def init(self, pins):
wiringpi2.wiringPiSetup()
self._pins = set(pins)
Log('Setting pins %s to output mode...' % list(self._pins))
for i in self._pins:
wiringpi2.pinMode(i, PINMODE_OUTPUT)
Log("Done.")
def fancontrol(input):
import wiringpi2 as wiringpi
OUTPUT = 1
INPUT = 0
wiringpi.wiringPiSetup()
wiringpi.pinMode(8,OUTPUT)
wiringpi.digitalWrite(8,input)
def test():
pin = 0
gpio.wiringPiSetup() #初始化
gpio.wiringPiSetupSys() #初始化
gpio.pinMode(pin, GPIO.OUTPUT) # 把pin25设置为输出模式
gpio.digitalWrite(pin, GPIO.HIGH) #pin25输出为高电平
print(gpio.digitalRead(pin)) #打印pin25的状态
def initialize_hardware(self): wiringpi.wiringPiSetup() wiringpi.pinMode(GPIOPin.PIN_STATUS_LED.value, PinMode.OUTPUT.value) wiringpi.pinMode(GPIOPin.PIN_SOUND.value, PinMode.OUTPUT.value) wiringpi.pinMode(GPIOPin.PIN_RGB_RED.value, PinMode.OUTPUT.value) wiringpi.pinMode(GPIOPin.PIN_RGB_GREEN.value, PinMode.OUTPUT.value) wiringpi.pinMode(GPIOPin.PIN_RGB_BLUE.value, PinMode.OUTPUT.value)
def readData(pin):
hum = 0
temp = 0
crc = 0
GPIO.pinMode(pin, 1)
GPIO.digitalWrite(pin, 1)
GPIO.digitalWrite(pin, 0)
GPIO.delay(20)
GPIO.digitalWrite(pin, 1)
GPIO.pinMode(pin, 0)
GPIO.delayMicroseconds(40)
if GPIO.digitalRead(pin) == 0:
untilHigh(pin)
for i in range(16):
hum <<= 1
untilLow(pin)
untilHigh(pin)
GPIO.delayMicroseconds(28)
hum += GPIO.digitalRead(pin)
for i in range(16):
temp <<= 1
untilLow(pin)
untilHigh(pin)
GPIO.delayMicroseconds(28)
temp += GPIO.digitalRead(pin)
for i in range(8):
crc <<= 1
untilLow(pin)
untilHigh(pin)
GPIO.delayMicroseconds(28)
crc += GPIO.digitalRead(pin)
return [True, hum, temp, crc]
else:
return [False, hum, temp, crc]
def get(self):
response = {}
# Make sure sensor pin is set to input mode
try:
wpi.pinMode(config['SENSOR_PIN_NUM'],0)
except:
response['status'] = "error"
response['errorCode'] = "GPIO pin input mode error."
response['message'] = "Cannot {} garage door.".format(config['MODE'])
resp = jsonify(response)
resp.status_code = 500
return resp
try:
if wpi.digitalRead(config['SENSOR_PIN_NUM']):
response['doorStatus'] = 'open'
else:
response['doorStatus'] = 'closed'
except:
response['status'] = "error"
response['errorCode'] = "GPIO pin read error."
response['message'] = "Cannot determine garage door status."
