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I am making a stopwatch type program in Python and I would like to know how to detect if a key is pressed (such as p for pause and s for stop), and I would not like it to be something like raw_input, which waits for the user's input before continuing execution.
Anyone know how to do this in a while loop?
I would like to make this cross-platform but, if that is not possible, then my main development target is Linux.
Python has a keyboard module with many features. Install it, perhaps with this command:
pip3 install keyboard
Then use it in code like:
import keyboard # using module keyboard
while True: # making a loop
try: # used try so that if user pressed other than the given key error will not be shown
if keyboard.is_pressed('q'): # if key 'q' is pressed
print('You Pressed A Key!')
break # finishing the loop
except:
break # if user pressed a key other than the given key the loop will break
For those who are on windows and were struggling to find an working answer here's mine: pynput
from pynput.keyboard import Key, Listener
def on_press(key):
print('{0} pressed'.format(
key))
def on_release(key):
print('{0} release'.format(
key))
if key == Key.esc:
# Stop listener
return False
# Collect events until released
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
The function above will print whichever key you are pressing plus start an action as you release the 'esc' key. The keyboard documentation is here for a more variated usage.
Markus von Broady highlighted a potential issue that is: This answer doesn't require you being in the current window to this script be activated, a solution to windows would be:
from win32gui import GetWindowText, GetForegroundWindow
current_window = (GetWindowText(GetForegroundWindow()))
desired_window_name = "Stopwatch" #Whatever the name of your window should be
#Infinite loops are dangerous.
while True: #Don't rely on this line of code too much and make sure to adapt this to your project.
if current_window == desired_window_name:
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
More things can be done with keyboard module.
You can install this module using pip install keyboard
Here are some of the methods:
Method #1:
Using the function read_key():
import keyboard
while True:
if keyboard.read_key() == "p":
print("You pressed p")
break
This is gonna break the loop as the key p is pressed.
Method #2:
Using function wait:
import keyboard
keyboard.wait("p")
print("You pressed p")
It will wait for you to press p and continue the code as it is pressed.
Method #3:
Using the function on_press_key:
import keyboard
keyboard.on_press_key("p", lambda _:print("You pressed p"))
It needs a callback function. I used _ because the keyboard function returns the keyboard event to that function.
Once executed, it will run the function when the key is pressed. You can stop all hooks by running this line:
keyboard.unhook_all()
Method #4:
This method is sort of already answered by user8167727 but I disagree with the code they made. It will be using the function is_pressed but in an other way:
import keyboard
while True:
if keyboard.is_pressed("p"):
print("You pressed p")
break
It will break the loop as p is pressed.
Method #5:
You can use keyboard.record as well. It records all keys pressed and released until you press the escape key or the one you've defined in until arg and returns a list of keyboard.KeyboardEvent elements.
import keyboard
keyboard.record(until="p")
print("You pressed p")
Notes:
keyboard will read keypresses from the whole OS.
keyboard requires root on linux
As OP mention about raw_input - that means he want cli solution.
Linux: curses is what you want (windows PDCurses). Curses, is an graphical API for cli software, you can achieve more than just detect key events.
This code will detect keys until new line is pressed.
import curses
import os
def main(win):
win.nodelay(True)
key=""
win.clear()
win.addstr("Detected key:")
while 1:
try:
key = win.getkey()
win.clear()
win.addstr("Detected key:")
win.addstr(str(key))
if key == os.linesep:
break
except Exception as e:
# No input
pass
curses.wrapper(main)
For Windows you could use msvcrt like this:
import msvcrt
while True:
if msvcrt.kbhit():
key = msvcrt.getch()
print(key) # just to show the result
Use this code for find the which key pressed
from pynput import keyboard
def on_press(key):
try:
print('alphanumeric key {0} pressed'.format(
key.char))
except AttributeError:
print('special key {0} pressed'.format(
key))
def on_release(key):
print('{0} released'.format(
key))
if key == keyboard.Key.esc:
# Stop listener
return False
# Collect events until released
with keyboard.Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
Use PyGame to have a window and then you can get the key events.
For the letter p:
import pygame, sys
import pygame.locals
pygame.init()
BLACK = (0,0,0)
WIDTH = 1280
HEIGHT = 1024
windowSurface = pygame.display.set_mode((WIDTH, HEIGHT), 0, 32)
windowSurface.fill(BLACK)
while True:
for event in pygame.event.get():
if event.key == pygame.K_p: # replace the 'p' to whatever key you wanted to be pressed
pass #Do what you want to here
if event.type == pygame.locals.QUIT:
pygame.quit()
sys.exit()
neoDev's comment at the question itself might be easy to miss, but it links to a solution not mentioned in any answer here.
