I am using pynput's keyboard.Listener and have joined the thread.
def main():
with Listener(on_release=checkSPress) as listener:
listener.join() # keep on listening
def checkSPress(key):
if 'char' in dir(key):
if key.char == 's':
print("Starting ...")
main()
After the s key is pressed I want it to terminate the listener and run things in the main thread. I want to this because after the s key is pressed I create a GUI but it throws an error that the QApplication must be created inside main thread. Is there a way I can go back to the main thread and run the function or terminate the listener entirely (I'm fairly new to threading and pynput.)
You just need to return False from callback to stop Listner. Just try:
if key.char == 's':
print("Starting ...")
return False
Related
I recently got to know about the python module signal. With that, we can capture a SIGINT and do what we want after capturing it. I used it as below. In that case I am just using SIGINT to print that program is going to be stopped and stop the program.
import signal
import os
import time
def signalHandler(signalnumb, frame):
print("Signal Number:", signalnumb, " Frame: ", frame)
print('Exiting the program...')
os._exit(0)
signal.signal(signal.SIGINT, signalHandler)
c=0
# Loop infinite times using the while(1) which is always true
while 1:
print(c)
#sleep for 1 seconds using the sleep() function in time
time.sleep(1)
c=c+1
Now I want to give any signal from keyboard(for example pressing 'q') and as soon as signal was recieved, the python program should be stopped. Has anyone got some experience on how to do that? Any other method rather than using signal module (for example using multithreading) is accepted.
Edit1-
Later I tried to use pynput module as suggested in one of a similar kind of question. For sure I have done a mistake. It doesn't work as I expected. It means with a key press, I couldn't stop the for loop from running.
from pynput import keyboard
import time
def on_press(key):
for i in range(100):
print(i)
time.sleep(1)
if key == keyboard.Key.esc:
return False # stop listener
try:
k = key.char # single-char keys
except:
k = key.name # other keys
if k in ['1', '2', 'left', 'right']: # keys of interest
# self.keys.append(k) # store it in global-like variable
print('Key pressed: ' + k)
return False # stop listener; remove this if want more keys
listener = keyboard.Listener(on_press=on_press)
listener.start() # start to listen on a separate thread
listener.join() # remove if main thread is polling self.keyspython
Can someone point out how to do it using pynput in correct way?
This was my original implementation:
a = input('Press a key to exit')
if a:
exit(0)
However, it seems that you need a piece of code that will allow for any key to be clicked and immediately exit out of the program, without hitting enter afterwards. This may be a better way to do that:
import readchar
print("Press Any Key To Exit")
k = readchar.readchar()
Hope this helps!
After carefully understanding about the threads and pynput module, I managed to stop a for loop (or any program which runs as a separate thread) using a key press callback.
from pynput import keyboard
import os
import threading
import time
loop_running = False
def on_press(key):
print(dir(key))
global loop_running
#if key == keyboard.Key.delete and not loop_running:
if ('char' in dir(key)) and (key.char == 's') and (not loop_running):
t=threading.Thread(target=start_loop)
t.start()
#elif key==keyboard.Key.tab: #if this is used, the attributes related to 'key' will be changed. you can see them since I have used a print(dir(key))
elif key.char == 'q':
loop_running=False
def start_loop():
global loop_running
loop_running = True
for i in range(100):
if not loop_running:
os._exit(0)
print(i)
time.sleep(1)
with keyboard.Listener(on_press=on_press) as listner:
listner.join()
I am making a program that toggles on and off by a certain key on the keyboard (using pynput). I placed the keyboard listener loop in the first thread, and the action loop in the second.
The problem is that after I start the code, it doesn't listen to the keyboard immediately, only after 9-10 seconds have passed. And sometimes it refuses to react to Esc button, and sometimes it works. How to fix the lag? Is the code ok?
from threading import Thread
from pynput import keyboard
import time
flag = False
kill = False
def on_press(key):
global flag
global kill
if key == keyboard.KeyCode.from_char('a'):
print('pressed A')
flag = not flag
if key == keyboard.Key.esc:
kill = True
return False
def thr2():
print('joining...')
with keyboard.Listener(on_press=on_press) as listen:
listen.join()
def thr1():
while True:
if kill:
break
if flag:
print('looping....')
time.sleep(0.4)
if __name__ == "__main__":
thread1 = Thread(target=thr1)
thread2 = Thread(target=thr2)
thread1.start()
thread2.start()
It looks like the actual delay is coming from the pynput keyboard.Listener context handler itself. I can't tell you whats happening under the hood but the delay is not coming from the way you are managing your threads.