resp = jsonify(response)
resp.status_code = 500
return resp
response['status'] = "success"
response['errorCode'] = None
response['message'] = "Garage door is {}.".format(response['doorStatus'])
resp = jsonify(response)
resp.status_code = 200
return resp
def switch(self, v):
if self.reading() != v:
self.logger.debug('relay: switch: pin:%s %s' % (self.pin, str(v)))
wiringpi.pinMode(self.pin, v)
wiringpi.digitalWrite(self.pin, v)
else:
self.logger.debug('relay: switch: pin %s ignore already %s' % (self.pin, str(v)))
def __init__(self, therm_pin, sensor_pin, target_temp=55):
self.target_temp = target_temp
self.THERM = therm_pin
self.sensor = Sensor(sensor_pin)
self.running = True
self.heat_on = False
self.current_temp = None
self.OUT = 1
self.IN = 0
self.PWM = 0
self.bounds = [55, 66, 80]
self.learner = learner.Events(self, 'therm', 55, 5, 5 * 60)
self.set_lock = RLock()
wiringpi.wiringPiSetupSys()
setupInCmd1 = 'echo "{}" > /sys/class/gpio/export'.format(sensor_pin)
setupOutCmd1 = 'echo "{}" > /sys/class/gpio/export'.format(self.THERM)
setupInCmd2 = 'echo "in" > /sys/class/gpio/gpio{}/direction'.format(sensor_pin)
setupOutCmd2 = 'echo "out" > /sys/class/gpio/gpio{}/direction'.format(self.THERM)
Popen( setupInCmd1, shell=True)
Popen( setupInCmd2, shell=True)
Popen(setupOutCmd1, shell=True)
Popen(setupOutCmd2, shell=True)
wiringpi.pinMode(self.THERM, self.OUT)
wiringpi.pinMode(sensor_pin, self.IN)
wiringpi.digitalWrite(self.THERM, 0)
# give some time to read an initial temperature
self.timer = Timer(15, self.tick)
self.timer.start()
self.temp_log_timer = Timer(5 * 60, self.logTemp)
self.temp_log_timer.start()
self.temp_logger = jsonlog.jsonLog('data/real-therm-data')
def set_pin(pin, state):
global state_updated
s = None
try:
s = pin_state[pin]
except KeyError:
logger.debug("pin {0} had no state. Initializing?".format(pin))
if wiringpi.getAlt(pin) != PIN_MODE_ACTIVE:
logger.warn(
'Attempting to set output value on NON-ACTIVE pin {0} (mode: {1}). Forcing to OUTPUT and setting...'.format(
pin,
PIN_MODES.get(wiringpi.getAlt(pin))))
wiringpi.pinMode(pin, PIN_MODE_ACTIVE)
pin_state[pin] = state
if s == state:
state_updated = False
else:
state_updated = True
name = pin_names.get(pin)
if name is not None:
n = name
else:
n = "Pin_{0}".format(pin)
logger.info("{0} -> {1}".format(n, state_names[pin_state.get(pin)]))
def __init__(self):
""" Set up hardware """
super().__init__()
wiringpi.wiringPiSetup()
# Set up each pin for digital output
for i in self.lightPinMap:
wiringpi.pinMode(i, 1)
def __init__(self, GPIO, name, hasNeutral):
self.pin = GPIO
self.name = name
self.hasNeutral = hasNeutral
self.isMidPulse = False
self.pulseStart = 0
self.pulseEnd = 0
self.pulses = []
self.minPulseLen = 1200
self.maxDeltaLen = 600
self.neutralDeltaLen = 1500
self.lastOutput = 0.0
self.isPrintData = True
self.preprocessData = True
try:
with open('radio.cfg') as file:
for line in file:
if line.startswith(self.name):
data = line.split(',')
self.minPulseLen = int(data[2])
self.maxDeltaLen = int(data[1]) - self.minPulseLen
if self.hasNeutral:
self.neutralDeltaLen = int(data[3]) - self.minPulseLen
except (OSError, IOError):
procComms.PrintLog('Config file not found. Use radioConfig.py!')
