def start_lasers1(): lasers.start(1)
def start_lasers0(): lasers.start(0)
def place(listener, br, isExecute=True, binId=0, withPause=False, rel_pose=None, BoxBody=None, place_pose=None, viz_pub=None, is_drop=True, recorder=None): ######################################################### # fhogan and nikhilcd # Description: #~2017 picking primitive # #~Usage #~ pick(objInput, listener, br, isExecute = True, objId = 'cheezit_big_original', flag = 1, withPause = False, rel_pose=None, BoxBody=None, place_pose=None, viz_pub=None): # #~Parameters: # #~Inputs: # 1) objInput: Input from vision or RViz (list of 12, or 7) # 2) listener: Input from vision or RViz (list of 12, or 7) # 3) br: Input from vision or RViz (list of 12, or 7) # 4) isExecute: execute the robot motion if possible or not? (Bool) # 5) objId: name of object (str) # 6) binId: bin in which we need to place the objects. (It is useless when flag 0 and 1) # 7) flag: Type of action directed by planning (0:run picking, 1:go to home (camera), 2: drop the object at target location) # 8) withPause: Pause between robot motions (Bool) # 9) rel_pose: object pose relative to link_6 # 10) BoxBody: Bounding box points resolved in link 6 frame # 11) place_pose: desired position of bounding box # 12) viz_pub: desired position of bounding box # #~Output: # Dictionary of following keys: # 1) grasp_possible: Does the object fit in the hand? (True/False) # 2) plan_possible: Has the plan succeeded? (True/False) # 3) execution_possible: Is there anything in the grasp? (True/False) # 4) gripper_opening: gripper opening after grasp attempt (in meters) # 5) graspPose: pose of the gripper at grasp (7X1 - position and quaternion) # 6) gelsight_data: [] , dummy for now ######################################################### #rospy.logdebug(msg, *args) #rospy.loginfo(msg, *args) #rospy.logwarn(msg, *args) #rospy.logerr(msg, *args) #rospy.logfatal(msg, *args) ############################### ## Pring input variables for ## ############################### rospy.logdebug('[Picking] withPause %s', withPause) rospy.logdebug('[Picking] rel_pose %s', rel_pose) rospy.logdebug('[Picking] BoxBody %s', BoxBody) rospy.logdebug('[Picking] place_pose %s', place_pose) ######################## ## Initialize values ## ######################## q_initial = ik.helper.get_joints() bin_pose = ik.helper.get_params_yaml('bin' + str(binId) + '_pose') spatula_tip_to_tcp_dist = rospy.get_param( "/gripper/spatula_tip_to_tcp_dist") delta_vision_pose = ik.helper.get_params_yaml('vision_pose_picking') vision_pos = np.array(bin_pose[0:3]) + np.array(delta_vision_pose[0:3]) plans = [] plans_grasping = [] plans_grasping2 = [] plans_guarded = [] plans_guarded2 = [] plans_placing = [] plans_placing2 = [] graspPose = [] plan_possible = False execution_possible = False gripper_opening = 0.0 grasp_possible = True gelsight_data = [] collision = False final_object_pose = None rospy.set_param('is_record', False) rospy.set_param('is_contact', False) liftoff_pub = rospy.Publisher('/liftoff_time', std_msgs.msg.String, queue_size=10, latch=False) def compose_output(): return { 'collision': collision, 'grasp_possible': grasp_possible, 'plan_possible': plan_possible, 'execution_possible': execution_possible, 'gripper_opening': gripper_opening, 'graspPose': graspPose, 'gelsight_data': gelsight_data, 'final_object_pose': final_object_pose } ######################### ## Constant parameters ## ######################### UpdistFromBinFast = 0.15 # Margin above object during "move to a location" UpdistFromBinGuarded = 0.05 # Margin above object during "move to a location" gripperOriHome = [0, 1, 0, 0] l1 = 0.0 l2 = 0.0 l3 = spatula_tip_to_tcp_dist tip_hand_transform = [l1, l2, l3, 0, 0, 0] vision_pos[2] = 0.17786528 ############# ## Placing ## ############# #if primitive called without placing arguments, go to center of bin if rel_pose == None: drop_pose = ik.helper.get_params_yaml('bin' + str(binId) + '_pose') drop_pose[3:7] = gripperOriHome else: drop_pose = ik.helper.drop_pose_transform(binId, rel_pose, BoxBody, place_pose, viz_pub, listener, br) #~ Adjust height according to weigth if is_drop: drop_offset = 0.15 else: drop_offset = 0.025 #~set drop pose target z position to be bottom of bin drop_pose[2] = bin_pose[2] - rospy.get_param('tote/height') + drop_offset #~Predrop: go to top middle bin surface fast without guarded move predrop_pos = np.array(drop_pose[0:3]) predrop_pos[2] = bin_pose[2] + 0.05 ###################### ## Generate plans ## ###################### #~move safe to placing bin number rospy.logdebug( '[Picking] Collision free placing to binId %s and position %s', binId, predrop_pos) # if isExecute: # q_initial = collision_free_placing(binId, listener, obj_ID=objId, BoxBody=BoxBody, isSuction = False,with_object = True, hand_orientation=drop_pose[3:7],projected_target_position = predrop_pos, isReturn = True) # if update_command is not None: # update_command.execute() #~0.go up to avoid collision with tote walls current_pose = ik.helper.get_tcp_pose(listener, tcp_offset=l3) current_pose[2] = current_pose[2] + 0.15 plan, qf, plan_possible = generatePlan(q_initial, current_pose[0:3], current_pose[3:7], tip_hand_transform, 'faster', plan_name='go_up') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~0.1.fast motion to bin surface high predrop_pos_high = predrop_pos predrop_pos_high[2] = current_pose[2] plan, qf, plan_possible = generatePlan(q_initial, predrop_pos_high, drop_pose[3:7], tip_hand_transform, 'faster', plan_name='go_bin_surface_high') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~1.fast motion to bin surface predrop_pos[2] = bin_pose[2] + 0.05 plan, qf, plan_possible = generatePlan(q_initial, predrop_pos, drop_pose[3:7], tip_hand_transform, 'faster', plan_name='go_bin_surface') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~2. Guarded move down slow plan, qf, plan_possible = generatePlan(q_initial, drop_pose[0:3], drop_pose[3:7], tip_hand_transform, 'fast', guard_on=WeightGuard(binId, threshold=100), backwards_speed='superSaiyan', plan_name='guarded_drop') if plan_possible: plans_placing.append(plan) q_initial = qf else: return compose_output() #~3. open gripper grasp_plan = EvalPlan('helper.moveGripper(0.110, 200)') plans_placing2.append(grasp_plan) #~4. open spatula grasp_plan = EvalPlan('spatula.open()') plans_placing2.append(grasp_plan) #~5. go to predrop_pos plan, qf, plan_possible = generatePlan(q_initial, predrop_pos[0:3], drop_pose[3:7], tip_hand_transform, 'superSaiyan', plan_name='predrop_pos') if plan_possible: plans_placing2.append(plan) q_initial = qf else: return compose_output() #~6. go to final pose final_pos = bin_pose[0:3] final_pos[2] = bin_pose[2] + 0.3 plan, qf, plan_possible = generatePlan(q_initial, final_pos, drop_pose[3:7], tip_hand_transform, 'superSaiyan', plan_name='final_pose') if plan_possible: plans_placing2.append(plan) q_initial = qf else: return compose_output() #~ Execute plans if plan_possible: if isExecute: executePlanForward(plans, withPause) #We start recording now if recorder is not None: lasers.start(binId) recorder.start_recording( action='placing', action_id=str( datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")), tote_num=binId, frame_rate_ratio=5, image_size=-1) rospy.set_param('is_record', True) executePlanForward(plans_placing, withPause) if rospy.get_param('is_contact'): ik.helper.move_cart(dz=0.015) executePlanForward(plans_placing2, withPause) rospy.set_param('is_record', False) if recorder is not None: recorder.stop_recording(save_action=True) lasers.stop(binId) execution_possible = True return compose_output()
