예제 #1
0
 def move_orientation(self, tool_orientation):
     sim_ret, UR5_target_handle = vrep.simxGetObjectHandle(self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
     sim_ret, UR5_target_orientation = vrep.simxGetObjectOrientation(self.sim_client, UR5_target_handle, -1,
                                                                     vrep.simx_opmode_blocking)
     rotation_step = 0.05 if (tool_orientation > 0) else -0.05
     num_rotation_steps = int(np.floor(tool_orientation / rotation_step))
     for step_iter in range(num_rotation_steps):
         vrep.simxSetObjectOrientation(self.sim_client, UR5_target_handle, -1,
                                       (np.pi/2, UR5_target_orientation[1] + rotation_step * min(step_iter, num_rotation_steps), np.pi/2),
                                       vrep.simx_opmode_blocking)
예제 #2
0
    def move_to(self, tool_position):
        sim_ret, UR5_target_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
        # UR5_target_handle = vrep.simxGetObjectHandle(self.sim_client,'UR5_target',vrep.simx_opmode_blocking)
        sim_ret, UR5_target_position = vrep.simxGetObjectPosition(
            self.sim_client, UR5_target_handle, -1, vrep.simx_opmode_blocking)
        sim_ret, UR5_target_orientation = vrep.simxGetObjectOrientation(
            self.sim_client, UR5_target_handle, -1, vrep.simx_opmode_blocking)
        # print(UR5_target_position)
        tool_orientation = tool_position[-1]
        tool_position = tool_position[0:3]
        if UR5_target_position[2] <= 0.031:
            tool_position[2] = 0
        move_direction = np.asarray(tool_position)
        move_magnitude = np.linalg.norm(move_direction)
        if move_magnitude == 0 or not move_magnitude == move_magnitude:
            move_step = [0, 0, 0]
            num_move_steps = 0
            # print('magnitude error~!', move_magnitude, tool_position)
        else:
            move_step = 0.005 * move_direction / move_magnitude
            num_move_steps = int(np.floor(move_magnitude / 0.005))

        rotation_step = 0.05 if (tool_orientation > 0) else -0.05
        num_rotation_steps = int(np.floor(tool_orientation / rotation_step))

        # print('move direction : ', move_direction, 'move magnitude : ', move_magnitude, 'move step : ', move_step, 'num : ', num_move_steps)

        for step_iter in range(max(num_move_steps, num_rotation_steps)):
            vrep.simxSetObjectPosition(
                self.sim_client, UR5_target_handle, -1,
                (UR5_target_position[0] +
                 move_step[0] * min(step_iter, num_move_steps),
                 UR5_target_position[1] +
                 move_step[1] * min(step_iter, num_move_steps),
                 UR5_target_position[2] +
                 move_step[2] * min(step_iter, num_move_steps)),
                vrep.simx_opmode_blocking)
            vrep.simxSetObjectOrientation(
                self.sim_client, UR5_target_handle, -1,
                (np.pi / 2, UR5_target_orientation[1] +
                 rotation_step * min(step_iter, num_rotation_steps),
                 np.pi / 2), vrep.simx_opmode_blocking)
예제 #3
0
    def reset(self):
        sim_ret, self.UR5_target_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
        vrep.simxStopSimulation(self.sim_client, vrep.simx_opmode_blocking)
        vrep.simxStartSimulation(self.sim_client, vrep.simx_opmode_blocking)
        time.sleep(1)
        sim_ret, self.RG2_tip_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_tip', vrep.simx_opmode_blocking)
        sim_ret, gripper_position = vrep.simxGetObjectPosition(
            self.sim_client, self.RG2_tip_handle, -1,
            vrep.simx_opmode_blocking)

        time.sleep(1)
        vrep.simxSetObjectPosition(self.sim_client, self.UR5_target_handle, -1,
                                   (-0.47, 0, 0.254),
                                   vrep.simx_opmode_blocking)
        vrep.simxSetObjectOrientation(self.sim_client, self.UR5_target_handle,
                                      -1, (np.pi / 2, 0, np.pi / 2),
                                      vrep.simx_opmode_blocking)
        while gripper_position[
                2] > 0.4:  # V-REP bug requiring multiple starts and stops to restart
            self.open_griper()
            vrep.simxStopSimulation(self.sim_client, vrep.simx_opmode_blocking)
            vrep.simxStartSimulation(self.sim_client,
                                     vrep.simx_opmode_blocking)
            time.sleep(1)
            sim_ret, gripper_position = vrep.simxGetObjectPosition(
                self.sim_client, self.RG2_tip_handle, -1,
                vrep.simx_opmode_blocking)
            vrep.simxSetObjectPosition(self.sim_client, self.UR5_target_handle,
                                       -1, (-0.47, 0, 0.254),
                                       vrep.simx_opmode_blocking)
            vrep.simxSetObjectOrientation(self.sim_client,
                                          self.UR5_target_handle, -1,
                                          (np.pi / 2, 0, np.pi / 2),
                                          vrep.simx_opmode_blocking)
        # print('started!')