wiringpi.pinMode(self.pin, 0)
def __init__(self, cursor):
threading.Thread.__init__(self)
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(17, 0)
self.cursor = cursor
self.start()
self.shot = False
def setup_servo():
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(18,2) # hardware pwm only works on GPIO port 18
wiringpi.pwmSetMode(0)
wiringpi.pwmSetClock(375)
wiringpi.pwmSetRange(1024)
wiringpi.pwmWrite(18,0)
def set(self,newState):
newState = int(newState)
# FIXME need to catch error
print "Switching relay " + `self.relayA` + " to " + `newState`
wiringpi.pinMode(self.relayA,self.OUTPUT_MODE)
initialState = wiringpi.digitalRead(self.relayA)
wiringpi.digitalWrite(self.relayA, newState)
currentState = wiringpi.digitalRead(self.relayA)
result = None
if(initialState == currentState):
result = "Target state was already set. No action taken"
else:
result = "Switched"
errors = None
return {
"controller": self.name,
"timestamp": datetime.datetime.now().isoformat(' '),
"result": result,
"errors": errors,
}
def init(): lcd.init() lcd.cls() lcd.backlight(ON) wiringpi.pinMode(BUTTON_OK,INPUT) wiringpi.pinMode(BUTTON_FKEY,INPUT)
def Init(): wiringpi2.pinMode(data_pin, 0) wiringpi2.pinMode(clock_pin, 0) wiringpi2.wiringPiSetup() SendData(cmdlist["led_cmd"]) wiringpi2.delay(50)
def init_control_plane():
logger.info("Initializing control plane")
chip1_i2c_addr = 0x20 # Controlled by A0, A1, A2 pins GND or +5V
# chip2_i2c_addr = 0x22 # Controlled by A0, A1, A2 pins GND or +5V
# chip3_i2c_addr = 0x23 # Controlled by A0, A1, A2 pins GND or +5V
# chip4_i2c_addr = 0x24 # Controlled by A0, A1, A2 pins GND or +5V
wiringpi.wiringPiSetup() # initialise wiringpi
wiringpi.mcp23017Setup(pin_base, chip1_i2c_addr) # pins 65-80
# wiringpi.mcp23017Setup(pin_base + 16, chip2_i2c_addr) # pins 81-96
# wiringpi.mcp23017Setup(pin_base + 32, chip3_i2c_addr) # pins 97-112
# wiringpi.mcp23017Setup(pin_base + 48, chip4_i2c_addr) # pins 113-128
for pin in range(pin_base, pin_max):
set_pin(pin, OFF)
wiringpi.pinMode(pin, PIN_MODE_ACTIVE) # set to output mode
sleep(1)
for pin in range(pin_base, pin_max):
mode = wiringpi.getAlt(pin)
if mode != PIN_MODE_ACTIVE:
logger.error("Initialized pin {0} to mode {1} but found it in mode {2}".format(pin, PIN_MODE_ACTIVE, mode))
# and then apply our CHANGES
apply_model(False)
logger.info("Control plane initialized successfully")
def set_pin_as_input(pin):
"""Set the specified pin as an input.
:param pin: index of pin in cm.hardware.gpio_pins
:type pin: int
"""
wiringpi.pinMode(cm.hardware.gpio_pins[pin], _GPIOASINPUT)
def init(self, PWMmode):
self.PWMmode = PWMmode
wiringpi2.wiringPiSetup()
if self.PWMmode == True:
wiringpi2.pinMode(1, 2)
else:
wiringpi2.pinMode(1,1)
def init_pump_control():
#os.system("gpio mode 7 out")
wpi.wiringPiSetup()
wpi.pinMode(_PIN, _OUTPUT)
rospy.set_param("pump_state", False)
rospy.init_node("pump_control")
s = rospy.Service("pump_control", PumpControl, pump_control_callback)
rospy.spin()
def setup():
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(25,1) #red light
wiringpi.digitalWrite(25,0) #red is off
wiringpi.pinMode(24,1) #green light
wiringpi.digitalWrite(24,0) #green is off
flash(2)
def __init__(self):
led.wiringPiSetupGpio()
led.pinMode(18, 2) # sets GPIO 24 to output
#self.pwmLed=pwmLed
#self.ledPin=18
self.pwmThread=threading.Thread(target=self.fade)
def __init__(self,steps_per_rev=12800,p_pin=19,d_pin=26):
self.steps_per_rev = steps_per_rev
self.p_pin = p_pin
self.d_pin = d_pin
