def test_init_circle(self):
circle = Circle((0.,0.), 5)
point = circle.get_point(HALF_PI)
self.assertAlmostEqual(point[0], 0., places=3)
self.assertAlmostEqual(point[1], 5., places=3)
point = circle.get_point(HALF_PI/2)
self.assertAlmostEqual(point[0], 3.5355, places=3)
self.assertAlmostEqual(point[1], 3.5355, places=3)
def test_tangent(self):
circle = Circle((0.,0.), 5.)
tangent = circle.tangent(HALF_PI/2)
self.assertAlmostEqual(tangent.slope, -1, places=4)
tangent = circle.tangent(-HALF_PI/2)
self.assertAlmostEqual(tangent.slope, 1, places=4)
tangent = circle.tangent(0)
self.assertTrue(tangent.is_vertical)
tangent = circle.tangent(HALF_PI)
self.assertTrue(tangent.is_horizontal)
def test_intersect_ray_pass(self):
circle = Circle((10., 10.), 3)
ray1_hor = Ray2D((10.,15.), angle=0)
ray2_hor = Ray2D((10.,5.), angle=0)
ray1_vert = Ray2D((5.,10.), angle=HALF_PI)
ray2_vert = Ray2D((15.,10.), angle=-HALF_PI)
ray3 = Ray2D((13.24, 14.95), angle=0.3992)
self.assertFalse(circle.intersect_ray(ray1_hor))
self.assertFalse(circle.intersect_ray(ray2_hor))
self.assertFalse(circle.intersect_ray(ray1_vert))
self.assertFalse(circle.intersect_ray(ray2_vert))
self.assertFalse(circle.intersect_ray(ray3))
def test_get_x(self):
def check(y, x1, x2):
result = circle.get_x(y)
self.assertTrue(result)
# order of results unknown
v1 = equals_almost(result[0], x1, 4) and equals_almost(result[1], x2, 4)
v2 = equals_almost(result[0], x2, 4) and equals_almost(result[1], x1, 4)
return v1 or v2
circle = Circle( (20.,-20.), 5.)
self.assertEqual(len(circle.get_y(-14.)), 0)
self.assertTrue(check(-15., 20., 20.))
self.assertTrue(check(-25., 20., 20.))
self.assertTrue(check(-20., 15., 25.))
self.assertTrue(check(-17.7152, 15.5526, 24.4474))
self.assertTrue(check(-22.1496, 15.4857, 24.5143))
def test_get_y(self):
def check(x, y1, y2):
result = circle.get_y(x)
self.assertTrue(result)
# order of results unknown
v1 = equals_almost(result[0], y1, 4) and equals_almost(result[1], y2, 4)
v2 = equals_almost(result[0], y2, 4) and equals_almost(result[1], y1, 4)
return v1 or v2
circle = Circle( (20.,-20.), 5)
self.assertFalse(circle.get_x(-14))
self.assertTrue(check(15., -20., -20.))
self.assertTrue(check(25., -20., -20.))
self.assertTrue(check(20., -15., -25.))
self.assertTrue(check(17.8504, -15.4857, -24.5143))
self.assertTrue(check(22.2848, -15.5526, -24.4474))
def test_intersect_circle_pass(self):
M1 = (30,30)
M2 = (40,40)
M3 = (30.3, 30.3)
circle1 = Circle(M1, 5)
circle2 = Circle(M1, 3)
circle3 = Circle(M2, 3)
circle4 = Circle(M3, 3)
cross_points = circle1.intersect_circle(circle2)
self.assertFalse(cross_points)
cross_points = circle2.intersect_circle(circle3)
self.assertFalse(cross_points)
cross_points = circle1.intersect_circle(circle4)
self.assertFalse(cross_points)
def test_create_3P(self):
p1 = (3., 3.)
p2 = (5., 7.)
p3 = (12., 5.)
circle = Circle.create_3P(p1, p2, p3)
self.assertAlmostEqual(circle.center_point[0], 7.6875, places=4)
self.assertAlmostEqual(circle.center_point[1], 3.15625, places=4)
self.assertAlmostEqual(circle.radius, 4.6901, places=4)
def test_intersect_ray_intersect(self):
circle = Circle((10., 10.), 3)
ray_vert = Ray2D((8.5, 10.), angle=HALF_PI)
cross_points = circle.intersect_ray(ray_vert)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[1] > p2[1] : p1, p2 = p2, p1
self.assertTrue(equal_points_almost(p1, (8.5, 7.4019), places=4))
self.assertTrue(equal_points_almost(p2, (8.5, 12.5981), places=4))
ray_hor = Ray2D( (10, 8.5), angle=0.)