def grasp(objInput, listener, br, isExecute=True, objId='expo_eraser', binId=0, flag=0, withPause=False, rel_pose=None, BoxBody=None, place_pose=None, viz_pub=None, is_drop=True, update_command=None, recorder=None): ######################################################### # fhogan and nikhilcd # Description: #~2017 picking primitive # #~Usage #~ pick(objInput, listener, br, isExecute = True, objId = 'cheezit_big_original', flag = 1, withPause = False, rel_pose=None, BoxBody=None, place_pose=None, viz_pub=None): # #~Parameters: # #~Inputs: # 1) objInput: Input from vision or RViz (list of 12, or 7) # 2) listener: Input from vision or RViz (list of 12, or 7) # 3) br: Input from vision or RViz (list of 12, or 7) # 4) isExecute: execute the robot motion if possible or not? (Bool) # 5) objId: name of object (str) # 6) binId: bin in which we need to place the objects. (It is useless when flag 0 and 1) # 7) flag: Type of action directed by planning (0:run picking, 1:go to home (camera), 2: drop the object at target location) # 8) withPause: Pause between robot motions (Bool) # 9) rel_pose: object pose relative to link_6 # 10) BoxBody: Bounding box points resolved in link 6 frame # 11) place_pose: desired position of bounding box # 12) viz_pub: desired position of bounding box # #~Output: # Dictionary of following keys: # 1) grasp_possible: Does the object fit in the hand? (True/False) # 2) plan_possible: Has the plan succeeded? (True/False) # 3) execution_possible: Is there anything in the grasp? (True/False) # 4) gripper_opening: gripper opening after grasp attempt (in meters) # 5) graspPose: pose of the gripper at grasp (7X1 - position and quaternion) # 6) gelsight_data: [] , dummy for now ######################################################### #rospy.logdebug(msg, *args) #rospy.loginfo(msg, *args) #rospy.logwarn(msg, *args) #rospy.logerr(msg, *args) #rospy.logfatal(msg, *args) ############################### ## Pring input variables for ## ############################### rospy.logdebug('[Picking] Starting primitive with flag: %d' % flag) rospy.logdebug('[Picking] objInput %s', objInput) rospy.logdebug('[Picking] objId %s', objId) rospy.logdebug('[Picking] flag %s', flag) rospy.logdebug('[Picking] withPause %s', withPause) rospy.logdebug('[Picking] rel_pose %s', rel_pose) rospy.logdebug('[Picking] BoxBody %s', BoxBody) rospy.logdebug('[Picking] place_pose %s', place_pose) ######################## ## Initialize values ## ######################## q_initial = ik.helper.get_joints() bin_pose = ik.helper.get_params_yaml('bin' + str(binId) + '_pose') spatula_tip_to_tcp_dist = rospy.get_param( "/gripper/spatula_tip_to_tcp_dist") delta_vision_pose = ik.helper.get_params_yaml('vision_pose_picking') vision_pos = np.array(bin_pose[0:3]) + np.array(delta_vision_pose[0:3]) plans = [] plans_grasping = [] plans_grasping2 = [] plans_guarded = [] plans_placing = [] graspPose = [] plan_possible = False execution_possible = False gripper_opening = 0.0 grasp_possible = True gelsight_data = [] collision = False final_object_pose = None rospy.set_param('is_record', False) rospy.set_param('is_contact', False) weightSensor = ws_prob.WeightSensor() liftoff_pub = rospy.Publisher('/liftoff_time', std_msgs.msg.String, queue_size=10, latch=False) def compose_output(): return { 'collision': collision, 'grasp_possible': grasp_possible, 'plan_possible': plan_possible, 'execution_possible': execution_possible, 'gripper_opening': gripper_opening, 'graspPose': graspPose, 'gelsight_data': gelsight_data, 'final_object_pose': final_object_pose } ######################### ## Constant parameters ## ######################### UpdistFromBinFast = 0.15 # Margin above object during "move to a location" UpdistFromBinGuarded = 0.05 # Margin above object during "move to a location" gripperOriHome = [0, 1, 0, 0] l1 = 0.0 l2 = 0.0 l3 = spatula_tip_to_tcp_dist tip_hand_transform = [l1, l2, l3, 0, 0, 0] vision_pos[2] = 0.17786528 ############################### ## Picking primitive flag: 0 ## ############################### if flag == 0: # ik.visualize_helper.visualize_grasping_proposals(viz_pub, np.asarray([objInput]), listener, br, False) #~Define reference frames world_X, world_Y, world_Z, tote_X, tote_Y, tote_Z, tote_pose_pos = ik.helper.reference_frames( listener=listener, br=br) #~get grasp pose and gripper opening from vision if len(objInput) == 12: graspPos, hand_X, hand_Y, hand_Z, grasp_width = ik.helper.get_picking_params_from_12( objInput) elif