There is no need to import keyboard with this solution.
Solution copied from this other question, all credits to #neoDev.
This worked for me on macOS Sierra and Python 2.7.10 and 3.6.3
import sys,tty,os,termios
def getkey():
old_settings = termios.tcgetattr(sys.stdin)
tty.setcbreak(sys.stdin.fileno())
try:
while True:
b = os.read(sys.stdin.fileno(), 3).decode()
if len(b) == 3:
k = ord(b[2])
else:
k = ord(b)
key_mapping = {
127: 'backspace',
10: 'return',
32: 'space',
9: 'tab',
27: 'esc',
65: 'up',
66: 'down',
67: 'right',
68: 'left'
}
return key_mapping.get(k, chr(k))
finally:
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_settings)
try:
while True:
k = getkey()
if k == 'esc':
quit()
else:
print(k)
except (KeyboardInterrupt, SystemExit):
os.system('stty sane')
print('stopping.')
Non-root version that works even through ssh: sshkeyboard. Install with pip install sshkeyboard,
then write script such as:
from sshkeyboard import listen_keyboard
def press(key):
print(f"'{key}' pressed")
def release(key):
print(f"'{key}' released")
listen_keyboard(
on_press=press,
on_release=release,
)
And it will print:
'a' pressed
'a' released
When A key is pressed. ESC key ends the listening by default.
It requires less coding than for example curses, tkinter and getch. And it does not require root access like keyboard module.
You don't mention if this is a GUI program or not, but most GUI packages include a way to capture and handle keyboard input. For example, with tkinter (in Py3), you can bind to a certain event and then handle it in a function. For example:
import tkinter as tk
def key_handler(event=None):
if event and event.keysym in ('s', 'p'):
'do something'
r = tk.Tk()
t = tk.Text()
t.pack()
r.bind('<Key>', key_handler)
r.mainloop()
With the above, when you type into the Text widget, the key_handler routine gets called for each (or almost each) key you press.
I made this kind of game based on this post (using msvcr library and Python 3.7).
The following is the main function of the game, that is detecting the keys pressed:
import msvcrt
def _secret_key(self):
# Get the key pressed by the user and check if he/she wins.
bk = chr(10) + "-"*25 + chr(10)
while True:
print(bk + "Press any key(s)" + bk)
#asks the user to type any key(s)
kp = str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Store key's value.
if r'\xe0' in kp:
kp += str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Refactor the variable in case of multi press.
if kp == r'\xe0\x8a':
# If user pressed the secret key, the game ends.
# \x8a is CTRL+F12, that's the secret key.
print(bk + "CONGRATULATIONS YOU PRESSED THE SECRET KEYS!\a" + bk)
print("Press any key to exit the game")
msvcrt.getch()
break
else:
print(" You pressed:'", kp + "', that's not the secret key(s)\n")
if self.select_continue() == "n":
if self.secondary_options():
self._main_menu()
break
If you want the full source code of the program you can see it or download it from GitHub
The secret keypress is:
Ctrl+F12
Using the keyboard package, especially on linux is not an apt solution because that package requires root privileges to run. We can easily implement this with the getkey package. This is analogous to the C language function getchar.
Install it:
pip install getkey
And use it:
from getkey import getkey
while True: #Breaks when key is pressed
key = getkey()
print(key) #Optionally prints out the key.
break
We can add this in a function to return the pressed key.
def Ginput(str):
"""
Now, this function is like the native input() function. It can accept a prompt string, print it out, and when one key is pressed, it will return the key to the caller.
"""
print(str, end='')
while True:
key = getkey()
print(key)
return key
Use like this:
inp = Ginput("\n Press any key to continue: ")
print("You pressed " + inp)
import cv2
key = cv2.waitKey(1)
This is from the openCV package. The delay arg is the number of milliseconds it will wait for a keypress. In this case, 1ms. Per the docs, pollKey() can be used without waiting.
The curses module does that job.
