def scan(): #Ultrasonic Scanning global dis_dir car_dir.dis_home(pwm1) #Ultrasonic point forward car_dir.dis_left(pwm1) #Ultrasonic point Left,prepare to scan dis_dir=['list'] #Make a mark so that the client would know it is a list time.sleep(0.5) #Wait for the Ultrasonic to be in position cat_2=600 #Value of left-position GPIO.setwarnings(False) #Or it may print warnings while cat_2>190: #Scan,from left to right pwm.set_pwm(pwm1, 0, cat_2) cat_2 -= 1 #This value determine the speed of scanning,the greater the faster new_scan_data=round(ultrasonic.checkdist(),2) #Get a distance of a certern direction dis_dir.append(str(new_scan_data)) #Put that distance value into a list,and save it as String-Type for future transmission car_dir.dis_home(pwm1) #Ultrasonic point forward return dis_dir
def run(): while True: print 'waiting for connection...' tcpCliSock, addr = tcpSerSock.accept() print '...connected from :', addr while True: data = '' data = tcpCliSock.recv(BUFSIZ) if not data: continue if data == ctrl_cmd[0]: global spd print 'motor moving forward' motor.motor(status, forward, spd) direction = forward print 'spd = %d' % spd ledon = threading.Thread(target=ledOn) ledon.start() elif data == ctrl_cmd[1]: print 'recv backward cmd' motor.motor(status, backward, spd) direction = backward print 'spd = %d' % spd breathingon = threading.Thread(target=breathingOn) breathingon.start() elif data == ctrl_cmd[2]: print 'recv left cmd' rgbLed.setup(leftRgb) car_dir.dir_left(pwm0) car_dir.dis_left(pwm1) leftrgb = threading.Thread(target=leftrgbCtrl) leftrgb.start() rgbLed.stop(rightRgb) continue elif data == ctrl_cmd[3]: print 'recv right cmd' rgbLed.setup(rightRgb) car_dir.dir_right(pwm0) car_dir.dis_right(pwm1) rightrgb = threading.Thread(target=rightrgbCtrl) rightrgb.start() rgbLed.stop(leftRgb) continue elif data == ctrl_cmd[4]: print 'recv home cmd' car_dir.dir_home(pwm0) car_dir.dis_home(pwm1) rgbLed.stop(rightRgb) rgbLed.stop(leftRgb) leftrgb = Process(target=homeRgbCtrl1) leftrgb.start() rightrgb = Process(target=homeRgbCtrl2) rightrgb.start() continue elif data == ctrl_cmd[5]: print 'recv distance cmd' print 'Distance: %0.2fm' % ultrasonic.checkdist() continue elif data == ctrl_cmd[6]: print 'recv whistle cmd' activeBuzzer.loop() continue elif data == ctrl_cmd[7]: print 'recv stop cmd' setup() motor.motorStop() breathingLed.stop(b_LedPin) rgbLed.stop(leftRgb) rgbLed.stop(rightRgb) activeBuzzer.stop() GPIO.cleanup() setup() continue elif data == ctrl_cmd[8]: print 'recv exit cmd' GPIO.cleanup() tcpSerSock.close() os.system('sudo init 0') elif data == ctrl_cmd[9]: print 'recev auto cmd' auto = threading.Thread(target=autoMode) auto.start() continue elif data[0:5] == 'speed': print 'recv speed cmd' numLen = len(data) - len('speed') if numLen == 1 or numLen == 2 or numLen == 3: tmp = data[-numLen:] print 'tmp(str) = %s' % tmp spd = int(tmp) print 'spd(int) = %d' % spd print 'direction = %d' % direction if spd < minspd: spd = minspd elif spd > maxspd: spd = maxspd motor.motor(status, direction, spd) continue else: print 'Command Error! Cannot recongnize command: ' + data
def loop(): car_dir.dis_home(pwm1) #Ultrasound initial position time.sleep(0.5) a = ultrasonic.checkdist() #Get the ultrasonic detection distance b = ultrasonic.checkdist() #Get the ultrasonic detection distance c = ultrasonic.checkdist() #Get the ultrasonic detection distance homedis = min(a, b, c) #Get the ultrasonic detection distance print('homedis = %0.2f m' % homedis) motor.motorStop() #Stop the car if homedis > dis: #No obstacles motor.motor(status, forward, b_spd) motor.motor1(status, forward, t_spd) elif homedis < dis: #Obstacles car_dir.dis_left(pwm1) time.sleep(1) a = ultrasonic.checkdist() b = ultrasonic.checkdist() c = ultrasonic.checkdist() leftdis = min(a, b, c) print('leftdis = %0.2f m' % leftdis) car_dir.dis_right(pwm1) time.sleep(1) a = ultrasonic.checkdist() b = ultrasonic.checkdist() c = ultrasonic.checkdist() rightdis = min(a, b, c) print('rightdis = %0.2f m' % rightdis) if leftdis < dis and rightdis < dis: #Judgment left and right if leftdis >= rightdis: #There are obstacles on the right