`def test_transform():`
			`obj = TransformBlob()`
			`pf = pickle.dumps(obj)`
			`del obj`

			`obj = pickle.loads(pf)`
			`# Check parent -> child links of TransformWrapper.`
			`assert obj.wrapper._child == obj.composite`
			`# Check child -> parent links of TransformWrapper.`
			`assert [v() for v in obj.wrapper._parents.values()] == [obj.composite2]`
			`# Check input and output dimensions are set as expected.`
			`assert obj.wrapper.input_dims == obj.composite.input_dims`
			`assert obj.wrapper.output_dims == obj.composite.output_dims`


			`def test_rrulewrapper():`
			`r = rrulewrapper(2)`
			`try:`
			`pickle.loads(pickle.dumps(r))`
			`except RecursionError:`
			`print('rrulewrapper pickling test failed')`
			`raise`


			`def test_shared():`
			`fig, axs = plt.subplots(2, sharex=True)`
			`fig = pickle.loads(pickle.dumps(fig))`
			`fig.axes[0].set_xlim(10, 20)`
			`assert fig.axes[1].get_xlim() == (10, 20)`


			`def test_inset_and_secondary():`
			`fig, ax = plt.subplots()`
			`ax.inset_axes([.1, .1, .3, .3])`
			`ax.secondary_xaxis("top", functions=(np.square, np.sqrt))`
			`pickle.loads(pickle.dumps(fig))`


			`@pytest.mark.parametrize("cmap", cm._colormaps.values())`
			`def test_cmap(cmap):`
			`pickle.dumps(cmap)`


			`def test_unpickle_canvas():`
			`fig = mfigure.Figure()`
			`assert fig.canvas is not None`
			`out = BytesIO()`
			`pickle.dump(fig, out)`
			`out.seek(0)`
			`fig2 = pickle.load(out)`
			`assert fig2.canvas is not None`


			`def test_mpl_toolkits():`
			`ax = parasite_axes.host_axes([0, 0, 1, 1])`
			`axes_divider.make_axes_area_auto_adjustable(ax)`
			`assert type(pickle.loads(pickle.dumps(ax))) == parasite_axes.HostAxes`


			`def test_standard_norm():`
			`assert type(pickle.loads(pickle.dumps(mpl.colors.LogNorm()))) \`
			`== mpl.colors.LogNorm`


			`def test_dynamic_norm():`
			`logit_norm_instance = mpl.colors.make_norm_from_scale(`
			`mpl.scale.LogitScale, mpl.colors.Normalize)()`
			`assert type(pickle.loads(pickle.dumps(logit_norm_instance))) \`
			`== type(logit_norm_instance)`


			`def test_vertexselector():`
			`line, = plt.plot([0, 1], picker=True)`
			`pickle.loads(pickle.dumps(VertexSelector(line)))`


			`def test_cycler():`
			`ax = plt.figure().add_subplot()`
			`ax.set_prop_cycle(c=["c", "m", "y", "k"])`
			`ax.plot([1, 2])`
			`ax = pickle.loads(pickle.dumps(ax))`
			`l, = ax.plot([3, 4])`
			`assert l.get_color() == "m"`