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问题:
I am using the GPIO pins on my Raspberry Pi with a PIR sensor to detect motion. When the sensor detects motion I want to then move the software onto other functions.
At the moment, to detect motion I have my program constantly running in a loop while it is waiting for motion to be detected. While this works at the moment, for use in the future this will be incredibly inefficient and am hoping to improve on this by assigning it to an event.
Is there any way to bind my GPIO input to an event that is detected by the program without manually running a loop.
Here is my current loop for detection motion:
var = 1 counter = 0 while var == 1: if GPIO.input(7): counter += 1 time.sleep(0.5) else: counter = 0 time.sleep(1) if counter >= 3: print "Movement!" captureImage() time.sleep(20)
The counter and detecting motion multiple times is used to reduce the number of false positives that the sensor picks up.
回答1:
The RPi.GPIO Python library now supports Events, which are explained in the Interrupts and Edge detection paragraph.
So after updating your Raspberry Pi with sudo rpi-update to get the latest version of the library, you can change your code to:
from time import sleep import RPi.GPIO as GPIO var=1 counter = 0 GPIO.setmode(GPIO.BOARD) GPIO.setup(7, GPIO.IN, pull_up_down=GPIO.PUD_DOWN) def my_callback(channel): if var == 1: sleep(1.5) # confirm the movement by waiting 1.5 sec if GPIO.input(7): # and check again the input print("Movement!") captureImage() # stop detection for 20 sec GPIO.remove_event_detect(7) sleep(20) GPIO.add_event_detect(7, GPIO.RISING, callback=my_callback, bouncetime=300) GPIO.add_event_detect(7, GPIO.RISING, callback=my_callback, bouncetime=300) # you can continue doing other stuff here while True: pass
I chose the Threaded callbacks method because I suppose that your program does some other things in parallel to change the value of var.
回答2:
Now the RPi GPIO library has inbuilt interrupt driven GPIO control which can happen in separate thread freeing up resources. You may wish to read the following http://raspi.tv/2013/how-to-use-interrupts-with-python-on-the-raspberry-pi-and-rpi-gpio-part-3
回答3:
You could wrap the GPIO-code into it's own thread and have the rest of your program do something else while the GPIO is waiting for input. Check out the threading module
First I'd wrap your code into a function
def wait_input(): var=1 counter = 0 while var == 1: if GPIO.input(7): counter += 1 time.sleep(0.5) else: counter = 0 time.sleep(1) if counter >= 3: print "Movement!" captureImage() time.sleep(20)
And then in your main program you could something like this
input_thread = threading.Thread(target = wait_input) input_thread.start() # do something in the meanwhile input_thread.join()
There are plenty of questions on SO concerning python threading, so you might want to dig them up. Please note that there are also plenty of things to consider when using threads, especially in python which has a global interpreter lock (GIL) which allows only one process to run at a time. It might also be smart to check out the multiprocessing module with which one can route around the GIL.
