Exemple #1
0
    def _cross_left_or_right(self, edge_piece, face_piece, face_color, move_1,
                             move_2):
        # don't do anything if piece is in correct place
        if (edge_piece.pos == (face_piece.pos.x, face_piece.pos.y, 1)
                and edge_piece.colors[2] == self.cube.front_color()):
            return

        # ensure piece is at z = -1
        undo_move = None
        if edge_piece.pos.z == 0:
            pos = Point(edge_piece.pos)
            pos.x = 0  # pick the UP or DOWN face
            cw, cc = cube.get_rot_from_face(pos)

            if edge_piece.pos in (cube.LEFT + cube.UP, cube.RIGHT + cube.DOWN):
                self.move(cw)
                undo_move = cc
            else:
                self.move(cc)
                undo_move = cw
        elif edge_piece.pos.z == 1:
            pos = Point(edge_piece.pos)
            pos.z = 0
            cw, cc = cube.get_rot_from_face(pos)
            self.move("{0} {0}".format(cc))
            # don't set the undo move if the piece starts out in the right position
            # (with wrong orientation) or we'll screw up the remainder of the algorithm
            if edge_piece.pos.x != face_piece.pos.x:
                undo_move = "{0} {0}".format(cw)

        assert edge_piece.pos.z == -1

        # piece is at z = -1, rotate to correct face (LEFT or RIGHT)
        count = 0
        while (edge_piece.pos.x, edge_piece.pos.y) != (face_piece.pos.x,
                                                       face_piece.pos.y):
            self.move("B")
            count += 1
            if count == 10:
                raise Exception("Stuck in loop - unsolvable cube?\n" +
                                str(self.cube))

        # if we moved a correctly-placed piece, restore it
        if undo_move:
            self.move(undo_move)

        # the piece is on the correct face on plane z = -1, but has two orientations
        if edge_piece.colors[0] == face_color:
            self.move(move_1)
        else:
            self.move(move_2)
Exemple #2
0
    def _cross_left_or_right(self, edge_piece, face_piece, face_color, move_1, move_2):
        if (edge_piece.pos == (face_piece.pos.x, face_piece.pos.y, 1)
                and edge_piece.colors[2] == self.cube.front_color()):
            return

        undo_move = None
        if edge_piece.pos.z == 0:
            pos = Point(edge_piece.pos)
            pos.x = 0 
            cw, cc = cube.get_rot_from_face(pos)

            if edge_piece.pos in (cube.LEFT + cube.UP, cube.RIGHT + cube.DOWN):
                self.move(cw)
                undo_move = cc
            else:
                self.move(cc)
                undo_move = cw
        elif edge_piece.pos.z == 1:
            pos = Point(edge_piece.pos)
            pos.z = 0
            cw, cc = cube.get_rot_from_face(pos)
            self.move("{0} {0}".format(cc))
            # don't set the undo move if the piece starts out in the right position
            if edge_piece.pos.x != face_piece.pos.x:
                undo_move = "{0} {0}".format(cw)

        assert edge_piece.pos.z == -1

        #rotate to correct face (LEFT or RIGHT)
        count = 0
        while (edge_piece.pos.x, edge_piece.pos.y) != (face_piece.pos.x, face_piece.pos.y):
            self.move("B")
            count += 1
            if count == 10:
                raise Exception("Stuck in loop - unsolvable cube?\n" + str(self.cube))

        # if we moved a correctly-placed piece, restore it
        if undo_move:
            self.move(undo_move)
        if edge_piece.colors[0] == face_color:
            self.move(move_1)
        else:
            self.move(move_2)