len(objInput) == 7: graspPos, hand_X, hand_Y, hand_Z, grasp_width = ik.helper.get_picking_params_from_7( objInput, objId, listener, br) #~build gripper orientation matrix 3x3 hand_orient_norm = np.vstack([hand_X, hand_Y, hand_Z]) hand_orient_norm = hand_orient_norm.transpose() #~Grasp relocation script hand_orient_quat = ik.helper.mat2quat(hand_orient_norm) euler = tf.transformations.euler_from_quaternion(hand_orient_quat) theta = euler[2] - np.pi colFreePose = collisionFree(graspPos, binId=binId, listener=listener, br=br, finger_opening=grasp_width, safety_margin=0.00, theta=theta) graspPos[0:2] = colFreePose[0:2] ################################# ## GENERATE PLANS OF PRIMITIVE ## #################################. #~ Start from home position # if isExecute: # q_initial = collision_free_placing(binId, listener, isSuction = False, with_object = False, hand_orientation=[0,1,0,0], projected_target_position = bin_pose[0:3], isReturn = True) # scorpion.back() #~0. Move to a location above the bin, Rotate gripper to grasp orientation pregrasp_targetPosition = graspPos pregrasp_targetPosition[2] = bin_pose[2] + UpdistFromBinFast plan, qf, plan_possible = generatePlan(q_initial, pregrasp_targetPosition, hand_orient_quat, tip_hand_transform, 'superSaiyan', plan_name='go_safe_bin') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~1. Move to to surface of bin pregrasp_targetPosition[2] = bin_pose[2] + UpdistFromBinGuarded plan, qf, plan_possible = generatePlan(q_initial, pregrasp_targetPosition, hand_orient_quat, tip_hand_transform, 'superSaiyan', plan_name='go_top_bin') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~2. Open gripper grasp_plan = EvalPlan('helper.moveGripper(%f, 200)' % grasp_width) plans.append(grasp_plan) #~ 3. Open spatula grasp_plan = EvalPlan('spatula.open()') plans.append(grasp_plan) grasp_targetPosition = deepcopy(graspPos) # rospy.loginfo('[Picking] Grasp Target %s', grasp_targetPosition) #~4. sleep sleep_plan = EvalPlan('rospy.sleep(0.2)') plans.append(sleep_plan) #~5. perform guarded move down grasp_targetPosition[2] = bin_pose[2] - rospy.get_param( '/tote/height') + 0.000 #~frank hack for safety if binId == 0: grasp_targetPosition[2] = grasp_targetPosition[2] + 0.005 plan, qf, plan_possible = generatePlan(q_initial, grasp_targetPosition, hand_orient_quat, tip_hand_transform, 'faster', guard_on=WeightGuard( binId, threshold=100), plan_name='guarded_pick') if plan_possible: plans_guarded.append(plan) q_initial = qf else: return compose_output() #~7. Close spatula grasp_plan = EvalPlan('spatula.close()') plans_guarded.append(grasp_plan) #~8. Close gripper grasp_plan = EvalPlan('helper.graspinGripper(%f,%f)' % (800, 50)) plans_guarded.append(grasp_plan) #~9. sleep sleep_plan = EvalPlan('rospy.sleep(0.2)') plans_guarded.append(sleep_plan) #~10. Move to a location above the bin plan, qf, plan_possible = generatePlan(q_initial, vision_pos, delta_vision_pose[3:7], tip_hand_transform, 'fastest', plan_name='retrieve_object') if plan_possible: plans_grasping.append(plan) q_initial = qf else: return compose_output() ################ ## EXECUTION ### ################ if isExecute and plan_possible: executePlanForward(plans, withPause) ###We start recording now lasers.start(binId) recorder.start_recording( action='grasping', action_id=str( datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")), tote_num=binId, frame_rate_ratio=5, image_size=-1) #Execute guarded move rospy.set_param('is_record', True) executePlanForward(plans_guarded, withPause) rospy.set_param('is_record', False) #Publish liftoff time liftoff_msgs = std_msgs.msg.String() liftoff_msgs.data = 'Liftoff (Robot command)' liftoff_pub.publish(liftoff_msgs) #Execute non-guarded grasp plan move executePlanForward(plans_grasping, withPause) ###We stop recording recorder.stop_recording(save_action=True) lasers.stop(binId) #~Check if picking success low_threshold = 0.0035 high_threshold = 0.015 if isExecute and plan_possible: rospy.sleep(2) gripper_opening = gripper.getGripperopening() if gripper_opening > high_threshold: rospy.loginfo('[Picking] ***************') rospy.loginfo( '[Picking] Pick Successful (Gripper Opening Test)') rospy.loginfo('[Picking] ***************') execution_possible = True else: rospy.loginfo('[Picking] ***************') rospy.loginfo( '[Picking] Pick Inconclusive (Gripper Opening Test)') rospy.loginfo('[Picking] ***************') execution_possible = None elif not isExecute: execution_possible = plan_possible return compose_output() ############# ## Placing ## ############# elif flag == 2: #if primitive called without placing arguments, go to center of bin if rel_pose == None: drop_pose = ik.helper.get_params_yaml('bin' + str(binId) + '_pose') drop_pose[3:7] = gripperOriHome else: drop_pose = ik.helper.drop_pose_transform(binId, rel_pose, BoxBody, place_pose, viz_pub, listener, br) #~ Adjust height according to weigth if is_drop: drop_offset = 0.15 else: drop_offset = 0.002 #~set drop pose target z position to be bottom of bin drop_pose[2] = bin_pose[2] - rospy.get_param( 'tote/height') + drop_offset #~Predrop: go to top middle bin surface fast without guarded move predrop_pos = np.array(drop_pose[0:3]) predrop_pos[2] = bin_pose[2] + 0.05 ###################### ## Generate plans ## ###################### #~move safe to placing bin number rospy.logdebug( '[Picking] Collision free placing to binId %s and position %s', binId, predrop_pos) # if isExecute: # q_initial = collision_free_placing(binId, listener, obj_ID=objId, BoxBody=BoxBody, isSuction = False,with_object = True, hand_orientation=drop_pose[3:7],projected_target_position = predrop_pos, isReturn = True) # if update_command is not None: # update_command.execute() #~0.go up to avoid collision with tote walls current_pose = ik.helper.get_tcp_pose(listener, tcp_offset=l3) current_pose[2] = current_pose[2] + 0.15 plan, qf, plan_possible = generatePlan(q_initial, current_pose[0:3], current_pose[3:7], tip_hand_transform, 'faster', plan_name='go_up') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~0.1.fast motion to bin surface high predrop_pos_high = predrop_pos predrop_pos_high[2] = current_pose[2] plan, qf, plan_possible = generatePlan(q_initial, predrop_pos_high, drop_pose[3:7], tip_hand_transform, 'faster', plan_name='go_bin_surface_high') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~1.fast motion to bin surface predrop_pos[2] = bin_pose[2] + 0.05 plan, qf, plan_possible = generatePlan(q_initial, predrop_pos, drop_pose[3:7], tip_hand_transform, 'faster', plan_name='go_bin_surface') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~2. Guarded move down slow plan, qf, plan_possible = generatePlan(q_initial, drop_pose[0:3], drop_pose[3:7], tip_hand_transform, 'fast', guard_on=WeightGuard(binId), backwards_speed='superSaiyan', plan_name='guarded_drop') if plan_possible: plans_placing.append(plan) q_initial = qf else: return compose_output() #~3. open gripper grasp_plan = EvalPlan('helper.moveGripper(0.110, 200)') plans_placing.append(grasp_plan) #~4. open spatula grasp_plan = EvalPlan('spatula.open()') plans_placing.append(grasp_plan) #~5. go to predrop_pos plan, qf, plan_possible = generatePlan(q_initial, predrop_pos[0:3], drop_pose[3:7], tip_hand_transform, 'superSaiyan', plan_name='predrop_pos') if plan_possible: plans_placing.append(plan) q_initial = qf else: return compose_output() #~6. go to final pose final_pos = bin_pose[0:3] final_pos[2] = bin_pose[2] + 0.3 plan, qf, plan_possible = generatePlan(q_initial, final_pos, drop_pose[3:7], tip_hand_transform, 'superSaiyan', plan_name='final_pose') if plan_possible: plans_placing.append(plan) q_initial = qf else: return compose_output() #~ Execute plans if plan_possible: if isExecute: executePlanForward(plans, withPause) #We start recording now lasers.start(binId) recorder.start_recording( action='placing', action_id=str( datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")), tote_num=binId, frame_rate_ratio=5, image_size=-1) rospy.set_param('is_record', True) executePlanForward(plans_placing, withPause) rospy.set_param('is_record', False) recorder.stop_recording(save_action=True) lasers.stop(binId) execution_possible = True return compose_output()