# pynput library creating keyboard.Listener thread causes the delay
with keyboard.Listener(on_press=on_press) as listen:
print('listen thread created') # This does not happen until after the delay
listen.join()
You may want to rephrase the question so that it is specific to pynput keyboard.Listener
Here is a solution that works nicely with multiprocessing:
import sys
from pynput import keyboard
from time import sleep
from multiprocessing import Process, Event
from functools import partial
def thr2(kill_event, flag_event):
def on_press(kill_event, flag_event, key):
if key == keyboard.KeyCode.from_char('a'):
print('pressed A')
if flag_event.is_set():
flag_event.clear()
else:
flag_event.set()
if key == keyboard.Key.esc:
print('esc')
kill_event.set()
sys.exit(0)
with keyboard.Listener(on_press=partial(on_press, kill_event, flag_event)) as listen:
listen.join()
def thr1(kill_event, flag_event):
while True:
if kill_event.is_set():
print('kill')
sys.exit(0)
if flag_event.is_set():
print('looping....')
sleep(0.4)
if __name__ == "__main__":
kill_event = Event()
flag_event = Event()
thread1 = Process(target=thr1, args=(kill_event, flag_event))
thread2 = Process(target=thr2, args=(kill_event, flag_event))
thread1.start()
thread2.start()
thread1.join() # Join processes here to avoid main process exit
thread2.join()
In a Python script I'd like to continiously call a function and, at the same time, listen for the user having pressed the ESC key which would then exit the program.
This is my current code:
import threading
import msvcrt
def wait_for_esc():
while True:
key = ord(msvcrt.getch())
if key == 27:
print("ESC")
exit(0)
def do_something():
while True:
call_function()
thread_1 = threading.Thread(name="wait_for_esc", target=wait_for_esc())
thread_2 = threading.Thread(name="do_something", target=do_something())
thread_1.start()
thread_2.start()
However it seems as if thread_1 blocks thread_2 until any key has been pressed.
What's a possible solution to run both thread independent from each other?
When you pass in the target task to the thread, you need to pass the function object - not call the function. You need to remove the paranthesis at the end of your function name.
thread_1 = threading.Thread(name="wait_for_esc", target=wait_for_esc)
thread_2 = threading.Thread(name="do_something", target=do_something)
And it should work.
I'm new to Python and I figured I'd make a simple autoclicker as a cool starter project.
I want a user to be able to specify a click interval and then turn the automatic clicking on and off with a hotkey.
I am aware of Ctrl-C, and you'll see that in my current code, but I want the program to work so that the hotkey doesn't have to be activated in the python window.
import pyautogui, sys
print("Press Ctrl + C to quit.")
interval = float(input("Please give me an interval for between clicks in seconds: "))
try:
while True:
pyautogui.click()
except KeyboardInterrupt:
print("\n")
Do I need to make a tkinter message box to make the switch or can I use a hotkey?
Thanks for the help.
Update
import multiprocessing
import time
import pyHook, pyautogui, pythoncom
import queue
click_interval = float(input("Please give an interval between clicks in seconds: "))
class AutoClicker(multiprocessing.Process):
def __init__(self, queue, interval):
multiprocessing.Process.__init__(self)
self.queue = queue
self.click_interval = click_interval
def run(self):
while True:
try:
task = self.queue.get(block=False)
if task == "Start":
print("Clicking...")
pyautogui.click(interval == click_interval)
except task == "Exit":
print("Exiting")
self.queue.task_done()
break
return
def OnKeyboardEvent(event):
key = event.Key
if key == "F3":
print("Starting auto clicker")
# Start consumers
queue.put("Start")
queue.join
elif key == "F4":
print("Stopping auto clicker")
# Add exit message to queue
queue.put("Exit")
# Wait for all of the tasks to finish
queue.join()
# return True to pass the event to other handlers
return True
if __name__ == '__main__':
# Establish communication queues
queue = multiprocessing.JoinableQueue()
# create a hook manager
hm = pyHook.HookManager()
# watch for all mouse events
hm.KeyDown = OnKeyboardEvent
# set the hook
hm.HookKeyboard()
# wait forever
pythoncom.PumpMessages()
AutoClicker.run(self)
First of all if you want to monitor global input outside the Python window you will need pyHook or something similar. It will allow you to monitor keyboard events. I chose to act upon the F3 and F4 key-presses, which are used for starting and stopping the autoclicker.