        target_x = random.random() * (self.object_work_space[0][1] - self.object_work_space[0][0]) + \
                   self.object_work_space[0][0]
        target_y = random.random() * (self.object_work_space[1][1] - self.object_work_space[1][0]) + \
                   self.object_work_space[1][0]
        # target_z = random.random() * (self.work_space[2][1] - self.work_space[2][0]) + self.work_space[2][0]
        # target_x = -0.5283
        # target_y = 0.1640

        target_z = 0.025
        self.open_griper()
        self.move_position([target_x + 0.47, target_y, 0.03 - 0.254])
        self.target = [target_x, target_y, target_z]

        orientation_y = -random.random() * np.pi + np.pi / 2

        # print()
        # vrep.simxPauseCommunication(self.sim_client, False)
        object_orientation = [-np.pi / 2, orientation_y, -np.pi / 2]
        curr_mesh_file = '/home/chen/stl-model/surface_car.obj'
        curr_shape_name = 'shape001'
        object_color = [0.4, 0.7, 1]
        ret_resp, ret_ints, ret_floats, ret_strings, ret_buffer = vrep.simxCallScriptFunction(
            self.sim_client, 'remoteApiCommandServer',
            vrep.sim_scripttype_childscript, 'importShape', [0, 0, 255, 0],
            self.target + object_orientation + object_color,
            [curr_mesh_file, curr_shape_name], bytearray(),
            vrep.simx_opmode_blocking)
        self.target = np.asarray(self.target)
        self.open_griper()
        sim_ret, self.current_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
        sim_ret, self.current_position = vrep.simxGetObjectPosition(
            self.sim_client, self.current_handle, -1,
            vrep.simx_opmode_blocking)
        if orientation_y < 0:
            ratio = -1
        else:
            ratio = 1
        # target_state = np.append(self.target[0:2], ratio * (np.pi/2 - abs(orientation_y))/(np.pi))
        # current_state = np.append(self.current_position[0:2], 0)
        self.pre_distance = np.linalg.norm(self.target[0:2] -
                                           self.current_position[0:2])
        self.pre_orientation_distance = np.linalg.norm(
            ratio * (np.pi / 2 - abs(orientation_y)) / (np.pi))
        self.current_state, frame, pos = self.get_state()
        # test_pos = np.append([0, 0, 0], orientation_y - np.pi/2)
        # self.move_to(test_pos)
        cs = self.current_state[0:2]

        cs = np.append(cs, self.current_state[-1])

        return cs, frame, pos
예제 #4
0
    def reset(self):
        sim_ret, self.UR5_target_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
        vrep.simxStopSimulation(self.sim_client, vrep.simx_opmode_blocking)
        vrep.simxStartSimulation(self.sim_client, vrep.simx_opmode_blocking)
        time.sleep(1)
        sim_ret, self.RG2_tip_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_tip', vrep.simx_opmode_blocking)
        sim_ret, gripper_position = vrep.simxGetObjectPosition(
            self.sim_client, self.RG2_tip_handle, -1,
            vrep.simx_opmode_blocking)
        vrep.simxSetObjectPosition(self.sim_client, self.UR5_target_handle, -1,
                                   (-0.47, 0, 0.3), vrep.simx_opmode_blocking)
        vrep.simxSetObjectOrientation(self.sim_client, self.UR5_target_handle,
                                      -1, (np.pi / 2, 0, np.pi / 2),
                                      vrep.simx_opmode_blocking)
        while gripper_position[
                2] > 0.4:  # V-REP bug requiring multiple starts and stops to restart
            vrep.simxStopSimulation(self.sim_client, vrep.simx_opmode_blocking)
            vrep.simxStartSimulation(self.sim_client,
                                     vrep.simx_opmode_blocking)
            time.sleep(1)
            sim_ret, gripper_position = vrep.simxGetObjectPosition(
                self.sim_client, self.RG2_tip_handle, -1,
                vrep.simx_opmode_blocking)
            vrep.simxSetObjectPosition(self.sim_client, self.UR5_target_handle,
                                       -1, (-0.47, 0, 0.3),
                                       vrep.simx_opmode_blocking)
            vrep.simxSetObjectOrientation(self.sim_client,
                                          self.UR5_target_handle, -1,
                                          (np.pi / 2, 0, np.pi / 2),
                                          vrep.simx_opmode_blocking)
        # print('started!')

        target_x = random.random() * (
            self.object_work_space[0][1] -
            self.object_work_space[0][0]) + self.object_work_space[0][0]
        target_y = random.random() * (
            self.object_work_space[1][1] -
            self.object_work_space[1][0]) + self.object_work_space[1][0]
        # target_z = random.random() * (self.work_space[2][1] - self.work_space[2][0]) + self.work_space[2][0]
        target_z = 0.075

        self.target = [target_x, target_y, target_z]
        # print()
        # vrep.simxPauseCommunication(self.sim_client, False)

        # orientation_y = -random.random() * np.pi + np.pi / 2

        # print()
        # vrep.simxPauseCommunication(self.sim_client, False)
        # object_orientation = [-np.pi / 2, orientation_y, -np.pi / 2]

        object_orientation = [0, 0, 0]
        curr_mesh_file = '/home/chen/stl-model/cup.obj'
        curr_shape_name = 'shape001'
        object_color = [0, 0.6, 1]
        ret_resp, ret_ints, ret_floats, ret_strings, ret_buffer = vrep.simxCallScriptFunction(
            self.sim_client, 'remoteApiCommandServer',
            vrep.sim_scripttype_childscript, 'importShape', [0, 0, 255, 0],
            self.target + object_orientation + object_color,
            [curr_mesh_file, curr_shape_name], bytearray(),
            vrep.simx_opmode_blocking)
        self.target = np.asarray(self.target)
        sim_ret, self.current_handle = vrep.simxGetObjectHandle(
            self.sim_client, 'UR5_target', vrep.simx_opmode_blocking)
        sim_ret, self.current_position = vrep.simxGetObjectPosition(
            self.sim_client, self.current_handle, -1,
            vrep.simx_opmode_blocking)
        self.pre_distance = np.linalg.norm(self.target[0:2] -
                                           self.current_position[0:2])
        self.current_state, frame, pos = self.get_state()
        return self.current_state, frame, pos