AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/matplotlib/tests/test_table.py

import datetime
from unittest.mock import Mock

import numpy as np
import pytest

import matplotlib.pyplot as plt
import matplotlib as mpl
from matplotlib.path import Path
from matplotlib.table import CustomCell, Table
from matplotlib.testing.decorators import image_comparison, check_figures_equal
from matplotlib.transforms import Bbox
import matplotlib.units as munits


def test_non_square():
    # Check that creating a non-square table works
    cellcolors = ['b', 'r']
    plt.table(cellColours=cellcolors)


@image_comparison(['table_zorder.png'], remove_text=True)
def test_zorder():
    data = [[66386, 174296],
            [58230, 381139]]

    colLabels = ('Freeze', 'Wind')
    rowLabels = ['%d year' % x for x in (100, 50)]

    cellText = []
    yoff = np.zeros(len(colLabels))
    for row in reversed(data):
        yoff += row
        cellText.append(['%1.1f' % (x/1000.0) for x in yoff])

    t = np.linspace(0, 2*np.pi, 100)
    plt.plot(t, np.cos(t), lw=4, zorder=2)

    plt.table(cellText=cellText,
              rowLabels=rowLabels,
              colLabels=colLabels,
              loc='center',
              zorder=-2,
              )

    plt.table(cellText=cellText,
              rowLabels=rowLabels,
              colLabels=colLabels,
              loc='upper center',
              zorder=4,
              )
    plt.yticks([])


@image_comparison(['table_labels.png'])
def test_label_colours():
    dim = 3

    c = np.linspace(0, 1, dim)
    colours = plt.cm.RdYlGn(c)
    cellText = [['1'] * dim] * dim

    fig = plt.figure()

    ax1 = fig.add_subplot(4, 1, 1)
    ax1.axis('off')
    ax1.table(cellText=cellText,
              rowColours=colours,
              loc='best')

    ax2 = fig.add_subplot(4, 1, 2)
    ax2.axis('off')
    ax2.table(cellText=cellText,
              rowColours=colours,
              rowLabels=['Header'] * dim,
              loc='best')

    ax3 = fig.add_subplot(4, 1, 3)
    ax3.axis('off')
    ax3.table(cellText=cellText,
              colColours=colours,
              loc='best')

    ax4 = fig.add_subplot(4, 1, 4)
    ax4.axis('off')
    ax4.table(cellText=cellText,
              colColours=colours,
              colLabels=['Header'] * dim,
              loc='best')


@image_comparison(['table_cell_manipulation.png'], remove_text=True)
def test_diff_cell_table():
    cells = ('horizontal', 'vertical', 'open', 'closed', 'T', 'R', 'B', 'L')
    cellText = [['1'] * len(cells)] * 2
    colWidths = [0.1] * len(cells)

    _, axs = plt.subplots(nrows=len(cells), figsize=(4, len(cells)+1))
    for ax, cell in zip(axs, cells):
        ax.table(
                colWidths=colWidths,
                cellText=cellText,
                loc='center',
                edges=cell,
                )
        ax.axis('off')
    plt.tight_layout()


def test_customcell():
    types = ('horizontal', 'vertical', 'open', 'closed', 'T', 'R', 'B', 'L')
    codes = (
        (Path.MOVETO, Path.LINETO, Path.MOVETO, Path.LINETO, Path.MOVETO),
        (Path.MOVETO, Path.MOVETO, Path.LINETO, Path.MOVETO, Path.LINETO),
        (Path.MOVETO, Path.MOVETO, Path.MOVETO, Path.MOVETO, Path.MOVETO),
        (Path.MOVETO, Path.LINETO, Path.LINETO, Path.LINETO, Path.CLOSEPOLY),
        (Path.MOVETO, Path.MOVETO, Path.MOVETO, Path.LINETO, Path.MOVETO),
        (Path.MOVETO, Path.MOVETO, Path.LINETO, Path.MOVETO, Path.MOVETO),
        (Path.MOVETO, Path.LINETO, Path.MOVETO, Path.MOVETO, Path.MOVETO),
        (Path.MOVETO, Path.MOVETO, Path.MOVETO, Path.MOVETO, Path.LINETO),
        )

    for t, c in zip(types, codes):
        cell = CustomCell((0, 0), visible_edges=t, width=1, height=1)
        code = tuple(s for _, s in cell.get_path().iter_segments())
        assert c == code


@image_comparison(['table_auto_column.png'])
def test_auto_column():
    fig = plt.figure()