To accomplish what you've asked, the best way I'm aware of is to create a process which will do the clicking, and to communicate with it through the use of a Queue. When the F4 key is pressed, it will add an "Exit" string to the queue. The autoclicker will recognize this and then return.
Before the F4 key has been pressed, the queue will remain empty and the queue.Empty exception will continually occur. This will execute a single mouse click.
import multiprocessing
import time
import pyHook, pyautogui, pythoncom
import queue
class AutoClicker(multiprocessing.Process):
def __init__(self, queue, interval):
multiprocessing.Process.__init__(self)
self.queue = queue
self.click_interval = interval
def run(self):
while True:
try:
task = self.queue.get(block=False)
if task == "Exit":
print("Exiting")
self.queue.task_done()
break
except queue.Empty:
time.sleep(self.click_interval)
print("Clicking...")
pyautogui.click()
return
def OnKeyboardEvent(event):
key = event.Key
if key == "F3":
print("Starting auto clicker")
# Start consumers
clicker = AutoClicker(queue, 0.1)
clicker.start()
elif key == "F4":
print("Stopping auto clicker")
# Add exit message to queue
queue.put("Exit")
# Wait for all of the tasks to finish
queue.join()
# return True to pass the event to other handlers
return True
if __name__ == '__main__':
# Establish communication queues
queue = multiprocessing.JoinableQueue()
# create a hook manager
hm = pyHook.HookManager()
# watch for all mouse events
hm.KeyDown = OnKeyboardEvent
# set the hook
hm.HookKeyboard()
# wait forever
pythoncom.PumpMessages()
Keep in mind this implementation is far from perfect, but hopefully it's helpful as a starting point.
Why can't I use a simple while loop or if/else statement?
A while loop is blocking, which means when the loop is running it blocks all other code from executing.
So once the clicker loop starts it will be stuck in that loop indefinitely. You can't check for F4 key presses while this is happening because the loop will block any other code from executing (ie. the code that checks for key-presses). Since we want the auto-clicker clicks and the key-press checks to occur simultaneously, they need to be separate processes (so they don't block each other).
The main process which checks for key presses needs to be able to communicate somehow with the auto-clicker process. So when the F4 key is pressed we want the clicking process to exit. Using a queue is one way to communicate (there are others). The auto-clicker can continuously check the queue from inside the while loop. When we want to stop the clicking we can add an "Exit" string to the queue from the main process. The next time the clicker process reads the queue it will see this and break.
I have a python application in which a function runs in a recursive loop and prints updated info to the terminal with each cycle around the loop, all is good until I try to stop this recursion.
It does not stop until the terminal window is closed or the application is killed (control-c is pressed) however I am not satisfied with that method.
I have a function which will stop the loop and exit the program it just never has a chance to get called in the loop, so I wish to assign it to a key so that when it is pressed it will be called.
What is the simplest method to assign one function to one or many keys?
You can intercept the ctrl+c signal and call your own function at that time rather than
exiting.
import signal
import sys
def exit_func(signal, frame):
'''Exit function to be called when the user presses ctrl+c.
Replace this with whatever you want to do to break out of the loop.
'''
print("Exiting")
sys.exit(0) # remove this if you do not want to exit here
# register your exit function to handle the ctrl+c signal
signal.signal(signal.SIGINT, exit_func)
#loop forever
while True:
...
You should replace sys.exit(0) with something more useful to you. You could raise an exception and that except on it outside the loop body (or just finally) to perform your cleanup actions.
import keyboard
import sys
from time import sleep
def kb():
while True:
if keyboard.is_pressed("a"):
print("A key was pressed")
sys.exit(0)
def main():
kb()
if __name__ == "__main__":
main()
Here is some code
import keyboard
import sys
def kb():
while True:
#your code here
if keyboard.is_pressed("a"): #replace with your key
print("Key interrupt detected")
#cleanup here
sys.exit()
#or here
if __name__ == "__main__":
kb()
This program checks if you have pressed the key "A" every cycle. If you have, it exits.
import keyboard
def mywait():
keyboard.read_key()
def my_function():
print("hello")
def my_exit():
quit()
keyboard.add_hotkey('h', my_function)
keyboard.add_hotkey('esc', my_exit)
while True:
mywait()