from sympy.physics.vector import dynamicsymbols, Point, ReferenceFrame from sympy.utilities.pytest import raises def test_point_v1pt_theorys(): q, q2 = dynamicsymbols('q q2') qd, q2d = dynamicsymbols('q q2', 1) qdd, q2dd = dynamicsymbols('q q2', 2) N = ReferenceFrame('N') B = ReferenceFrame('B') B.set_ang_vel(N, qd * B.z) O = Point('O') P = O.locatenew('P', B.x) P.set_vel(B, 0) O.set_vel(N, 0) assert P.v1pt_theory(O, N, B) == qd * B.y O.set_vel(N, N.x) assert P.v1pt_theory(O, N, B) == N.x + qd * B.y P.set_vel(B, B.z) assert P.v1pt_theory(O, N, B) == B.z + N.x + qd * B.y def test_point_a1pt_theorys(): q, q2 = dynamicsymbols('q q2') qd, q2d = dynamicsymbols('q q2', 1) qdd, q2dd = dynamicsymbols('q q2', 2) N = ReferenceFrame('N') B = ReferenceFrame('B') B.set_ang_vel(N, qd * B.z) O = Point('O') P = O.locatenew('P', B.x) P.set_vel(B, 0) O.set_vel(N, 0) assert P.a1pt_theory(O, N, B) == -(qd**2) * B.x + qdd * B.y P.set_vel(B, q2d * B.z) assert P.a1pt_theory(O, N, B) == -(qd**2) * B.x + qdd * B.y + q2dd * B.z O.set_vel(N, q2d * B.x) assert P.a1pt_theory(O, N, B) == ((q2dd - qd**2) * B.x + (q2d * qd + qdd) * B.y + q2dd * B.z) def test_point_v2pt_theorys(): q = dynamicsymbols('q') qd = dynamicsymbols('q', 1) N = ReferenceFrame('N') B = N.orientnew('B', 'Axis', [q, N.z]) O = Point('O') P = O.locatenew('P', 0) O.set_vel(N, 0) assert P.v2pt_theory(O, N, B) == 0 P = O.locatenew('P', B.x) assert P.v2pt_theory(O, N, B) == (qd * B.z ^ B.x) O.set_vel(N, N.x) assert P.v2pt_theory(O, N, B) == N.x + qd * B.y def test_point_a2pt_theorys(): q = dynamicsymbols('q') qd = dynamicsymbols('q', 1) qdd = dynamicsymbols('q', 2) N = ReferenceFrame('N') B = N.orientnew('B', 'Axis', [q, N.z]) O = Point('O') P = O.locatenew('P', 0) O.set_vel(N, 0) assert P.a2pt_theory(O, N, B) == 0 P.set_pos(O, B.x) assert P.a2pt_theory(O, N, B) == (-qd**2) * B.x + (qdd) * B.y def test_point_funcs(): q, q2 = dynamicsymbols('q q2') qd, q2d = dynamicsymbols('q q2', 1) qdd, q2dd = dynamicsymbols('q q2', 2) N = ReferenceFrame('N') B = ReferenceFrame('B') B.set_ang_vel(N, 5 * B.y) O = Point('O') P = O.locatenew('P', q * B.x) assert P.pos_from(O) == q * B.x P.set_vel(B, qd * B.x + q2d * B.y) assert P.vel(B) == qd * B.x + q2d * B.y O.set_vel(N, 0) assert O.vel(N) == 0 assert P.a1pt_theory(O, N, B) == ((-25 * q + qdd) * B.x + (q2dd) * B.y + (-10 * qd) * B.z) B = N.orientnew('B', 'Axis', [q, N.z]) O = Point('O') P = O.locatenew('P', 10 * B.x) O.set_vel(N, 5 * N.x) assert O.vel(N) == 5 * N.x assert P.a2pt_theory(O, N, B) == (-10 * qd**2) * B.x + (10 * qdd) * B.y B.set_ang_vel(N, 5 * B.y) O = Point('O') P = O.locatenew('P', q * B.x) P.set_vel(B, qd * B.x + q2d * B.y) O.set_vel(N, 0) assert P.v1pt_theory(O, N, B) == qd * B.x + q2d * B.y - 5 * q * B.z def test_point_pos(): q = dynamicsymbols('q') N = ReferenceFrame('N') B = N.orientnew('B', 'Axis', [q, N.z]) O = Point('O') P = O.locatenew('P', 10 * N.x + 5 * B.x) assert P.pos_from(O) == 10 * N.x + 5 * B.x Q = P.locatenew('Q', 10 * N.y + 5 * B.y) assert Q.pos_from(P) == 10 * N.y + 5 * B.y assert Q.pos_from(O) == 10 * N.x + 10 * N.y + 5 * B.x + 5 * B.y assert O.pos_from(Q) == -10 * N.x - 10 * N.y - 5 * B.x - 5 * B.y def test_point_partial_velocity(): N = ReferenceFrame('N') A = ReferenceFrame('A') p = Point('p') u1, u2 = dynamicsymbols('u1, u2') p.set_vel(N, u1 * A.x + u2 * N.y) assert p.partial_velocity(N, u1) == A.x assert p.partial_velocity(N, u1, u2) == (A.x, N.y) raises(ValueError, lambda: p.partial_velocity(A, u1))