self.p_direction = -1 #assign picker direction
self.motor_address = 0
io1.pinMode(self.d_pin,1)
io1.pinMode(self.p_pin,1)
def __init__(self, pin1=13, pin2=15):
"""pin1 = white/signal | pin2 = red/power"""
self.pin1 = pin1
self.pin2 = pin2
wp.pinMode(self.pin1, OUTPUT)
output_pins.append(self.pin1)
wp.pinMode(self.pin2, OUTPUT)
output_pins.append(self.pin2)
def controlPin(self, onTime, offTime, pin):
wp.pinMode(pin, 1)
while not self.stop:
wp.digitalWrite(pin, 1)
time.sleep(onTime.value)
wp.digitalWrite(pin, 0)
time.sleep(offTime.value)
def __init__(self,):
threading.Thread.__init__(self)
#self.adc = adc
self.waterflow = 0.0
self.quit = False
wp.wiringPiSetup()
for i in range(0, 7):
wp.pinMode(i, 0)
def __init__(self):
self.amyPin = 4
self.benPin = 5
wiringpi2.wiringPiSetup()
wiringpi2.pinMode(self.amyPin,1)
wiringpi2.pinMode(self.benPin,1)
def __init__(self, external_lights):
super(Lights, self).__init__()
self.external_lights = external_lights
# hardware PWM led (and power off lights)
wiringpi2.pinMode(self.LIGHTS_PIN, wiringpi2.GPIO.PWM_OUTPUT)
wiringpi2.pwmWrite(self.LIGHTS_PIN, self.PWM_VAL_MAX)
if self.external_lights:
wiringpi2.pinMode(self.EXTERNAL_LIGHTS_PIN, wiringpi2.GPIO.OUTPUT)
wiringpi2.digitalWrite(self.EXTERNAL_LIGHTS_PIN, 1)
def __init__(self, freq = 100.0):
self.freq = freq
output_pins.append(12)
wp.pinMode(12, PWM)
wp.pwmSetRange(4000) #range can go up to 4096, 4000 is good because it's large and a multiple of 100
clock = 19.2e6 / (4000.0 * freq) #set the divisor so the frequency comes out right
wp.pwmSetClock(int(clock)) #this function needs an int
wp.pwmSetMode(0) # necessary or else it's in a weird mode where nothing works
wp.pwmWrite(12, 0) # stop for safety
def resetAD7705(self):
# Reset
wiringpi2.pinMode(23,1)
wiringpi2.digitalWrite(23,0)
wiringpi2.digitalWrite(23,1)
# Initialize AD7705
self.spi.xfer2([0xff, 0xff, 0xff, 0xff, 0xff])
self.spi.xfer2([0x20, 0x0c, 0x10, 0x40, 0x08])
return 1
def __init__(self, stepPin, dirPin):
#initial a Bipolar_Stepper_Moter objects by assigning the pins
wiringpi2.wiringPiSetupPhys()
self.stepPin = stepPin
self.dirPin = dirPin
wiringpi2.pinMode(self.stepPin, 1)
wiringpi2.pinMode(self.dirPin, 1)
print "Stepper Configured"
def readheading(self):
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(self.pin, 0)
ser = wiringpi.serialOpen('/dev/serial0', 115200)
data = []
while True:
data.append(wiringpi.serialGetchar(ser))
print(wiringpi.serialGetchar(ser))
sleep(0.03)
return data
def buzzer():
Buzz = x # x will be buzzer's Pin number
GPIO.pinMode(Buzz, 1)
while True:
dist = ult.distance_5()
if dist <= 30:
GPIO.digitalWrite(BUzz, 0)
time.sleep(dist / 30)
GPIO.digitalWrite(BUZZ, 1)
def __init__(self, power_calculator, datasocket):
threading.Thread.__init__(self)
self.pinnumber = 0
self.pc = power_calculator
self.datasocket = datasocket
self.beatperiod = 5 # seconds
self.beatsteps = 100
self.dutycycle = 0
self.quit = False
wp.pinMode(self.pinnumber, 1) # Set pin 0 to output
def __init__(self):
wiringpi2.wiringPiSetupGpio()
self.SPEAKER = 18
self.MODE_PWM = 2
wiringpi2.pinMode(self.SPEAKER, self.MODE_PWM)
wiringpi2.pwmSetMode(wiringpi2.GPIO.PWM_MODE_MS)
wiringpi2.pwmWrite(self.SPEAKER, 0)
def initGPIO():
try:
io.wiringPiSetupGpio()
except:
print "start IDLE with 'gksudo idle' from command line"
os._exit(1)
for pin in range(0, 4):
io.pinMode(pinList[pin], 0)
io.pullUpDnControl(pinList[pin], 2) # input enable pull up
def set_pin_as_output(pin):
"""Set the specified pin as an output.
