Ejemplo n.º 1
0
 def setUp(self):
     self.polygon = Polygon([
         Point(1, 1),
         Point(-2, -3),
         Point(-2, -6),
         Point(1, -8),
         Point(5, -8),
         Point(7, -3)
     ])
     self.other = Polygon([Point(1, 1), Point(-21, 20), Point(3, 10)])
Ejemplo n.º 2
0
 def test_get_three(self):
     parser = self.parser('{[(0,0),(0,2),(0,10)],'
                          '[(1,1),(0,3),(5,5)]},'
                          '{[(1,5),(2,3),(6,5)]}')
     result = [{0: Polygon([Point(x=0, y=0),
                            Point(x=0, y=2),
                            Point(x=0, y=10)]),
                1: Polygon([Point(x=1, y=1),
                            Point(x=0, y=3),
                            Point(x=5, y=5)])},
               {0: Polygon([Point(x=1, y=5),
                            Point(x=2, y=3),
                            Point(x=6, y=5)])}]
     tree = parser.get_tree()
     self.assertEqual(tree[0][0].points, result[0][0].points)
     self.assertEqual(tree[0][1].points, result[0][1].points)
     self.assertEqual(tree[1][0].points, result[1][0].points)
Ejemplo n.º 3
0
 def test_get_segments(self):
     segments = self.other._get_segments()
     true_segments = [
         Segment(Point(1, 1), Point(-21, 20)),
         Segment(Point(-21, 20), Point(3, 10)),
         Segment(Point(3, 10), Point(1, 1))
     ]
     self.assertEqual(segments, true_segments)
Ejemplo n.º 4
0
 def generate_polygon(self):
     count_of_points = np.random.randint(5, 6)
     x = np.random.randint(-30, 30, count_of_points)
     y = np.random.randint(-30, 30, count_of_points)
     center_point = [
         ceil(np.sum(x) / count_of_points),
         ceil(np.sum(y) / count_of_points)
     ]
     angles = np.arctan2(x - center_point[0], y - center_point[1])
     sort_tups =\
         sorted([(i, j, k)
                 for i, j, k in zip(x, y, angles)],
                key=lambda t: t[2])
     x, y, angles = zip(*sort_tups)
     x = list(x)
     y = list(y)
     x.append(x[0])
     y.append(y[0])
     coordinates = list()
     for i in range(count_of_points):
         coordinates.append(Point(x[i], y[i]))
     return coordinates
Ejemplo n.º 5
0
 def test_is_not_have_common_side(self):
     other = Polygon([Point(100, 100), Point(-201, 200), Point(30, 100)])
     self.assertFalse(self.polygon._is_have_common_side(other))
Ejemplo n.º 6
0
 def test_is_have_common_side(self):
     other = Polygon([Point(1, 1), Point(-2, -3), Point(-2, -6)])
     self.assertTrue(self.polygon._is_have_common_side(other))
Ejemplo n.º 7
0
 def test_point_in_the_polygon(self):
     is_in_polygon = \
         self.polygon.point_in_polygon(Point(2, -3))
     self.assertTrue(is_in_polygon)
Ejemplo n.º 8
0
 def test_point_not_in_the_polygon(self):
     is_in_polygon = \
         self.polygon.point_in_polygon(Point(-5, 5))
     self.assertFalse(is_in_polygon)