def scorbotoff(b_1, epout, epin, buffer, cola_read): media = libdef.get_media(buffer, cola_read.get()) for i in range(1, 12): cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena += libhex.get_scorbotoff(i) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) b_1 = libsync.send_wait(b_1, epout, epin, buffer) cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 8) cadena += libhex.get_msg1(4) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 8) cadena += libhex.get_msg1(2) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer, media) cola_read.put(media)
def send_pkt3(b_1,epout,epin,buffer, media): for i in range(40): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) media = libdef.get_media(buffer,media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena,24) media = libdef.get_media(buffer,media) cadena += libdef.get_encoder(buffer,media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) for i in range(1,8): cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 8) cadena += libhex.motorson(i) cadena = libdef.fill_msg(cadena,24) media = libdef.get_media(buffer,media) cadena += libdef.get_encoder(buffer,media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) return b_1
def send_wait(b_1,epout,epin,buffer): while buffer[1] != 13: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) return b_1
def send_pkt1(b_1,epout,epin,buffer): while b_1 < 4: cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 8) msg = libhex.get_msg1(b_1) cadena += msg libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) return b_1
def move_hips(b_1, epout, epin, buffer, orden, cola_read, cola_orden, vel, ang): write = conf.readData("cadera", "write") read = conf.readData("cadera", "read") media = cola_read.get() [b_1, buffer, media] = libdef.openMov(b_1, media, epout, epin, buffer, write, read) ang = libdef.conversorAngEnc(1, 1, ang) ite = libdef.numIte(ang, vel) step_in = media[0] signo = libdef.get_signo(21, buffer) dato_in = [step_in, signo] signal_out = '' for i in range(ite): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, i, ite, orden, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) value_err = libdef.getError(buffer, VEC_ERROR[0]) if value_err >= MAX_ERROR: print("Limite articulacion") cola_orden.put(1) logging.warning(libdef.error_msg(1)) break media = libdef.get_media(buffer, media) #Control de error cont = 0 while abs(dato_in[0] - media[0]) > 20 and value_err < MAX_ERROR: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) if cont == 100: print("Error en el while") cola_orden.put(2) logging.warning(libdef.error_msg(2)) break cont += 1 [b_1, buffer, media] = libdef.closeMov(b_1, media, orden, signal_out, epout, epin, buffer, write, read) cola_read.put(media) return b_1
def motors_on(b_1, epout, epin, buffer, cola_read): media = libdef.get_media(buffer, cola_read.get()) for i in range(1, 8): cadena = libhex.mov_comm(6) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 8) cadena += libhex.motorson(i) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) cola_read.put(media) return b_1
def syncro(cola_sync, cola_read, epout, epin, buffer): while 1: b_1 = cola_sync.get() if b_1 == conf.readData("general","EXIT"): break if b_1 == 256: time.sleep(READ) else: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer,cola_read.get()) cadena += libdef.get_encoder(buffer,media) libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer,media) cola_read.put(media) cola_sync.put(b_1)
def clamp(b_1, epout, epin, buffer, orden, cola_read): write = conf.readData("pinza", "write") read = conf.readData("pinza", "read") vel = conf.readData("pinza", "vel") media = cola_read.get() for i in range(1, 4): cadena = libhex.clamp(i) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in = media[5] signo = libdef.get_signo(46, buffer) dato_in = [step_in, signo] signal_out = '' ite = conf.readData("pinza", "ite_clamp") for i in range(ite): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, i, ite, orden, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) for _ in range(15): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in[0] - media[5]) == 0: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) if cont == 100: print("ERROR: La articulación no responde") cola_orden.put( 1) #Introduce codigo de error en la ejecucion de la orden logging.warning(libdef.error_msg(1)) break cont += 1 media = libdef.get_media(buffer, media) cadena = libhex.clamp(4) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cadena = libhex.clamp(5) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cola_read.put(media) return b_1
