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DHT11.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
from __future__ import absolute_import, division, print_function, unicode_literals
import time
import pigpio
class DHT11(object):
"""
The DHT11 class is a stripped version of the DHT22 sensor code by joan2937.
You can find the initial implementation here:
- https://github.com/srounet/pigpio/tree/master/EXAMPLES/Python/DHT22_AM2302_SENSOR
example code:
>>> pi = pigpio.pi()
>>> sensor = DHT11(pi, 4) # 4 is the data GPIO pin connected to your sensor
>>> for response in sensor:
.... print("Temperature: {}".format(response['temperature']))
.... print("Humidity: {}".format(response['humidity']))
"""
def __init__(self, pi, gpio):
"""
pi (pigpio): an instance of pigpio
gpio (int): gpio pin number
"""
self.pi = pi
self.gpio = gpio
self.high_tick = 0
self.bit = 40
self.temperature = 0
self.humidity = 0
self.either_edge_cb = None
self.setup()
def setup(self):
"""
Clears the internal gpio pull-up/down resistor.
Kills any watchdogs.
"""
self.pi.set_pull_up_down(self.gpio, pigpio.PUD_OFF)
self.pi.set_watchdog(self.gpio, 0)
self.register_callbacks()
def register_callbacks(self):
"""
Monitors RISING_EDGE changes using callback.
"""
self.either_edge_cb = self.pi.callback(
self.gpio,
pigpio.EITHER_EDGE,
self.either_edge_callback
)
def either_edge_callback(self, gpio, level, tick):
"""
Either Edge callbacks, called each time the gpio edge changes.
Accumulate the 40 data bits from the dht11 sensor.
"""
level_handlers = {
pigpio.FALLING_EDGE: self._edge_FALL,
pigpio.RISING_EDGE: self._edge_RISE,
pigpio.EITHER_EDGE: self._edge_EITHER
}
handler = level_handlers[level]
diff = pigpio.tickDiff(self.high_tick, tick)
handler(tick, diff)
def _edge_RISE(self, tick, diff):
"""
Handle Rise signal.
"""
val = 0
if diff >= 50:
val = 1
if diff >= 200: # Bad bit?
self.checksum = 256 # Force bad checksum
if self.bit >= 40: # Message complete
self.bit = 40
elif self.bit >= 32: # In checksum byte
self.checksum = (self.checksum << 1) + val
if self.bit == 39:
# 40th bit received
self.pi.set_watchdog(self.gpio, 0)
total = self.humidity + self.temperature
# is checksum ok ?
if not (total & 255) == self.checksum:
self.checksum = 256
elif 16 <= self.bit < 24: # in temperature byte
self.temperature = (self.temperature << 1) + val
elif 0 <= self.bit < 8: # in humidity byte
self.humidity = (self.humidity << 1) + val
else: # skip header bits
pass
self.bit += 1
def _edge_FALL(self, tick, diff):
"""
Handle Fall signal.
"""
self.high_tick = tick
if diff <= 250000:
return
self.bit = -2
self.checksum = 0
self.temperature = 0
self.humidity = 0
def _edge_EITHER(self, tick, diff):
"""
Handle Either signal.
"""
self.pi.set_watchdog(self.gpio, 0)
def read(self):
"""
Start reading over DHT11 sensor.
"""
self.pi.write(self.gpio, pigpio.LOW)
time.sleep(0.017) # 17 ms
self.pi.set_mode(self.gpio, pigpio.INPUT)
self.pi.set_watchdog(self.gpio, 200)
time.sleep(0.2)
def close(self):
"""
Stop reading sensor, remove callbacks.
"""
self.pi.set_watchdog(self.gpio, 0)
if self.either_edge_cb:
self.either_edge_cb.cancel()
self.either_edge_cb = None
def __iter__(self):
"""
Support the iterator protocol.
"""
return self
def next(self):
"""
Call the read method and return temperature and humidity informations.
"""
self.read()
response = {
'humidity': self.humidity,
'temperature': self.temperature
}
return response
if __name__ == '__main__':
pi = pigpio.pi()
sensor = DHT11(pi, 4)
for d in sensor:
print("temperature: {}".format(d['temperature']))
print("humidity: {}".format(d['humidity']))
time.sleep(1)
sensor.close()