cross_points = circle.intersect_ray(ray_hor)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[0] > p2[0] : p1, p2 = p2, p1
self.assertTrue(equal_points_almost(p1, (7.4019, 8.5), places=4))
self.assertTrue(equal_points_almost(p2, (12.5981, 8.5), places=4))
ray_slope = Ray2D( (5,5), (16,12))
cross_points = circle.intersect_ray(ray_slope)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[0] > p2[0] : p1, p2 = p2, p1
self.assertTrue(equal_points_almost(p1, (8.64840, 7.3217), places=4))
self.assertTrue(equal_points_almost(p2, (12.9986, 10.0900), places=4))
#ray with slope through midpoint
ray_slope = Ray2D( (10,10), angle=HALF_PI/2)
cross_points = circle.intersect_ray(ray_slope)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[0] > p2[0] : p1, p2 = p2, p1
#print (p1[0], p1[1], p2[0], p2[1])
self.assertTrue(equal_points_almost(p1, (7.8787, 7.8787), places=4))
self.assertTrue(equal_points_almost(p2, (12.1213, 12.1213), places=4))
#horizontal ray through midpoint
ray_hor = Ray2D( (10,10), angle=0)
cross_points = circle.intersect_ray(ray_hor)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[0] > p2[0] : p1, p2 = p2, p1
#print (p1[0], p1[1], p2[0], p2[1])
self.assertTrue(equal_points_almost(p1, (7, 10), places=4))
self.assertTrue(equal_points_almost(p2, (13, 10), places=4))
#vertical ray through midpoint
ray_vert = Ray2D( (10,10), angle=HALF_PI)
cross_points = circle.intersect_ray(ray_vert)
self.assertEqual(len(cross_points), 2)
p1, p2 = cross_points
if p1[1] > p2[1] : p1, p2 = p2, p1
#print (p1[0], p1[1], p2[0], p2[1])
self.assertTrue(equal_points_almost(p1, (10, 7), places=4))
self.assertTrue(equal_points_almost(p2, (10, 13), places=4))
def test_intersect_circle_intersect(self):
def check_intersection(m, p1, p2):
circle2 = Circle(m, 1.5)
points = circle1.intersect_circle(circle2, 4)
self.assertEqual(len(points), 2)
a, b = points
result1 = equal_points_almost(a, p1, 3) and equal_points_almost(
b, p2, 3)
result2 = equal_points_almost(a, p2, 3) and equal_points_almost(
b, p1, 3)
return result1 or result2
circle1 = Circle((40, 20), 5)
self.assertTrue(
check_intersection((46., 20.), (44.8958, 21.0153),
(44.8958, 18.9847)))
self.assertTrue(
check_intersection((44., 20.), (44.8438, 21.2402),
(44.8438, 18.7598)))
self.assertTrue(
check_intersection((40., 26.), (38.9847, 24.8958),
(41.0153, 24.8958)))
self.assertTrue(
check_intersection((40., 24.), (38.7598, 24.8438),
(41.2402, 24.8438)))
self.assertTrue(
check_intersection((34., 20.), (35.1042, 18.9847),
(35.1042, 21.0153)))
self.assertTrue(
check_intersection((36., 20.), (35.1563, 18.7598),
(35.1563, 21.2402)))
self.assertTrue(
check_intersection((40., 14.), (38.9847, 15.1042),
(41.0153, 15.1042)))
self.assertTrue(
check_intersection((40., 14.), (38.9847, 15.1042),
(41.0153, 15.1042)))
self.assertTrue(
check_intersection((36.8824, 17.4939), (35.4478, 17.9319),
(37.0018, 15.9987)))
self.assertTrue(
check_intersection((35.3236, 16.2408), (35.5481, 17.7239),
(36.8203, 16.1413)))
def test_intersect_ray_touch(self):
def test_touch(testnum, x, y, _angle, places=7):
result = True
ray = Ray2D((x, y), angle=_angle)
points = circle.intersect_ray(ray, places)
if len(points) != 1:
result = False
else:
point = points[0]
if not equals_almost(point[0], x, 4): result = False
if not equals_almost(point[1], y, 4): result = False
return result
circle = Circle((10., 10.), 3)
self.assertTrue(test_touch(1, 10., 13., 0))
self.assertTrue(test_touch(2, 10., 7., 0))
self.assertTrue(test_touch(3, 7., 10., HALF_PI))
self.assertTrue(test_touch(4, 13., 10., -HALF_PI))
self.assertTrue(test_touch(5, 8.8341, 12.7642, 0.3991568, places=4))
def test_intersect_circle_touch(self):
def check_touch(m, t):
circle2 = Circle(m, 1.5)
points = circle1.intersect_circle(circle2, 4)
self.assertEqual(len(points), 1)
return equal_points_almost(points[0], t, 4)
circle1 = Circle( (20,20), 5)
self.assertTrue(check_touch( (26.5,20.), (25.,20.)))
self.assertTrue(check_touch( (20.,26.5), (20.,25.)))
self.assertTrue(check_touch( (13.5,20.), (15.,20.)))
self.assertTrue(check_touch( (20.,13.5), (20.,15.)))
self.assertTrue(check_touch( (14.9339, 15.9276), (16.1030, 16.8674)))
self.assertTrue(check_touch( (23.5,20.), (25.,20.)))
self.assertTrue(check_touch( (20.,23.5), (20.,25.)))
self.assertTrue(check_touch( (16.5,20.), (15.,20.)))
self.assertTrue(check_touch( (20.,16.5), (20.,15.)))
self.assertTrue(check_touch( (17.2721, 17.8071), (16.1030, 16.8673)))
def test_within(self):
circle = Circle((0.,0.), 5)
p1 = (3.,2.)
p2 = (4.,5.)
self.assertTrue(circle.within(p1))
self.assertFalse(circle.within(p2))
def check_touch(m, t):
circle2 = Circle(m, 1.5)
points = circle1.intersect_circle(circle2, 4)
self.assertEqual(len(points), 1)
return equal_points_almost(points[0], t, 4)
def test_within(self):
circle = Circle((0.,0.), 5)
p1 = (3.,2.)
p2 = (4.,5.)
self.assertTrue(circle.within(p1))
self.assertFalse(circle.within(p2))
