def test_Point(): p1 = Point(1, 5) p2 = Point(4, 2.5) p3 = Point(6.1, 3.5) assert p1.distance(p2) == sqrt(61) / 2 assert p2.distance(p3) == sqrt(541) / 10 assert p1.bounds == (1, 5, 1, 5) assert Point.is_concyclic() is False pytest.raises(ValueError, lambda: Point(1, 1, 1)) pytest.raises(ValueError, lambda: Point(1, I))
def test_point(): p1 = Point(x1, x2) p2 = Point(y1, y2) p3 = Point(0, 0) p4 = Point(1, 1) p5 = Point(0, 1) assert p1.origin == p3 assert p1.ambient_dimension == 2 assert p1 in p1 assert p1 not in p2 assert p2.y == y2 assert (p3 + p4) == p4 assert (p2 - p1) == Point(y1 - x1, y2 - x2) assert p4 * 5 == Point(5, 5) assert -p2 == Point(-y1, -y2) pytest.raises(ValueError, lambda: Point(3, I)) pytest.raises(ValueError, lambda: Point(2 * I, I)) pytest.raises(ValueError, lambda: Point(3 + I, I)) assert Point(34.05, sqrt(3)) == Point(Rational(681, 20), sqrt(3)) assert Point.midpoint(p3, p4) == Point(half, half) assert Point.midpoint(p1, p4) == Point(half + half * x1, half + half * x2) assert Point.midpoint(p2, p2) == p2 assert p2.midpoint(p2) == p2 assert Point.distance(p3, p4) == sqrt(2) assert Point.distance(p1, p1) == 0 assert Point.distance(p3, p2) == sqrt(p2.x**2 + p2.y**2) p1_1 = Point(x1, x1) p1_2 = Point(y2, y2) p1_3 = Point(x1 + 1, x1) assert Point.is_collinear() is False assert Point.is_collinear(p3) assert Point.is_collinear(p3, p4) assert Point.is_collinear(p3, p4, p1_1, p1_2) assert Point.is_collinear(p3, p4, p1_1, p1_3) is False assert Point.is_collinear(p3, p3, p4, p5) is False line = Line(Point(1, 0), slope=1) pytest.raises(TypeError, lambda: Point.is_collinear(line)) pytest.raises(TypeError, lambda: p1_1.is_collinear(line)) assert p3.intersection(Point(0, 0)) == [p3] assert p3.intersection(p4) == [] x_pos = Symbol('x', real=True, positive=True) p2_1 = Point(x_pos, 0) p2_2 = Point(0, x_pos) p2_3 = Point(-x_pos, 0) p2_4 = Point(0, -x_pos) p2_5 = Point(x_pos, 5) assert Point.is_concyclic(p2_1) assert Point.is_concyclic(p2_1, p2_2) assert Point.is_concyclic(p2_1, p2_2, p2_3, p2_4) assert Point.is_concyclic(p2_1, p2_2, p2_3, p2_5) is False assert Point.is_concyclic(p4, p4 * 2, p4 * 3) is False pytest.raises(TypeError, lambda: Point.is_concyclic(p2_1, '123')) assert p4.scale(2, 3) == Point(2, 3) assert p3.scale(2, 3) == p3 assert p4.rotate(pi, Point(0.5, 0.5)) == p3 assert p1.__radd__(p2) == p1.midpoint(p2).scale(2, 2) assert (-p3).__rsub__(p4) == p3.midpoint(p4).scale(2, 2) assert p4 * 5 == Point(5, 5) assert p4 / 5 == Point(0.2, 0.2) pytest.raises(ValueError, lambda: Point(0, 0) + 10) # Point differences should be simplified assert Point(x * (x - 1), y) - Point(x**2 - x, y + 1) == Point(0, -1) a, b = Rational(1, 2), Rational(1, 3) assert Point(a, b).evalf(2) == \ Point(a.evalf(2), b.evalf(2)) pytest.raises(ValueError, lambda: Point(1, 2) + 1) # test transformations p = Point(1, 0) assert p.rotate(pi / 2) == Point(0, 1) assert p.rotate(pi / 2, p) == p p = Point(1, 1) assert p.scale(2, 3) == Point(2, 3) assert p.translate(1, 2) == Point(2, 3) assert p.translate(1) == Point(2, 1) assert p.translate(y=1) == Point(1, 2) assert p.translate(*p.args) == Point(2, 2) # Check invalid input for transform pytest.raises(ValueError, lambda: p3.transform(p3)) pytest.raises(ValueError, lambda: p.transform(Matrix([[1, 0], [0, 1]])))
