def backward_flow_haptic(): ### defining in/out address/mode address_rx = ms_com_bwd_flow_haptic_entry_addr address_tx = ms_com_bwd_flow_haptic_exit_addr mode_rx = ms_com_bwd_flow_haptic_entry_mode mode_tx = ms_com_bwd_flow_haptic_exit_mode ### initialization obj_tx = transfers.init_tx(address_tx, mode_tx) obj_rx = transfers.init_rx(address_rx, mode_rx) while (1): print "live_mscom_bwd_haptic", time.time() ### receive message msg = transfers.receive(obj_rx) ### decode the message msg_list = codec.generic.decode(msg) print "force feedback", msg_list ### code message msg = codec.generic.codev2(msg, msg_list) ### send message transfers.send(obj_tx, msg) transfers.close(obj_tx) transfers.close(obj_rx) return
def backward_flow_haptic(): ### defining in/out address/mode address_rx = server_bwd_flow_haptic_entry_addr address_tx = server_bwd_flow_haptic_exit_addr mode_rx = server_bwd_flow_haptic_entry_mode mode_tx = server_bwd_flow_haptic_exit_mode ### initialization obj_tx = transfers.init_tx(address_tx, mode_tx) obj_rx = transfers.init_rx(address_rx, mode_rx) while (1): print "live_srv_bwd", time.time() ### receive message msg = transfers.receive(obj_rx) ### decode the messasge msg_list = codec.generic.decode( msg) # msg_list = [force-sensor-1-data, force-sensor-2-data] ### encode the message msg = codec.generic.codev2(msg, msg_list) ### send the message transfers.send(obj_tx, msg) transfers.close(obj_tx) transfers.close(obj_rx) return
def backward_flow_haptic(): ### defining in/out address/mode address_rx = ss_com_bwd_flow_haptic_entry_addr address_tx = ss_com_bwd_flow_haptic_exit_addr mode_rx = ss_com_bwd_flow_haptic_entry_mode mode_tx = ss_com_bwd_flow_haptic_exit_mode ### initialization obj_tx = transfers.init_tx(address_tx, mode_tx) obj_rx = transfers.init_rx(address_rx, mode_rx) while (1): print "live_sscom_bwd", time.time() ### receive message msg = transfers.receive(obj_rx) ping.echo_back(msg, "tpf_ss_embsys_entry") #ss_embsys tp's ping.echo_back(msg, "tpf_ss_embsys_exit") ping.echo_back(msg, "tpb_ss_embsys_entry") ping.echo_back(msg, "tpb_ss_embsys_exit") ping.echo_back(msg, "tpb_sscom_bwd_entry") ### send message transfers.send(obj_tx, msg) ping.echo_back(msg, "tp_sscom_bwd_exit") transfers.close(obj_tx) transfers.close(obj_rx) return
def forward_flow_kinematic(): ### defining in/out address/mode address_rx = ss_com_fwd_flow_kinematic_entry_addr address_tx = ss_com_fwd_flow_kinematic_exit_addr mode_rx = ss_com_fwd_flow_kinematic_entry_mode mode_tx = ss_com_fwd_flow_kinematic_exit_mode ### initialization obj_tx = transfers.init_tx(address_tx,mode_tx) obj_rx = transfers.init_rx(address_rx,mode_rx) while (1): print "live_sscom_fwd",time.time() ### receive message msg = transfers.receive(obj_rx) ping.echo_back_rev2(msg,"tpf_ss_com_entry",address_rx) ### decode message msg_list = codec.generic.decode(msg) ### encode message msg = codec.generic.codev2(msg,msg_list) ### send to tactile slave transfers.send(obj_tx,msg) ping.echo_back_rev2(msg,"tpf_ss_com_exit",address_rx) transfers.close(obj_tx) transfers.close(obj_rx) return
