#!/usr/bin/env python # coding: Latin-1 cleanGlobals = globals().copy() cleanLocals = locals().copy() # Load library functions we want import time import os import sys import pygame import PicoBorgRev import RPi.GPIO as GPIO GPIO.setmode(GPIO.BCM) GPIO.cleanup() GPIO.setwarnings(False) GPIO.setup(17,GPIO.OUT) # Re-direct our output to standard error, we need to ignore standard out to hide some nasty print statements from pygame sys.stdout = sys.stderr # Setup the PicoBorg Reverse PBR = PicoBorgRev.PicoBorgRev() #PBR.i2cAddress = 0x44 # Uncomment and change the value if you have changed the board address PBR.Init() if not PBR.foundChip: boards = PicoBorgRev.ScanForPicoBorgReverse() if len(boards) == 0: print 'No PicoBorg Reverse found, check you are attached :)' else: print 'No PicoBorg Reverse at address %02X, but we did find boards:' % (PBR.i2cAddress) for board in boards: print ' %02X (%d)' % (board, board) print 'If you need to change the I²C address change the setup line so it is correct, e.g.' print 'PBR.i2cAddress = 0x%02X' % (boards[0]) sys.exit() #PBR.SetEpoIgnore(True) # Uncomment to disable EPO latch, needed if you do not have a switch / jumper # Ensure the communications failsafe has been enabled! failsafe = False for i in range(5): PBR.SetCommsFailsafe(True) failsafe = PBR.GetCommsFailsafe() if failsafe: break if not failsafe: print 'Board %02X failed to report in failsafe mode!' % (PBR.i2cAddress) sys.exit() PBR.ResetEpo() # Settings for the joystick axisUpDown = 1 # Joystick axis to read for up / down position axisUpDownInverted = False # Set this to True if up and down appear to be swapped axisLeftRight = 2 # Joystick axis to read for left / right position axisLeftRightInverted = False # Set this to True if left and right appear to be swapped buttonResetEpo = 3 # Joystick button number to perform an EPO reset (Start) buttonSlow = 8 # Joystick button number for driving slowly whilst held (L2) slowFactor = 0.5 # Speed to slow to when the drive slowly button is held, e.g. 0.5 would be half speed buttonFastTurn = 9 # Joystick button number for turning fast (R2) buttonLedon = 14 # Joystick button to turn an led on buttonLedoff = 15 # Joystick button to turn an led off buttonArmScript = 16 # Joystick button to change to arm script interval = 0.00 # Time between updates in seconds, smaller responds faster but uses more processor time # Power settings voltageIn = 12.0 # Total battery voltage to the PicoBorg Reverse voltageOut = 6.0 # Maximum motor voltage # Setup the power limits if voltageOut > voltageIn: maxPower = 1.0 else: maxPower = voltageOut / float(voltageIn) # Setup pygame os.environ["SDL_VIDEODRIVER"] = "dummy" # Removes the need to have a GUI window pygame.init() pygame.joystick.init() joystick = pygame.joystick.Joystick(0) joystick.init() try: print 'Press CTRL+C to quit' driveLeft = 0.0 driveRight = 0.0 running = True hadEvent = False upDown = 0.0 leftRight = 0.0 # Loop indefinitely while running: # Get the latest events from the system hadEvent = False events = pygame.event.get() # Handle each event individually for event in events: if event.type == pygame.QUIT: # User exit running = False elif event.type == pygame.JOYBUTTONDOWN: # A button on the joystick just got pushed down hadEvent = True if event.button == buttonArmScript: # stop moving driveLeft = 0.0 driveRight = 0.0 PBR.MotorsOff() # Run the arm control script execfile('./robotic-arm-ps3.py', cleanGlobals.copy(), cleanLocals.copy()) # Jump to the next control input break elif event.type == pygame.JOYAXISMOTION: # A joystick has been moved hadEvent = True if hadEvent: # Read axis positions (-1 to +1) if axisUpDownInverted: upDown = -joystick.get_axis(axisUpDown) else: upDown = joystick.get_axis(axisUpDown) if axisLeftRightInverted: leftRight = -joystick.get_axis(axisLeftRight) else: leftRight = joystick.get_axis(axisLeftRight) # Apply steering speeds if not joystick.get_button(buttonFastTurn): leftRight *= 0.5 # Determine the drive power levels driveLeft = -upDown driveRight = -upDown if leftRight < -0.05: # Turning left driveLeft *= 1.0 + (2.0 * leftRight) elif leftRight > 0.05: # Turning right driveRight *= 1.0 - (2.0 * leftRight) # Check for button presses if joystick.get_button(buttonResetEpo): PBR.ResetEpo() if joystick.get_button(buttonSlow): driveLeft *= slowFactor driveRight *= slowFactor if joystick.get_button(buttonLedon): GPIO.output(17,GPIO.HIGH) if joystick.get_button(buttonLedoff): GPIO.output(17,GPIO.LOW) # Set the motors to the new speeds PBR.SetMotor1(driveRight * maxPower) PBR.SetMotor2(-driveLeft * maxPower) # Change the LED to reflect the status of the EPO latch PBR.SetLed(PBR.GetEpo()) # Wait for the interval period time.sleep(interval) # Disable all drives PBR.MotorsOff() except KeyboardInterrupt: # CTRL+C exit, disable all drives PBR.MotorsOff() print