def grasp(objInput, listener, br, isExecute=True, objId='expo_eraser', binId=0, withPause=False, viz_pub=None, recorder=None, is_regrasp=False, open_hand=True): ######################################################### # fhogan and nikhilcd # Description: #~2017 picking primitive # #~Usage #~ pick(objInput, listener, br, isExecute = True, objId = 'cheezit_big_original', flag = 1, withPause = False, rel_pose=None, BoxBody=None, place_pose=None, viz_pub=None): # #~Parameters: # #~Inputs: # 1) objInput: Input from vision or RViz (list of 12, or 7) # 2) listener: Input from vision or RViz (list of 12, or 7) # 3) br: Input from vision or RViz (list of 12, or 7) # 4) isExecute: execute the robot motion if possible or not? (Bool) # 5) objId: name of object (str) # 6) binId: bin in which we need to place the objects. (It is useless when flag 0 and 1) # 7) flag: Type of action directed by planning (0:run picking, 1:go to home (camera), 2: drop the object at target location) # 8) withPause: Pause between robot motions (Bool) # 9) rel_pose: object pose relative to link_6 # 10) BoxBody: Bounding box points resolved in link 6 frame # 11) place_pose: desired position of bounding box # 12) viz_pub: desired position of bounding box # #~Output: # Dictionary of following keys: # 1) grasp_possible: Does the object fit in the hand? (True/False) # 2) plan_possible: Has the plan succeeded? (True/False) # 3) execution_possible: Is there anything in the grasp? (True/False) # 4) gripper_opening: gripper opening after grasp attempt (in meters) # 5) graspPose: pose of the gripper at grasp (7X1 - position and quaternion) # 6) gelsight_data: [] , dummy for now ######################################################### #rospy.logdebug(msg, *args) #rospy.loginfo(msg, *args) #rospy.logwarn(msg, *args) #rospy.logerr(msg, *args) #rospy.logfatal(msg, *args) ############################### ## Pring input variables for ## ############################### rospy.logdebug('[Picking] objInput %s', objInput) rospy.logdebug('[Picking] objId %s', objId) rospy.logdebug('[Picking] withPause %s', withPause) ######################## ## Initialize values ## ######################## q_initial = ik.helper.get_joints() bin_pose = ik.helper.get_params_yaml('bin' + str(binId) + '_pose') spatula_tip_to_tcp_dist = rospy.get_param( "/gripper/spatula_tip_to_tcp_dist") delta_vision_pose = ik.helper.get_params_yaml('vision_pose_picking') vision_pos = np.array(bin_pose[0:3]) + np.array(delta_vision_pose[0:3]) plans = [] plans_grasping = [] plans_grasping2 = [] plans_guarded = [] plans_guarded2 = [] plans_placing = [] plans_placing2 = [] graspPos = [] plan_possible = False execution_possible = False gripper_opening = 0.0 grasp_possible = True gelsight_data = [] collision = False final_object_pose = None rospy.set_param('is_record', False) rospy.set_param('is_contact', False) def compose_output(): return { 'collision': collision, 'grasp_possible': grasp_possible, 'plan_possible': plan_possible, 'execution_possible': execution_possible, 'gripper_opening': gripper_opening, 'graspPos': graspPos, 'gelsight_data': gelsight_data, 'final_object_pose': final_object_pose } ######################### ## Constant parameters ## ######################### UpdistFromBinFast = 0.15 # Margin above object during "move to a location" UpdistFromBinGuarded = 0.05 # Margin above object during "move to a location" gripperOriHome = [0, 1, 0, 0] l1 = 0.0 l2 = 0.0 l3 = spatula_tip_to_tcp_dist tip_hand_transform = [l1, l2, l3, 0, 0, 0] vision_pos[2] = 0.17786528 ############################### ## Picking primitive ## ############################### # ik.visualize_helper.visualize_grasping_proposals(viz_pub, np.asarray([objInput]), listener, br, False) #~Define reference frames world_X, world_Y, world_Z, tote_X, tote_Y, tote_Z, tote_pose_pos = ik.helper.reference_frames( listener=listener, br=br) #~get grasp pose and gripper