:param pin: index of pin in cm.hardware.gpio_pins
:type pin: int
"""
if is_pin_pwm[pin]:
wiringpi.softPwmCreate(cm.hardware.gpio_pins[pin], 0, _PWM_MAX)
else:
wiringpi.pinMode(cm.hardware.gpio_pins[pin], _GPIOASOUTPUT)
def __init__(self):
threading.Thread.__init__(self)
wp.pinMode(0, 1)
self.timer = time.time()
self.cycle_time = settings.safety_cycle_time
self.safety_margin = settings.safety_margin
self.watchdog_safe = True
self.quit = False
self.time_to_live = 0
self.reactivate()#Initially activate Watchdog
self.reset_ttl()
def wiring(wp_id, wp_state):
wiringpi.wiringPiSetup()
if wp_id in WIRINGPI_list:
wiringpi.pinMode(wp_id, 1)
wiringpi.digitalWrite(wp_id, wp_state)
message = Markup('GPIO <strong>' + str(wp_id) +
'</strong> switched to : ' + str(wp_state))
flash(message, 'success')
else:
flash('Invalid WiringPi number', 'danger')
return render_template('playground/index.html', **wiringData)
def __init__(self,
pin=DEFAULT_PIN,
calibration_file=None,
smoothing=None,
wiringpi_obj=None,
zero_pin=None,
**kwargs):
super(PWMCalibrator, self).__init__()
if not SOFTPWM_SUPPORT and ((pin != WIRINGPI_PWM_PIN)
or zero_pin != None):
raise Exception(
"No soft PWM support (is wiringpi2 installed?). Only pin 1 may be used."
)
self.pin = pin
if wiringpi_obj is not None:
self.wp = wiringpi_obj
else:
wiringpi.wiringPiSetup()
# PWM: hardware or software?
if (not SOFTPWM_SUPPORT) or (self.pin == WIRINGPI_PWM_PIN):
wiringpi.pinMode(self.pin, wiringpi.GPIO.PWM_OUTPUT)
self.pwm_write = wiringpi.pwmWrite
self.pwm_max = PWM_MAX
else:
wiringpi.softPwmCreate(self.pin, 0, SOFT_PWM_MAX)
self.pwm_write = wiringpi.softPwmWrite
self.pwm_max = kwargs.get('soft_pwm_max', SOFT_PWM_MAX)
# zero out any zero pins, as necessary
# (this is used for bidirectional meters; by default the pi's pins
# are in a high-impedence mode that will prevent adequate calibration)
if zero_pin != None:
if zero_pin == WIRINGPI_PWM_PIN:
wiringpi.pinMode(zero_pin, wiringpi.GPIO.PWM_OUTPUT)
wiringpi.pwmWrite(zero_pin, 0)
else:
wiringpi.softPwmCreate(zero_pin, 0, SOFT_PWM_MAX)
wiringpi.softPwmWrite(zero_pin, 0)
self.pwm_value = 0
self.calibration = []
if smoothing is True:
self.smoothing = 0.005
else:
self.smoothing = smoothing
if calibration_file is not None:
self.calibration_file = calibration_file
else:
self.calibration_file = DEFAULT_CALIBRATION_FILENAME
def init18b20():
GPIO.pinMode(DQ, OUT)
GPIO.digitalWrite(DQ, H)
GPIO.digitalWrite(DQ, L)
GPIO.delayMicroseconds(480) # 480-960(us)
GPIO.pinMode(DQ, IN)
GPIO.delayMicroseconds(30) # 15-60(us)
while True:
if GPIO.digitalRead(DQ) == H:
break
GPIO.delayMicroseconds(150) # 60-240(us)
GPIO.digitalWrite(DQ, H)
def initGPIO():
try :