def move_wrist(b_1, epout, epin, buffer, orden, cola_read, cola_orden, vel, ang): write = conf.readData("wrist", "write") read = conf.readData("wrist", "read") media = cola_read.get() [b_1, buffer, media] = libdef.openMov(b_1, media, epout, epin, buffer, write, read) if orden == 10 or orden == 11: ang = libdef.conversorAngEnc(4, 1, ang) ite = libdef.numIte(ang, vel) else: ang = libdef.conversorAngEnc(5, 1, ang) ite = libdef.numIte(ang, vel) step_in_1 = media[3] step_in_2 = media[4] signo_1 = libdef.get_signo(36, buffer) signo_2 = libdef.get_signo(41, buffer) dato_in_1 = [step_in_1, signo_1] dato_in_2 = [step_in_2, signo_2] signal_out = '' for i in range(ite): siguiente_1 = libdef.transform( [buffer[VEC_POS[3]], buffer[VEC_POS[3] + 1]]) siguiente_2 = libdef.transform( [buffer[VEC_POS[4]], buffer[VEC_POS[4] + 1]]) cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) if orden == 10: dato_in_1 = libdef.resta(dato_in_1, i + 1, vel, ite) dato_in_2 = libdef.suma(dato_in_2, i + 1, vel, ite) elif orden == 11: dato_in_1 = libdef.suma(dato_in_1, i + 1, vel, ite) dato_in_2 = libdef.resta(dato_in_2, i + 1, vel, ite) elif orden == 12: dato_in_1 = libdef.suma(dato_in_1, i + 1, vel, ite) dato_in_2 = libdef.suma(dato_in_2, i + 1, vel, ite) elif orden == 13: dato_in_1 = libdef.resta(dato_in_1, i + 1, vel, ite) dato_in_2 = libdef.resta(dato_in_2, i + 1, vel, ite) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) value_err1 = libdef.getError(buffer, VEC_ERROR[3]) value_err2 = libdef.getError(buffer, VEC_ERROR[4]) if value_err1 >= MAX_ERROR or value_err2 >= MAX_ERROR: print("Limite articulacion") cola_orden.put( 1) #Introduce codigo de error en la ejecucion de la orden logging.warning(libdef.error_msg(1)) break media = libdef.get_media(buffer, media) cont = 0 while ( abs(dato_in_1[0] - media[3]) > 20 or abs(dato_in_2[0] - media[4]) > 20 ) and value_err1 < MAX_ERROR and value_err2 < MAX_ERROR: #cambia media segun articulacion cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(orden, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) if cont == 100: print("ERROR: La articulación no responde") cola_orden.put( 2) #Introduce codigo de error en la ejecucion de la orden logging.warning(libdef.error_msg(2)) break cont += 1 [b_1, buffer, media] = libdef.closeMov(b_1, media, orden, signal_out, epout, epin, buffer, write, read) cola_read.put(media) return b_1
def homing(b_1, epout, epin, buffer, cola_read, cola_orden): status = 0 block = False sw = libdef.get_switch(SW_SHOULDER, buffer[5]) media = cola_read.get() signal_out = '' logging.info(libdef.info_text(5)) #Comprueba hombro en su sitio if sw == True: sw = True else: #muevo el hombro write = conf.readData("hombro", "write") vel = conf.readData("hombro", "h_vel") read = conf.readData("hombro", "read") cadena = libhex.mov_comm(2) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in = media[1] signo = libdef.get_signo(26, buffer) dato_in = [step_in, signo] cont_vel = 0 while (sw == False): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 6, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) sw = libdef.get_switch(SW_SHOULDER, buffer[5]) value_err = libdef.getError(buffer, VEC_ERROR[1]) if value_err >= MAX_ERROR: block = True print("Limite articulacion") cola_orden.put(1) logging.warning(libdef.error_msg(1)) break if cont_vel < 12: cont_vel += 1 if block == True: cola_read.put(media) status = 1 return [b_1, status] #Realiza la frenada controlada cont_vel = 88 for i in range(12): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 6, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in[0] - media[1]) > 20: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(6, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont += 1 if cont == 100: print("ERROR: La articulación no