Ejemplo n.º 1
0
    def distance_from_point(l0: Point, l1: Point, p: Point):
        '''
        source: http://mathworld.wolfram.com/Point-LineDistance3-Dimensional.html
        condition: distance l0, l1 can't be zero
        :param l0:
        :param l1:
        :param p:
        :return:
        '''

        vec0 = Vector.create_from_points(l0, p)
        print("vec0", vec0)
        vec1 = Vector.create_from_points(l1, p)
        print("vec1", vec1)

        vec2 = Vector.create_from_points(l0, l1)
        print("vec2", vec2)
        vec_cx = vec0.cross(vec1)
        print("vec_cx", vec_cx)

        num_sq = vec_cx.dot(vec_cx)
        den_sq = vec2.dot(vec2)
        print("N:", num_sq)
        print("D:", den_sq)

        dist_sq = mpmath.fdiv(num_sq, den_sq)

        return mpmath.sqrt(dist_sq)
Ejemplo n.º 2
0
 def create_from_3points(points):
     vec_a = Vector.create_from_points(points[0], points[1])
     vec_b = Vector.create_from_points(points[0], points[2])
     normal_vector = vec_a.cross(vec_b)
     d = normal_vector.dot(Vector.convert_point(points[2]))
     plane_params = [
         normal_vector.a, normal_vector.b, normal_vector.c,
         mpmath.fneg(d)
     ]
     return Plane(plane_params)
Ejemplo n.º 3
0
    def distance_from_point3(l0: Point, l1: Point, p: Point):
        '''
        http://mathworld.wolfram.com/Point-LineDistance3-Dimensional.html
        :param l0:
        :param l1:
        :param p:
        :return:
        '''

        vec_v = Vector.create_from_points(l0, p)
        vec_w = Vector.create_from_points(l1, p)
        vec_x = Vector.create_from_points(l0, l1)
        c = vec_v.cross(vec_w)
        nom_sq = c.dot(c)
        den_sq = vec_x.dot(vec_x)
        dist = mpmath.sqrt(mpmath.fdiv(nom_sq, den_sq))
        return dist
Ejemplo n.º 4
0
    def distance_from_point4(l0: Point, l1: Point, p: Point):
        '''

        :param l0:
        :param l1:
        :param p:
        :return:
        '''
        vec_nv = Vector.create_from_points(l0, l1)
        plane0 = Plane.create_from_point_vector(vec_nv, p)
        plane1 = Plane.create_from_3points([l0, l1, p])
        vec_nv2 = plane1.nv.cross(plane0.nv)
        plane2 = Plane.create_from_point_vector(vec_nv2, l0)
        dist = plane2.point_plane_distance(p)
        return dist
Ejemplo n.º 5
0
    def test_vector_magnitude(self):

        p0 = Point.from_float(-14.7, 26.4, 18.2)
        p1 = Point.from_float(26.47, 76.42, 108.2)

        vec = Vector.create_from_points(p0, p1)

        print(vec)
        self.assertAlmostEqual(41.17, float(vec.a), 2)
        self.assertAlmostEqual(50.02, float(vec.b), 2)
        self.assertAlmostEqual(90.00, float(vec.c), 2)

        mag = vec.magnitude()
        print(mag)
        self.assertAlmostEqual(110.891700771519, float(mag), 12)

        vec = Vector.from_float(0.0027, 10705, 90.00004)
        mag = vec.magnitude()
        self.assertAlmostEqual(10705.378321535736, float(mag), 12)
Ejemplo n.º 6
0
 def create_from_points(p0: Point, p1: Point):
     a_vec = Vector.create_from_points(p0, p1)
     return Line(p0, a_vec)