motor.motor(status, backward, b_spd) #motor.motor(status,backward,left) #motor.motor1(status,backward,t_spd) motor.motor1(status, backward, right) time.sleep(1) motor.motor(status, forward, left) motor.motor1(status, forward, b_spd) time.sleep(0.5) else: #There are obstacles on the left motor.motor(status, backward, left) motor.motor1(status, backward, t_spd) time.sleep(1) motor.motor(status, forward, b_spd) motor.motor1(status, forward, right) time.sleep(0.5) elif leftdis > dis and rightdis <= dis: #There are obstacles on the right if homedis < mindis: #Obstacle ahead motor.motor(status, backward, b_spd) motor.motor1(status, backward, t_spd) time.sleep(1) motor.motor(status, forward, left) motor.motor1(status, forward, b_spd) time.sleep(0.5) else: #No obstacle ahead motor.motor(status, forward, left) motor.motor1(status, forward, b_spd) time.sleep(0.5) elif rightdis > dis and leftdis <= dis: #There are obstacles on the left if homedis < mindis: #Obstacle ahead motor.motor(status, backward, b_spd) motor.motor1(status, backward, t_spd) time.sleep(1) motor.motor(status, forward, b_spd) motor.motor1(status, forward, right) time.sleep(0.5) else: #No obstacle ahead motor.motor(status, forward, b_spd) motor.motor1(status, forward, right) time.sleep(0.5) elif rightdis > dis and leftdis > dis: #There are no obstacles if rightdis > leftdis: #The distance to the right is greater than the left if homedis < mindis: #Obstacle ahead motor.motor(status, backward, b_spd) motor.motor1(status, backward, t_spd) time.sleep(1) motor.motor(status, forward, b_spd) motor.motor1(status, forward, right) time.sleep(0.5) else: #No obstacle ahead motor.motor(status, forward, b_spd) motor.motor1(status, forward, right) time.sleep(0.5) elif rightdis < leftdis: #The distance to the left is greater than the right if homedis < mindis: #Obstacle ahead motor.motor(status, backward, b_spd) motor.motor1(status, backward, t_spd) time.sleep(1) motor.motor(status, forward, left) motor.motor1(status, forward, b_spd) time.sleep(0.5) else: #NO Obstacle ahead motor.motor(status, forward, left) motor.motor1(status, forward, b_spd) time.sleep(0.5) elif leftdis == rightdis: motor.motor(status, backward, b_spd) motor.motor1(status, backward, t_spd) time.sleep(1)
def loop(): while True: while True: car_dir.dis_home(pwm1) car_dir.dir_home(pwm0) time.sleep(0.5) homedis = ultrasonic.checkdist() print 'homedis = %0.2f m' %homedis motor.motorStop() if homedis > dis: motor.motor(status, forward, f_spd) break elif homedis < dis: car_dir.dis_left(pwm1) time.sleep(0.5) leftdis = ultrasonic.checkdist() print 'leftdis = %0.2f m' %leftdis car_dir.dis_right(pwm1) time.sleep(0.5) rightdis = ultrasonic.checkdist() print 'rightdis = %0.2f m' %rightdis if leftdis < dis and rightdis < dis: if leftdis >= rightdis: motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_left(pwm0) motor.motor(status, backward, b_spd) time.sleep(1) break else: motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_right(pwm0) motor.motor(status, backward, b_spd) time.sleep(1) break elif leftdis > dis and rightdis <= dis: if homedis < mindis: motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_left(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break else: car_dir.dir_left(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break elif rightdis > dis and leftdis <= dis: if homedis < mindis: car_dir.dir_left(pwm0) motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_right(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break else: car_dir.dir_right(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break elif rightdis > dis and leftdis > dis: if rightdis > leftdis: if homedis < mindis: motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_right(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break else: car_dir.dir_right(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break elif rightdis < leftdis: if homedis < mindis: motor.motor(status, backward, b_spd) time.sleep(1) car_dir.dir_left(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break else: car_dir.dir_left(pwm0) motor.motor(status, forward, f_spd) time.sleep(1.5) break elif leftdis == rightdis: motor.motor(status, backward, b_spd) time.sleep(1) break