responde") cola_orden.put(2) logging.warning(libdef.error_msg(2)) block = True break [b_1, buffer, media] = libdef.closeMov(b_1, media, 6, signal_out, epout, epin, buffer, write, read) logging.info(libdef.info_text(18)) if block == True: cola_read.put(media) status = 1 return [b_1, status] #transicion entre articulaciones for i in range(20): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += msg libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer, media) #Compruebo codo sw = libdef.get_switch(SW_ELBOW, buffer[5]) if sw == True: sw = True else: #muevo el codo write = conf.readData("codo", "write") vel = conf.readData("codo", "h_vel") read = conf.readData("codo", "read") cadena = libhex.mov_comm(2) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in = media[2] signo = libdef.get_signo(31, buffer) dato_in = [step_in, signo] cont_vel = 0 while (sw == False): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 8, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) sw = libdef.get_switch(SW_ELBOW, buffer[5]) value_err = libdef.getError(buffer, VEC_ERROR[2]) if value_err >= MAX_ERROR: print("Limite articulacion") cola_orden.put(1) logging.warning(libdef.error_msg(1)) block = True break if cont_vel < 12: cont_vel += 1 if block == True: cola_read.put(media) status = 1 return [b_1, status] #Realiza la frenada controlada cont_vel = 88 for i in range(12): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 8, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in[0] - media[2]) > 20 and block != True: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(8, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont += 1 if cont == 100: block = True cola_orden.put(2) logging.warning(libdef.error_msg(2)) print("ERROR: La articulación no responde") break [b_1, buffer, media] = libdef.closeMov(b_1, media, 8, signal_out, epout, epin, buffer, write, read) logging.info(libdef.info_text(19)) if block == True: cola_read.put(media) status = 1 return [b_1, status] #transicion entre articulaciones for i in range(20): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += msg libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer, media) #Combruebo pitch sw = libdef.get_switch(SW_PITCH, buffer[5]) if sw == True: sw = True else: #muevo pitch write = conf.readData("wrist", "write") vel = conf.readData("wrist", "h_vel") read = conf.readData("wrist", "read") cadena = libhex.mov_comm(2) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in_1 = media[3] step_in_2 = media[4] signo_1 = libdef.get_signo(36, buffer) signo_2 = libdef.get_signo(41, buffer) dato_in_1 = [step_in_1, signo_1] dato_in_2 = [step_in_2, signo_2] cont_vel = 0 while (sw == False): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.suma(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) sw = libdef.get_switch(SW_PITCH, buffer[5]) value_err1 = libdef.getError(buffer, VEC_ERROR[3]) value_err2 = libdef.getError(buffer, VEC_ERROR[4]) if value_err1 >= MAX_ERROR or value_err2 >= MAX_ERROR: print("Limite articulacion") block = True cola_orden.put(1) logging.warning(libdef.error_msg(1)) break if cont_vel < 12: cont_vel += 1 if block == True: cola_read.put(media) status = 1 return [b_1, status] #Ajuste de offset para alinear con la vertical cont_vel = 87 for i in range(60): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.suma(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont_vel += 1 #Realiza la frenada controlada cont_vel = 88 for i in range(12): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.suma(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in_1[0] - media[3]) > 20 or abs(dato_in_2[0] - media[4]) > 20: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont += 1 if cont == 100: block = True cola_orden.put(2) logging.warning(libdef.error_msg(2)) break [b_1, buffer, media] = libdef.closeMov(b_1, media, 10, signal_out, epout, epin, buffer, write, read) logging.info(libdef.info_text(20)) if block == True: cola_read.put(media) status = 1 return [b_1, status] #transicion entre articulaciones for _ in range(20): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += msg libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer, media) #Combruebo roll sw = libdef.get_switch(SW_ROLL, buffer[5]) if