    # iterable list input
    ax1 = fig.add_subplot(4, 1, 1)
    ax1.axis('off')
    tb1 = ax1.table(
        cellText=[['Fit Text', 2],
                  ['very long long text, Longer text than default', 1]],
        rowLabels=["A", "B"],
        colLabels=["Col1", "Col2"],
        loc="center")
    tb1.auto_set_font_size(False)
    tb1.set_fontsize(12)
    tb1.auto_set_column_width([-1, 0, 1])

    # iterable tuple input
    ax2 = fig.add_subplot(4, 1, 2)
    ax2.axis('off')
    tb2 = ax2.table(
        cellText=[['Fit Text', 2],
                  ['very long long text, Longer text than default', 1]],
        rowLabels=["A", "B"],
        colLabels=["Col1", "Col2"],
        loc="center")
    tb2.auto_set_font_size(False)
    tb2.set_fontsize(12)
    tb2.auto_set_column_width((-1, 0, 1))

    # 3 single inputs
    ax3 = fig.add_subplot(4, 1, 3)
    ax3.axis('off')
    tb3 = ax3.table(
        cellText=[['Fit Text', 2],
                  ['very long long text, Longer text than default', 1]],
        rowLabels=["A", "B"],
        colLabels=["Col1", "Col2"],
        loc="center")
    tb3.auto_set_font_size(False)
    tb3.set_fontsize(12)
    tb3.auto_set_column_width(-1)
    tb3.auto_set_column_width(0)
    tb3.auto_set_column_width(1)

    # 4 non integer iterable input
    ax4 = fig.add_subplot(4, 1, 4)
    ax4.axis('off')
    tb4 = ax4.table(
        cellText=[['Fit Text', 2],
                  ['very long long text, Longer text than default', 1]],
        rowLabels=["A", "B"],
        colLabels=["Col1", "Col2"],
        loc="center")
    tb4.auto_set_font_size(False)
    tb4.set_fontsize(12)
    with pytest.warns(mpl.MatplotlibDeprecationWarning,
                      match="'col' must be an int or sequence of ints"):
        tb4.auto_set_column_width("-101")  # type: ignore [arg-type]
    with pytest.warns(mpl.MatplotlibDeprecationWarning,
                      match="'col' must be an int or sequence of ints"):
        tb4.auto_set_column_width(["-101"])  # type: ignore [list-item]


def test_table_cells():
    fig, ax = plt.subplots()
    table = Table(ax)

    cell = table.add_cell(1, 2, 1, 1)
    assert isinstance(cell, CustomCell)
    assert cell is table[1, 2]

    cell2 = CustomCell((0, 0), 1, 2, visible_edges=None)
    table[2, 1] = cell2
    assert table[2, 1] is cell2

    # make sure getitem support has not broken
    # properties and setp
    table.properties()
    plt.setp(table)


@check_figures_equal(extensions=["png"])
def test_table_bbox(fig_test, fig_ref):
    data = [[2, 3],
            [4, 5]]

    col_labels = ('Foo', 'Bar')
    row_labels = ('Ada', 'Bob')

    cell_text = [[f"{x}" for x in row] for row in data]

    ax_list = fig_test.subplots()
    ax_list.table(cellText=cell_text,
                  rowLabels=row_labels,
                  colLabels=col_labels,
                  loc='center',
                  bbox=[0.1, 0.2, 0.8, 0.6]
                  )

    ax_bbox = fig_ref.subplots()
    ax_bbox.table(cellText=cell_text,
                  rowLabels=row_labels,
                  colLabels=col_labels,
                  loc='center',
                  bbox=Bbox.from_extents(0.1, 0.2, 0.9, 0.8)
                  )


@check_figures_equal(extensions=['png'])
def test_table_unit(fig_test, fig_ref):
    # test that table doesn't participate in unit machinery, instead uses repr/str

    class FakeUnit:
        def __init__(self, thing):
            pass
        def __repr__(self):
            return "Hello"

    fake_convertor = munits.ConversionInterface()
    # v, u, a = value, unit, axis
    fake_convertor.convert = Mock(side_effect=lambda v, u, a: 0)
    # not used, here for completeness
    fake_convertor.default_units = Mock(side_effect=lambda v, a: None)
    fake_convertor.axisinfo = Mock(side_effect=lambda u, a: munits.AxisInfo())

    munits.registry[FakeUnit] = fake_convertor

    data = [[FakeUnit("yellow"), FakeUnit(42)],
            [FakeUnit(datetime.datetime(1968, 8, 1)), FakeUnit(True)]]

    fig_test.subplots().table(data)
    fig_ref.subplots().table([["Hello", "Hello"], ["Hello", "Hello"]])
    fig_test.canvas.draw()
    fake_convertor.convert.assert_not_called()

    munits.registry.pop(FakeUnit)
    assert not munits.registry.get_converter(FakeUnit)