def forward_flow_kinematic(): ### defining in/out address/mode address_rx = server_fwd_flow_kinematic_entry_addr address_tx = server_fwd_flow_kinematic_exit_addr mode_rx = server_fwd_flow_kinematic_entry_mode mode_tx = server_fwd_flow_kinematic_exit_mode ### initialization obj_tx = transfers.init_tx(address_tx, mode_tx) obj_rx = transfers.init_rx(address_rx, mode_rx) while (1): print "live_srv_fwd", time.time() ### receive message msg = transfers.receive(obj_rx) ping.echo_back_rev2(msg, "tpf_srv_entry", address_rx) ### decode message msg_list = codec.generic.decode(msg) #msg_list:(x,y,z, pitch, pincher) ping.echo_back_rev2(msg, "tpf_srv_1", address_rx) ### run kinematics algorithm (here) msg_list = algorithms.kinematics.mouse_controller.revGeneric( msg_list) # msg-list: (x,y,z,pitch=0,pincher) ping.echo_back_rev2(msg, "tpf_srv_2", address_rx) ### run inverse kinematics algorithm msg_list = algorithms.inverse_kinematics.vrepPhantomX.py_fsolve( msg_list) #msg_list:(joint1, joint2, joint3, joint4, gripperPos) ping.echo_back_rev2(msg, "tpf_srv_3", address_rx) ### code the message msg = codec.generic.codev2(msg, msg_list) ping.echo_back_rev2(msg, "tpf_srv_4", address_rx) ### send message transfers.send(obj_tx, msg) ping.echo_back_rev2(msg, "tpf_srv_exit", address_rx) transfers.close(obj_tx) transfers.close(obj_rx) return
if (scroll < 0): scroll = 0 else: scroll = scroll + 1 if (scroll > 25): scroll = 25 print axis_x, axis_y, axis_z, button_left, button_right, scroll msg = message_format(axis_x, axis_y, axis_z, button_left, button_right, scroll) transfers.send(obj_tx, msg) if __name__ == '__main__': # defining tx address/mode address_tx = (ms_com_ip, kin_link_0) mode_tx = "udp" # initialize obj_tx = transfers.init_tx(address_tx, mode_tx) # collect events until released with mouse.Listener(on_move=on_move, on_click=on_click, on_scroll=on_scroll) as listener: listener.join() # exit transfers.close(obj_tx)
def vrepControl(): dataForce = 0 ### defining in/out address/mode address_rx = (ss_embsys_app_ip, kin_link_3) address_tx = (ss_com_ip, hap_link_0) mode_rx = "udp" mode_tx = "udp" ### initialization obj_rx = transfers.init_rx(address_rx, mode_rx) obj_tx = transfers.init_tx(address_tx, mode_tx) while (1): print "vrepControl", time.time() ### receive message msg = transfers.receive(obj_rx) ping.echo_back(msg, "tpf_ss_embsys_entry") #ss_embsys tp's ### decode message msg_list = codec.generic.decode(msg) print msg_list ### moving actuators msg_list = map(int, msg_list) print "received", msg_list jointAngle1 = msg_list[0] jointAngle2 = msg_list[1] jointAngle3 = msg_list[2] jointAngle4 = msg_list[3] gripperPosition = msg_list[4] #0-100, Full Close=0, Full Open = 100 errorcode = vrep.simxSetJointTargetPosition(clientID, jointHandle_1, jointAngle1 * 3.14 / 180, vrep.simx_opmode_streaming) errorcode = vrep.simxSetJointTargetPosition(clientID, jointHandle_2, jointAngle2 * 3.14 / 180, vrep.simx_opmode_streaming) errorcode = vrep.simxSetJointTargetPosition(clientID, jointHandle_3, jointAngle3 * 3.14 / 180, vrep.simx_opmode_streaming) errorcode = vrep.simxSetJointTargetPosition(clientID, jointHandle_4, jointAngle4 * 3.14 / 180, vrep.simx_opmode_streaming) errorcode = vrep.simxSetIntegerSignal(clientID, 'PhantomXPincher_gripperClose', gripperPosition, vrep.simx_opmode_oneshot) ### reading haptic data [errorcode, dataForce] = vrep.simxGetJointForce(clientID, jointHandle_4, vrep.simx_opmode_streaming) dataForce = -1 * dataForce ### Restricting pressure between 0 and 100 if (dataForce < 0): dataForce = 0 if (dataForce > 100): dataForce = 100 dataForce = int(100 * dataForce) print "force", dataForce ### coding haptic data msg_list = [dataForce] msg = codec.generic.codev2(msg, msg_list) ### send the message transfers.send(obj_tx, msg) ping.echo_back(msg, "tpf_ss_embsys_exit") transfers.close(obj_tx) transfers.close(obj_rx) return