io.wiringPiSetupGpio()
except :
print"start IDLE with 'gksudo idle' from command line"
os._exit(1)
for pin in range (0,4):
io.pinMode(compPins[pin],0) # mux pin to input
io.pullUpDnControl(compPins[pin],2) # input enable pull up
for pin in range (0,3):
io.pinMode(ledPins[pin],1) # LED pin to output
io.digitalWrite(ledPins[pin],0)
def __init__(self, clk, dio, brightness=7):
self.clk = clk
self.dio = dio
if not 0 <= brightness <= 7:
raise ValueError("Brightness out of range")
self._brightness = brightness
pinMode(self.clk, GPIO.OUTPUT)
pinMode(self.dio, GPIO.OUTPUT)
digitalWrite(self.clk, 0)
digitalWrite(self.dio, 0)
def __init__(self, lock):
threading.Thread.__init__(self)
self.__lock = lock
# SPI (MCP3008)
self.__adc = MCP3008(SPI_const.CS0, 0, self.__lock)
# Hardware PWM
wipi.wiringPiSetupPhys()
wipi.pinMode(12, 2) # TODO: have pin as parameter to __init__()
self.__running = True
def initGPIO():
global pinReset, pinClock
pinReset = 23
pinClock = 24
try:
io.wiringPiSetupGpio()
except:
print "start IDLE with 'gksudo idle' from command line"
os._exit(1)
io.pinMode(pinReset, 1)
io.pinMode(pinClock, 1)
io.mcp3002Setup(70, 0)
def __init__(self):
self.pins = [2, 7, 3] #GPIO
self.ryb = [0, 0, 0] #Red Yellow Blue
wiringpi2.wiringPiSetup()
for x in self.pins:
wiringpi2.pinMode(x, 1)
wiringpi2.digitalWrite(x, 1)
time.sleep(2.5)
for x in self.pins:
wiringpi2.digitalWrite(x, 0)
time.sleep(0.5)
self.ryb = [0, 0, 1]
def __init__(self):
self.log = logging.getLogger(__name__)
# Setup GPIO pins
# This routine uses /sys/class/gpio for non-root access.
# Attention: export all pins beforehand (done by launcher.sh at the moment)
wiringpi2.wiringPiSetupSys()
# Inputs
for key, value in self.PINS.items():
self.log.debug('Setting up pin %d for "%s"', value, key)
# Set input mode
wiringpi2.pinMode(value, self.GPIO_INPUT)
# Pull pin down to ground
wiringpi2.pullUpDnControl(value, self.GPIO_PUD_DOWN)
def cleanup(): wiringpi.pwmWrite(LEFT_MOTOR_PWM, 0) wiringpi.pwmWrite(RIGHT_MOTOR_PWM, 0) wiringpi.pinMode(LEFT_MOTOR_PWM, 0) wiringpi.pinMode(RIGHT_MOTOR_PWM, 0) GPIO.output(LEFT_MOTOR_A, GPIO.LOW) GPIO.output(LEFT_MOTOR_B, GPIO.LOW) GPIO.output(RIGHT_MOTOR_A, GPIO.LOW) GPIO.output(RIGHT_MOTOR_B, GPIO.LOW) GPIO.setup(LEFT_MOTOR_A, GPIO.IN) GPIO.setup(LEFT_MOTOR_B, GPIO.IN) GPIO.setup(RIGHT_MOTOR_A, GPIO.IN) GPIO.setup(RIGHT_MOTOR_B, GPIO.IN)
def monotron():
# 音程をコントロール
REF = 3.3 # 5.p or 3.3
w.wiringPiSetup()
w.pinMode(0, 1)
w.pinMode(1, 2)
w.digitalWrite(0, 1)
while 1:
for i in [0, 300, 380, 460, 540, 640, 720, 1000]:
w.pwmWrite(1, i)
print(i)
time.sleep(0.5)
w.digitalWrite(0, 0)
def set_pin_as_input(pin):
"""Set the specified pin as an input.