You can test it running this example from the terminal:
import curses
screen = curses.initscr()
curses.noecho()
curses.cbreak()
screen.keypad(True)
try:
while True:
char = screen.getch()
if char == ord('q'):
break
elif char == curses.KEY_UP:
print('up')
elif char == curses.KEY_DOWN:
print('down')
elif char == curses.KEY_RIGHT:
print('right')
elif char == curses.KEY_LEFT:
print('left')
elif char == ord('s'):
print('stop')
finally:
curses.nocbreak(); screen.keypad(0); curses.echo()
curses.endwin()
Here is a cross-platform solution, both blocking and non-blocking, not requiring any external libraries:
import contextlib as _contextlib
try:
import msvcrt as _msvcrt
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [frozenset(("\x00", "\xe0"))]
_next_input = _msvcrt.getwch
_set_terminal_raw = _contextlib.nullcontext
_input_ready = _msvcrt.kbhit
except ImportError: # Unix
import sys as _sys, tty as _tty, termios as _termios, \
select as _select, functools as _functools
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [
frozenset(("\x1b",)),
frozenset(("\x1b\x5b", "\x1b\x4f"))]
#_contextlib.contextmanager
def _set_terminal_raw():
fd = _sys.stdin.fileno()
old_settings = _termios.tcgetattr(fd)
try:
_tty.setraw(_sys.stdin.fileno())
yield
finally:
_termios.tcsetattr(fd, _termios.TCSADRAIN, old_settings)
_next_input = _functools.partial(_sys.stdin.read, 1)
def _input_ready():
return _select.select([_sys.stdin], [], [], 0) == ([_sys.stdin], [], [])
_MAX_ESCAPE_SEQUENCE_LENGTH = len(_ESCAPE_SEQUENCES)
def _get_keystroke():
key = _next_input()
while (len(key) <= _MAX_ESCAPE_SEQUENCE_LENGTH and
key in _ESCAPE_SEQUENCES[len(key)-1]):
key += _next_input()
return key
def _flush():
while _input_ready():
_next_input()
def key_pressed(key: str = None, *, flush: bool = True) -> bool:
"""Return True if the specified key has been pressed
Args:
key: The key to check for. If None, any key will do.
flush: If True (default), flush the input buffer after the key was found.
Return:
boolean stating whether a key was pressed.
"""
with _set_terminal_raw():
if key is None:
if not _input_ready():
return False
if flush:
_flush()
return True
while _input_ready():
keystroke = _get_keystroke()
if keystroke == key:
if flush:
_flush()
return True
return False
def print_key() -> None:
"""Print the key that was pressed
Useful for debugging and figuring out keys.
"""
with _set_terminal_raw():
_flush()
print("\\x" + "\\x".join(map("{:02x}".format, map(ord, _get_keystroke()))))
def wait_key(key=None, *, pre_flush=False, post_flush=True) -> str:
"""Wait for a specific key to be pressed.
Args:
key: The key to check for. If None, any key will do.
pre_flush: If True, flush the input buffer before waiting for input.
Useful in case you wish to ignore previously pressed keys.
post_flush: If True (default), flush the input buffer after the key was
found. Useful for ignoring multiple key-presses.
Returns:
The key that was pressed.
"""
with _set_terminal_raw():
if pre_flush:
_flush()
if key is None:
key = _get_keystroke()
if post_flush:
_flush()
return key
while _get_keystroke() != key:
pass
if post_flush:
_flush()
return key
You can use key_pressed() inside a while loop:
while True:
time.sleep(5)
if key_pressed():
break
You can also check for a specific key:
while True:
time.sleep(5)
if key_pressed("\x00\x48"): # Up arrow key on Windows.
break
Find out special keys using print_key():
>>> print_key()
# Press up key
\x00\x48
Or wait until a certain key is pressed:
>>> wait_key("a") # Stop and ignore all inputs until "a" is pressed.
You can use pygame's get_pressed():
import pygame
while True:
keys = pygame.key.get_pressed()
if (keys[pygame.K_LEFT]):
pos_x -= 5
elif (keys[pygame.K_RIGHT]):
pos_x += 5
elif (keys[pygame.K_UP]):
pos_y -= 5
elif (keys[pygame.K_DOWN]):
pos_y += 5
I was finding how to detect different key presses subsequently until e.g. Ctrl + C break the program from listening and responding to different key presses accordingly.
Using following code,
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
if keyboard.is_pressed("up"):
print("Reach the top!")
if keyboard.is_pressed("ctrl+c"):
break
It will cause the program to keep spamming the response text, if I pressed arrow down or arrow up. I believed because it's in a while-loop, and eventhough you only press once, but it will get triggered multiple times (as written in doc, I am awared of this after I read.)