def test_point(): p1 = Point(x1, x2) p2 = Point(y1, y2) p3 = Point(0, 0) p4 = Point(1, 1) p5 = Point(0, 1) assert p1.origin == p3 assert p1.ambient_dimension == 2 assert p1 in p1 assert p1 not in p2 assert p2.y == y2 assert (p3 + p4) == p4 assert (p2 - p1) == Point(y1 - x1, y2 - x2) assert p4*5 == Point(5, 5) assert -p2 == Point(-y1, -y2) pytest.raises(ValueError, lambda: Point(3, I)) pytest.raises(ValueError, lambda: Point(2*I, I)) pytest.raises(ValueError, lambda: Point(3 + I, I)) assert Point(34.05, sqrt(3)) == Point(Rational(681, 20), sqrt(3)) assert Point.midpoint(p3, p4) == Point(half, half) assert Point.midpoint(p1, p4) == Point(half + half*x1, half + half*x2) assert Point.midpoint(p2, p2) == p2 assert p2.midpoint(p2) == p2 assert Point.distance(p3, p4) == sqrt(2) assert Point.distance(p1, p1) == 0 assert Point.distance(p3, p2) == sqrt(p2.x**2 + p2.y**2) p1_1 = Point(x1, x1) p1_2 = Point(y2, y2) p1_3 = Point(x1 + 1, x1) assert Point.is_collinear() is False assert Point.is_collinear(p3) assert Point.is_collinear(p3, p4) assert Point.is_collinear(p3, p4, p1_1, p1_2) assert Point.is_collinear(p3, p4, p1_1, p1_3) is False assert Point.is_collinear(p3, p3, p4, p5) is False line = Line(Point(1, 0), slope=1) pytest.raises(TypeError, lambda: Point.is_collinear(line)) pytest.raises(TypeError, lambda: p1_1.is_collinear(line)) assert p3.intersection(Point(0, 0)) == [p3] assert p3.intersection(p4) == [] x_pos = Symbol('x', real=True, positive=True) p2_1 = Point(x_pos, 0) p2_2 = Point(0, x_pos) p2_3 = Point(-x_pos, 0) p2_4 = Point(0, -x_pos) p2_5 = Point(x_pos, 5) assert Point.is_concyclic(p2_1) assert Point.is_concyclic(p2_1, p2_2) assert Point.is_concyclic(p2_1, p2_2, p2_3, p2_4) assert Point.is_concyclic(p2_1, p2_2, p2_3, p2_5) is False assert Point.is_concyclic(p4, p4 * 2, p4 * 3) is False pytest.raises(TypeError, lambda: Point.is_concyclic(p2_1, "123")) assert p4.scale(2, 3) == Point(2, 3) assert p3.scale(2, 3) == p3 assert p4.rotate(pi, Point(0.5, 0.5)) == p3 assert p1.__radd__(p2) == p1.midpoint(p2).scale(2, 2) assert (-p3).__rsub__(p4) == p3.midpoint(p4).scale(2, 2) assert p4 * 5 == Point(5, 5) assert p4 / 5 == Point(0.2, 0.2) pytest.raises(ValueError, lambda: Point(0, 0) + 10) # Point differences should be simplified assert Point(x*(x - 1), y) - Point(x**2 - x, y + 1) == Point(0, -1) a, b = Rational(1, 2), Rational(1, 3) assert Point(a, b).evalf(2) == \ Point(a.evalf(2), b.evalf(2)) pytest.raises(ValueError, lambda: Point(1, 2) + 1) # test transformations p = Point(1, 0) assert p.rotate(pi/2) == Point(0, 1) assert p.rotate(pi/2, p) == p p = Point(1, 1) assert p.scale(2, 3) == Point(2, 3) assert p.translate(1, 2) == Point(2, 3) assert p.translate(1) == Point(2, 1) assert p.translate(y=1) == Point(1, 2) assert p.translate(*p.args) == Point(2, 2) # Check invalid input for transform pytest.raises(ValueError, lambda: p3.transform(p3)) pytest.raises(ValueError, lambda: p.transform(Matrix([[1, 0], [0, 1]])))