:param pin: index of pin in _GPIO_PINS
:type pin: int
"""
if _EXPORT_PINS and is_a_raspberryPI:
# set pin as input for use in export mode
subprocess.check_call(
[_GPIO_UTILITY_PATH, 'export',
str(_GPIO_PINS[pin]), 'in'])
else:
wiringpi.pinMode(_GPIO_PINS[pin], _GPIOASINPUT)
def __init__(self, pin, lock):
threading.Thread.__init__(self)
self.__pin = pin
self.__lock = lock
# SPI (MCP3008)
self.__adc = MCP3008(SPI_const.CS0, 0, self.__lock)
# Hardware PWM
wipi.wiringPiSetupPhys()
wipi.pinMode(self.__pin, 2)
self.__running = True
def __init__(self):
# Setup pins
wiringpi.pinMode(68, 1) # sets GPA0 to output
wiringpi.pinMode(69, 1) # sets GPA1 to output
wiringpi.pinMode(70, 1) # sets GPA2 to output
wiringpi.pinMode(71, 1) # sets GPA3 to output
wiringpi.pinMode(72, 1) # sets GPA4 to output
wiringpi.digitalWrite(68, 1)
wiringpi.digitalWrite(69, 1)
wiringpi.digitalWrite(70, 1)
wiringpi.digitalWrite(71, 1)
wiringpi.digitalWrite(72, 1)
def __init__(self, startPin, startAction, stopPin, stopAction):
wpi.wiringPiSetup()
wpi.pinMode(startPin, wpi.GPIO.INPUT)
wpi.pullUpDnControl(startPin, wpi.GPIO.PUD_UP)
wpi.wiringPiISR(startPin, wpi.GPIO.INT_EDGE_FALLING, self.startTrigger)
wpi.pinMode(stopPin, wpi.GPIO.INPUT)
wpi.pullUpDnControl(stopPin, wpi.GPIO.PUD_UP)
wpi.wiringPiISR(stopPin, wpi.GPIO.INT_EDGE_FALLING, self.stopTrigger)
self.startAction = startAction
self.stopAction = stopAction
self.newEvent = False
self.latestEvent = ''
def __init__(self):
self.pin = 5 # 29 on PI2 rev B
#init GPIO
#wiringpi.wiringPiSetupGpio() already called by someone
wiringpi.pinMode(self.pin, 1) # sets GPIO 24 to output
wiringpi.digitalWrite(self.pin, 1) # sets port 24 to 0 (0V, off)
#ROS init
self.rate = rospy.Rate(10) # 10Hz
self.subscriber = rospy.Subscriber("led_control_info", Int16,
self.callback)
def __init__(self):
SPI_data = 16
SPI_clock = 21
SPI_latch = 20
self.heat_relay = 12
wiringpi2.wiringPiSetup()
self.thermocouple = thermocouple.thermocouple()
self.thermocouple.setup(SPI_data, SPI_clock, SPI_latch)
self.relay_state = 0
wiringpi2.pinMode(self.heat_relay,1)
wiringpi2.digitalWrite(self.heat_relay, self.relay_state)
def __init__(self, pin):
self.dtMin, self.dtMax, self.dtMed = 35, 120, 65
self.dt = self.dtMed
self.pin = pin
self.direction = ''
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(self.pin, 2)
wiringpi.pwmSetMode(0)
wiringpi.pwmSetClock(400)
wiringpi.pwmSetRange(1024)
try:
wiringpi.pwmWrite(self.pin, 40)
