Ejemplo n.º 1
0
    def test_draw_basic_union(self):
        """Test union in basic.py."""
        first = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        second = basic.rectangle(0.1, 1.3, 1.9, 2.2)

        expected = [[(1.85, 2.45), (2.35, 2.45), (2.35, 3.95), (1.85, 3.95),
                     (1.85, 2.45)],
                    [(1.85, 2.85), (1.85, 3.95), (2.35, 3.95), (2.35, 2.45),
                     (1.95, 2.45), (1.95, 1.55), (1.85, 1.55), (1.85, 2.85),
                     (1.85, 2.85)]]

        union_results_1 = basic.union(first)
        union_results_2 = basic.union(first, second)

        actual = [
            list(union_results_1.exterior.coords),
            list(union_results_2.exterior.coords)
        ]

        for x in range(2):
            self.assertEqual(len(actual[x]), len(expected[x]))

            # the shape resulting from a union could use as origin point any of the vertices.
            for idx, point in enumerate(expected[x]):
                if actual[x][0] == point:
                    offset = idx

            my_range = len(actual[x]) - 1  #last element repeats first. Ignore.
            for i in range(my_range):
                exp_i = (i + offset) % (my_range)
                for j in range(2):
                    self.assertAlmostEqualRel(actual[x][i][j],
                                              expected[x][exp_i][j],
                                              rel_tol=1e-3)
Ejemplo n.º 2
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    def test_draw_basic_union(self):
        """
        Test union in basic.py.
        """
        first = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        second = basic.rectangle(0.1, 1.3, 1.9, 2.2)

        expected = [[(1.85, 2.45), (2.35, 2.45), (2.35, 3.95), (1.85, 3.95),
                     (1.85, 2.45)],
                    [(1.85, 2.85), (1.85, 3.95), (2.35, 3.95), (2.35, 2.45),
                     (1.95, 2.45), (1.95, 1.55), (1.85, 1.55), (1.85, 2.85),
                     (1.85, 2.85)]]

        union_results_1 = basic.union(first)
        union_results_2 = basic.union(first, second)

        actual = [
            list(union_results_1.exterior.coords),
            list(union_results_2.exterior.coords)
        ]

        for x in range(2):
            self.assertEqual(len(actual[x]), len(expected[x]))
            for i in range(len(actual[x])):
                for j in range(2):
                    self.assertAlmostEqualRel(actual[x][i][j],
                                              expected[x][i][j],
                                              rel_tol=1e-3)
Ejemplo n.º 3
0
    def test_draw_basic_subtract(self):
        """Test subtract in basic.py."""
        first = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        second = basic.rectangle(0.1, 1.3, 1.9, 2.2)

        subtract_results = basic.subtract(first, second)
        actual_subtract = list(subtract_results.exterior.coords)
        expected_subtract = [(1.85, 2.85), (1.85, 3.95), (2.35, 3.95),
                             (2.35, 2.45), (1.95, 2.45), (1.95, 2.85),
                             (1.85, 2.85)]

        self.assertEqual(len(actual_subtract), len(expected_subtract))

        # the shape resulting from a subtract could use as origin point any of the vertices.
        for idx, point in enumerate(expected_subtract):
            if actual_subtract[0] == point:
                offset = idx

        my_range = len(actual_subtract
                       ) - 1  #first and last elements are the same. Ignore.
        for i in range(my_range):
            exp_i = (i + offset) % (my_range)
            for j in range(2):
                self.assertEqual(actual_subtract[i][j],
                                 expected_subtract[exp_i][j])
Ejemplo n.º 4
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    def test_draw_basic_is_rectangle(self):
        """Test is_rectangle in basic.py."""
        my_rectangle = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        my_integer = 7

        self.assertEqual(basic.is_rectangle(my_rectangle), True)
        self.assertEqual(basic.is_rectangle(my_integer), False)
Ejemplo n.º 5
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    def test_draw_basic_subtract(self):
        """Test subtract in basic.py."""
        first = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        second = basic.rectangle(0.1, 1.3, 1.9, 2.2)

        subtract_results = basic.subtract(first, second)
        actual_subtract = list(subtract_results.exterior.coords)
        expected_subtract = [(1.85, 2.85), (1.85, 3.95), (2.35, 3.95),
                             (2.35, 2.45), (1.95, 2.45), (1.95, 2.85),
                             (1.85, 2.85)]

        self.assertEqual(len(actual_subtract), len(expected_subtract))
        my_range = len(actual_subtract)
        for i in range(my_range):
            for j in range(2):
                self.assertEqual(actual_subtract[i][j],
                                 expected_subtract[i][j])
Ejemplo n.º 6
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    def test_draw_basic_rectangle(self):
        """Test rectangle in basic.py."""
        polygon_actual = basic.rectangle(0.5, 1.5, 2.1, 3.2)
        polygon_expected = Polygon([[1.85, 2.45], [2.35, 2.45], [2.35, 3.95],
                                    [1.85, 3.95], [1.85, 2.45]])

        coords_actual = list(polygon_actual.exterior.coords)
        coords_expected = list(polygon_expected.exterior.coords)
        self.assertEqual(len(coords_actual), len(coords_expected))
        my_range = len(coords_actual)
        for i in range(my_range):
            for j in range(2):
                self.assertEqual(coords_actual[i][j], coords_expected[i][j])
Ejemplo n.º 7
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    def test_draw_basic_is_rectangle(self):
        """Test is_rectangle in basic.py."""
        my_rectangle = basic.rectangle(0.5, 1.5, 2.1, 3.2)

        self.assertTrue(basic.is_rectangle(my_rectangle))
        self.assertFalse(basic.is_rectangle(7))