At that moment, I still haven't went to read the doc, I try adding in time.sleep()
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
time.sleep(0.5)
if keyboard.is_pressed("up"):
print("Reach the top!")
time.sleep(0.5)
if keyboard.is_pressed("ctrl+c"):
break
This solves the spamming issue.
But this is not a very good way as of subsequent very fast taps on the arrow key, will only trigger once instead of as many times as I pressed, because the program will sleep for 0.5 second right, meant the "keyboard event" happened at that 0.5 second will not be counted.
So, I proceed to read the doc and get the idea to do this at this part.
while True:
# Wait for the next event.
event = keyboard.read_event()
if event.event_type == keyboard.KEY_DOWN and event.name == 'down':
# do whatever function you wanna here
if event.event_type == keyboard.KEY_DOWN and event.name == 'up':
# do whatever function you wanna here
if keyboard.is_pressed("ctrl+c"):
break
Now, it's working fine and great!
TBH, I am not deep dive into the doc, used to, but I have really forgetten the content, if you know or find any better way to do the similar function, please enlighten me!
Thank you, wish you have a great day ahead!
I am working on a self challenge of making a cash register in Python, and I'm looking to use the keyboard module for inputting values instead of typing them into the console. However, I think the keyboard module command I'm using to detect key presses is not becoming false after pressing the key, meaning the number I just typed is being inserted again and again. What is the proper command to use? Here is the code to test out the input before incorporating it into my main code:
import keyboard
running =True
price=""
while running:
if keyboard.is_pressed("1"):
price+="1"
if keyboard.is_pressed("2"):
price+="2"
if keyboard.is_pressed("3"):
price+="3"
if keyboard.is_pressed("4"):
price+="4"
if keyboard.is_pressed("5"):
price+="5"
if keyboard.is_pressed("6"):
price+="6"
if keyboard.is_pressed("7"):
price+="7"
if keyboard.is_pressed("8"):
price+="8"
if keyboard.is_pressed("9"):
price+="9"
if keyboard.is_pressed("0"):
price+="0"
if keyboard.is_pressed("Enter"):
running=False
subtotal=int(price)
print(subtotal)
subtotal=float(subtotal)/100
print("Subtotal: {}".format(subtotal))
There are usually many different ways to code something. Some are better than others. In a problem that is based on keyboard input, like your cash register/adding machine project, I would go with an event-driven approach. Your sample code represents a polling approach. It can work, but it may not be as efficient.
I've never used the keyboard module before, but I did some quick research and came up with the below program, which may give you guidance. Every time a key in the keyboard is pressed, the key_pressed() routine is triggered. Digits are stored, and the Enter key causes an addition and then clearing of the stored digits.
import keyboard
sin = ""
val = 0.0
def key_pressed(e, *a, **kw):
global sin, val
# print(e, a, kw)
k = e.name
if k in "0123456789":
sin += k
elif k == 'enter':
val += float(sin)/100.0
print("Entered: " + sin)
print('Value: ', val)
sin = ""
keyboard.on_press(key_pressed)
I took a look at the documentation located here https://github.com/boppreh/keyboard.
I ran and tested this code on python 3.9
import keyboard
from functools import partial
num = ""
def add(i):
global num
num += str(i)
print(num, end='\r')
for i in range(10): # numbers 0...9
keyboard.add_hotkey(str(i), partial(add, i)) # add hotkeys
keyboard.wait('enter') # block process until "ENTER" is pressed
print("\nNum:{}".format(num))
You could additionally unhook the hotkeys by calling keyboard.unhook_all_hotkeys() after grabbing the number. I imagine you could wait on "+" and "-" if you wanted to implement addition and subtraction of numbers.
I like the last example from this snippet from the Github docs that I ended up using:
import keyboard
# Don't do this! This will call `print('space')` immediately then fail when the key is actually pressed.
#keyboard.add_hotkey('space', print('space was pressed'))
# Do this instead
keyboard.add_hotkey('space', lambda: print('space was pressed'))
# or this
def on_space():
print('space was pressed')
keyboard.add_hotkey('space', on_space)
# or this
while True:
# Wait for the next event.
event = keyboard.read_event()
if event.event_type == keyboard.KEY_DOWN and event.name == 'space':
print('space was pressed')
Just started using python one week ago. At the moment I am trying to code a small program class which creates a menu in a terminal. The idea is to go through the menu using up / down keys. You can select a menu item by pressing enter. I control the keys being pressed using the module "keyboard".