except Exception as e:
print str(e)
def readByte():
data = 0
for i in range(8):
GPIO.pinMode(DQ, OUT)
GPIO.digitalWrite(DQ, L)
GPIO.digitalWrite(DQ, H)
GPIO.pinMode(DQ, IN)
GPIO.delayMicroseconds(15)
if GPIO.digitalRead(DQ) == H:
data |= (1 << i)
else:
data &= ~(1 << i)
GPIO.delayMicroseconds(30)
return data
def init(): GPIO.setmode(GPIO.BCM) wiringpi.wiringPiSetupGpio() wiringpi.pinMode(LEFT_MOTOR_PWM, 2) wiringpi.pinMode(RIGHT_MOTOR_PWM, 2) wiringpi.pwmSetMode(0) wiringpi.pwmSetClock(CLK_DIVISOR) wiringpi.pwmSetRange(MAX_SPEED) wiringpi.pwmWrite(LEFT_MOTOR_PWM, 0) wiringpi.pwmWrite(RIGHT_MOTOR_PWM, 0) GPIO.setup(LEFT_MOTOR_A, GPIO.OUT) GPIO.setup(LEFT_MOTOR_B, GPIO.OUT) GPIO.setup(RIGHT_MOTOR_A, GPIO.OUT) GPIO.setup(RIGHT_MOTOR_B, GPIO.OUT)
def setSpeedBase(self, adv, rot):
wpi.pinMode(self.leftt_wheel_pin, 1)
wpi.pinMode(self.right_wheel_pin, 1)
velLeft, velRight = self.computeRobotSpeed(adv,rot)
for pin, speed in zip([self.left_wheel_pin, self.right_wheel_pin], [velLeft,velRight]):
direction = 0 if (speed >= 0) else 1
wpi.digitalWrite(pin, direction)
time.sleep(0.1)
for id_duty, speed in zip(range(2), [self.left_wheel_pin, self.right_wheel_pin]):
with open('/sys/devices/platform/pwm-ctrl/duty'+str(id_duty), 'w') as file_duty:
file_duty.write(str(abs(speed)))
def RCTime(self,pin=11,wiring=True,short=False):
duration=0
#not sure if the GPIO version of this translation works,
#so keep using Wiringpi version
if wiring==True:
#initQTI()
#make pin output
wp.pinMode(pin,1)
#set pin to high to discharge capacitor
wp.digitalWrite(pin,1)
#wait 1 ms
time.sleep(0.001)
#make pin Input
wp.pinMode(pin,0)
#turn off internal pullups
#wp.digitalWrite(pin,0)
wp.pullUpDnControl(pin,1)
#print "here"
if short == True:
while wp.digitalRead(pin)==1 and duration < self.rightTail:
#wait for the pin to go Low
#print pin, wp.digitalRead(pin)
#print 'not yet'
duration+=1
else:
while wp.digitalRead(pin)==1 and duration <self.cap:
# while wp.digitalRead(pin)==1:
#print "here"
duration+=1
#print duration
#wp.pinMode(pin,1)
#wp.digitalWrite(pin,1)
else:
GPIO.setup(pin,GPIO.OUT)
#set pin to high to discharge capacitor
GPIO.output(pin,GPIO.LOW)
#wait 1 ms
time.sleep(0.1)
#make pin Input
GPIO.setup(pin,GPIO.IN)
#GPIO.setup(pin,GPIO.IN,GPIO.PUD_DOWN)
#turn off internal pullups
while GPIO.input(pin)== GPIO.LOW:
#wait for the pin to go Low
#print GPIO.input(sensorIn)
duration+=1
#print duration, pin
return duration