opening from vision if len(objInput) == 12: graspPos, hand_X, hand_Y, hand_Z, grasp_width = ik.helper.get_picking_params_from_12( objInput) if not is_regrasp: graspPos = graspPos - hand_X * 0.015 * 1 elif len(objInput) == 7: graspPos, hand_X, hand_Y, hand_Z, grasp_width = ik.helper.get_picking_params_from_7( objInput, objId, listener, br) #frank hack for stationary spatula: grasp_width = 0.11 #~build gripper orientation matrix 3x3 hand_orient_norm = np.vstack([hand_X, hand_Y, hand_Z]) hand_orient_norm = hand_orient_norm.transpose() #~Grasp relocation script hand_orient_quat = ik.helper.mat2quat(hand_orient_norm) euler = tf.transformations.euler_from_quaternion(hand_orient_quat) theta = euler[2] - np.pi colFreePose = collisionFree(graspPos, binId=binId, listener=listener, br=br, finger_opening=grasp_width, safety_margin=0.00, theta=theta) graspPos[0:2] = colFreePose[0:2] ################################# ## GENERATE PLANS OF PRIMITIVE ## #################################. #~ Start from home position # if isExecute: # q_initial = collision_free_placing(binId, listener, isSuction = False, with_object = False, hand_orientation=[0,1,0,0], projected_target_position = bin_pose[0:3], isReturn = True) # scorpion.back() #~0. Move to a location above the bin, Rotate gripper to grasp orientation pregrasp_targetPosition = graspPos pregrasp_targetPosition[2] = bin_pose[2] + UpdistFromBinFast - 0.1 plan, qf, plan_possible = generatePlan(q_initial, pregrasp_targetPosition, hand_orient_quat, tip_hand_transform, 'superSaiyan', plan_name='go_safe_bin') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() #~1. Move to to surface of bin pregrasp_targetPosition[2] = bin_pose[2] + UpdistFromBinGuarded - 0.1 plan, qf, plan_possible = generatePlan(q_initial, pregrasp_targetPosition, hand_orient_quat, tip_hand_transform, 'superSaiyan', plan_name='go_top_bin') if plan_possible: plans.append(plan) q_initial = qf else: return compose_output() if open_hand: #~2. Open gripper grasp_plan = EvalPlan('helper.moveGripper(%f, 200)' % grasp_width) plans.append(grasp_plan) #~ 3. Open spatula grasp_plan = EvalPlan('spatula.open()') plans.append(grasp_plan) grasp_targetPosition = deepcopy(graspPos) # rospy.loginfo('[Picking] Grasp Target %s', grasp_targetPosition) #~4. sleep sleep_plan = EvalPlan('rospy.sleep(0.2)') plans.append(sleep_plan) #~5. perform guarded move down grasp_targetPosition[2] = bin_pose[2] - rospy.get_param( '/tote/height') + 0.015 #~frank hack for safety plan, qf, plan_possible = generatePlan(q_initial, grasp_targetPosition, hand_orient_quat, tip_hand_transform, 'faster', guard_on=WeightGuard(binId, threshold=140), plan_name='guarded_pick') if plan_possible: plans_guarded.append(plan) q_initial = qf else: return compose_output() #~7. Close spatula grasp_plan = EvalPlan('spatula.close()') plans_guarded2.append(grasp_plan) #~8. Close gripper grasp_plan = EvalPlan('helper.graspinGripper(%f,%f)' % (800, 30)) plans_guarded2.append(grasp_plan) #~9. sleep sleep_plan = EvalPlan('rospy.sleep(0.6)') plans_guarded2.append(sleep_plan) #~10. Move to a location above the bin # plan, qf, plan_possible = generatePlan(q_initial, vision_pos, delta_vision_pose[3:7], tip_hand_transform, 'fastest', plan_name = 'retrieve_object') # if plan_possible: # plans_grasping.append(plan) # q_initial = qf # else: # return compose_output() ################ ## EXECUTION ### ################ if isExecute and plan_possible: executePlanForward(plans, withPause) ###We start recording now if recorder is not None: lasers.start(binId) recorder.start_recording( action='grasping', action_id=str( datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S")), tote_num=binId, frame_rate_ratio=5, image_size=-1) #Execute guarded move rospy.set_param('is_record', True) executePlanForward(plans_guarded, withPause) if rospy.get_param('is_contact'): ik.helper.move_cart(dz=0.005) executePlanForward(plans_guarded2, withPause) rospy.set_param('is_record', False) elif not isExecute: execution_possible = plan_possible return compose_output()