sw == True: sw = True else: #muevo roll write = conf.readData("wrist", "write") vel = conf.readData("wrist", "h_vel") read = conf.readData("wrist", "read") cadena = libhex.mov_comm(2) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in_1 = media[3] step_in_2 = media[4] signo_1 = libdef.get_signo(36, buffer) signo_2 = libdef.get_signo(41, buffer) dato_in_1 = [step_in_1, signo_1] dato_in_2 = [step_in_2, signo_2] cont_vel = 0 while (sw == False): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.resta(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) sw = libdef.get_switch(SW_ROLL, buffer[5]) value_err1 = libdef.getError(buffer, VEC_ERROR[3]) value_err2 = libdef.getError(buffer, VEC_ERROR[4]) if value_err1 >= MAX_ERROR or value_err2 >= MAX_ERROR: print("Limite articulacion") block = True cola_orden.put(1) logging.warning(libdef.error_msg(1)) break if cont_vel < 12: cont_vel += 1 if block == True: cola_read.put(media) status = 1 return [b_1, status] #Ajuste de offset para alinear con la horizontal cont_vel = 87 for i in range(60): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.resta(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont_vel += 1 #Realiza la frenada controlada for i in range(12): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) dato_in_1 = libdef.resta(dato_in_1, cont_vel, vel, 100) dato_in_2 = libdef.resta(dato_in_2, cont_vel, vel, 100) signal_out = libdef.detrans(dato_in_1[0]) signal_out += dato_in_1[1] signal_out += libdef.detrans(dato_in_2[0]) signal_out += dato_in_2[1] msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in_1[0] - media[3]) > 20 or abs(dato_in_2[0] - media[4]) > 20: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(10, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont += 1 if cont == 100: block = True cola_orden.put(2) logging.warning(libdef.error_msg(2)) print("ERROR: La articulación no responde") break [b_1, buffer, media] = libdef.closeMov(b_1, media, 10, signal_out, epout, epin, buffer, write, read) logging.info(libdef.info_text(21)) if block == True: cola_read.put(media) status = 1 return [b_1, status] #transicion entre articulaciones for i in range(20): cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += msg libdef.set_msg(cadena, epout, epin, buffer, WRITE, READ) media = libdef.get_media(buffer, media) #Combruebo cadera sw = libdef.get_switch(SW_HIP, buffer[5]) if sw == True: sw = True else: #muevo cadera write = conf.readData("cadera", "write") vel = conf.readData("cadera", "h_vel") read = conf.readData("cadera", "read") cadena = libhex.mov_comm(2) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) media = libdef.get_media(buffer, media) cadena += libdef.get_encoder(buffer, media) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) step_in = media[0] signo = libdef.get_signo(21, buffer) dato_in = [step_in, signo] cont_vel = 0 while (sw == False): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 4, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) sw = libdef.get_switch(SW_HIP, buffer[5]) value_err = libdef.getError(buffer, VEC_ERROR[0]) if value_err >= MAX_ERROR: print("Limite articulacion") block = True cola_orden.put(1) logging.warning(libdef.error_msg(1)) break if cont_vel < 12: cont_vel += 1 if block == True: cola_read.put(media) status = 1 return [b_1, status] #Realiza la frenada controlada cont_vel = 88 for i in range(12): [b_1, cadena, signal_out, dato_in] = libdef.builder(b_1, dato_in, cont_vel - 1, 100, 4, vel, media, buffer) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont = 0 while abs(dato_in[0] - media[0]) > 20: cadena = libhex.mov_comm(1) b_1 = libdef.countByte1(b_1) cadena = cadena.format(libdef.f_byte(b_1)) cadena = libdef.fill_msg(cadena, 24) msg = libdef.get_encoder(buffer, media) cadena += libdef.getStruct(4, signal_out, msg) libdef.set_msg(cadena, epout, epin, buffer, write, read) media = libdef.get_media(buffer, media) cont += 1 if cont == 100: block = True cola_orden.put(2) logging.warning(libdef.error_msg(2)) break [b_1, buffer, media] = libdef.closeMov(b_1, media, 4, signal_out, epout, epin, buffer, write, read) logging.info(libdef.info_text(22)) cola_read.put(media) return [b_1, status]