def _U(cube, clockwise=True): rotate_face(cube.faces[0], clockwise) cycle_4(faces=[cube.faces[i] for i in [2, 1, 4, 3]], edges=[ Edge.TOP(ascending_indices=False), Edge.TOP(ascending_indices=False), Edge.TOP(ascending_indices=False), Edge.TOP(ascending_indices=False) ], clockwise=clockwise)
def _B(cube, clockwise=True): rotate_face(cube.faces[1], clockwise) cycle_4(faces=[cube.faces[i] for i in [2, 5, 4, 0]], edges=[ Edge.LEFT(), Edge.BOTTOM(), Edge.RIGHT(ascending_indices=False), Edge.TOP(ascending_indices=False) ], clockwise=clockwise)
def test_cycle_4_cw_1(): """ See `cube_solver.cube` faces: 2, 0, 4, 5 """ faces = [[[A, B, C], [D, E, F], [G, H, I]], [[J, K, L], [M, N, O], [P, Q, R]], [[S, T, U], [V, W, X], [Y, Z, Z2]], [[A2, B2, C2], [D2, E2, F2], [G2, H2, I2]]] edges = [ Edge.RIGHT(ascending_indices=False), Edge.BOTTOM(), Edge.LEFT(), Edge.TOP(ascending_indices=False) ] expected_cycled_faces = [[[A, B, A2], [D, E, B2], [G, H, C2]], [[J, K, L], [M, N, O], [I, F, C]], [[P, T, U], [Q, W, X], [R, Z, Z2]], [[Y, V, S], [D2, E2, F2], [G2, H2, I2]]] cycle_4(faces=faces, edges=edges, clockwise=True) assert expected_cycled_faces == faces