In order to use my class, one has to create an object and add menu items by means of the method "add_menu". The latter mentioned method has two arguments, the first one is used for the name of the menu item, the second one is used to hand over a function, which will be called in case enter was pressed.
In order to check if a key was pressed, I use the method keyboard.on_press from the module keyboard. In case a key was pressed, the method keyboard.on_press executes the method handle_menu of the menu object. The handle_menu method uses a list named "controller" in order to organize the selection of a menu item. Basically, it is just a list like [0,0,1,0]. The element being 1 indicates the currently selected menu item.
Now to my problem: My menu has a menu item "Exit". If this is selected and enter is pressed, I want the whole program to stop. Therefore, if exit was pressed the attribute exit is changed from 0 to 1. In the while loop of my program I always check if object.exit is != 1, if not the program should end. Somehow this does not always work. If I scroll down immediately from the beginning, without pressing enter at other menu items, it works. However, if I press enter several times at other menu items and then go to the exit menu item, the program does not end anymore (or only if I press enter for 10-20 times). I have the feeling that the keyboard.on_press method and the while loop are sometimes uncoupled in the background and run asynchronously? I do not really understand what is going on...
import keyboard #Using module keyboard
import os
class bcolors:
HEADER = '\033[95m'
OKBLUE = '\033[94m'
OKGREEN = '\033[92m'
WARNING = '\033[93m'
FAIL = '\033[91m'
ENDC = '\033[0m'
BOLD = '\033[1m'
UNDERLINE = '\033[4m'
def start_function():
print('Start works')
def save_function():
print('Save works')
def option_function():
print('Option works')
class c_menu:
def __init__ (self):
self.exit = 0
self.menu = []
self.functions = []
self.controller = []
def add_menu(self, menu, function):
self.menu.append(menu)
self.functions.append(function)
if len(self.controller) == 0:
self.controller.append(1)
else:
self.controller.append(0)
def start_menu(self):
os.system('cls' if os.name == 'nt' else 'clear')
for menu_item in range(len(self.menu)):
if self.controller[menu_item] == 1:
print(bcolors.WARNING + self.menu[menu_item])
else:
print(bcolors.OKBLUE + self.menu[menu_item])
def handle_menu(self, event):
os.system('cls' if os.name == 'nt' else 'clear')
if event.name == 'down':
if self.controller.index(1) != (len(self.controller) - 1):
self.controller.insert(0,0)
self.controller.pop()
elif event.name == 'up':
if self.controller.index(1) != 0:
self.controller.append(0)
self.controller.pop(0)
for menu_item in range(len(self.menu)): #printing all menu items with the right color
if self.controller[menu_item] == 1:
print(bcolors.WARNING + self.menu[menu_item])
else:
print(bcolors.OKBLUE + self.menu[menu_item])
if event.name == 'enter':
if self.functions[self.controller.index(1)] == 'exit':
self.exit = 1
return
self.functions[self.controller.index(1)]()
main_menu = c_menu()
main_menu.add_menu('Start', start_function)
main_menu.add_menu('Save', save_function)
main_menu.add_menu('Option', option_function)
main_menu.add_menu('Exit', 'exit')
main_menu.start_menu()
keyboard.on_press(main_menu.handle_menu)
while main_menu.exit != 1:
pass
I think I understood the problem. The program is actually ending properly, however, the last "enter" pressed is still in a kind of buffer (or something similar) and after the end of program, the terminal command "python menu.py" is executed again and again (it goes so fast that it looks like the program did not end). Unfortunately, I do not really understand why this is happening.
My solution so far, I use "keyboard.send('ctrl+c')" at the very end of my program (after the while loop). This prevents the terminal to re-execute the command "python menu.py" again.
I am making a stopwatch type program in Python and I would like to know how to detect if a key is pressed (such as p for pause and s for stop), and I would not like it to be something like raw_input, which waits for the user's input before continuing execution.
Anyone know how to do this in a while loop?
I would like to make this cross-platform but, if that is not possible, then my main development target is Linux.
Python has a keyboard module with many features. Install it, perhaps with this command:
pip3 install keyboard
Then use it in code like:
import keyboard # using module keyboard
while True: # making a loop
try: # used try so that if user pressed other than the given key error will not be shown
if keyboard.is_pressed('q'): # if key 'q' is pressed
print('You Pressed A Key!')
break # finishing the loop
except:
break # if user pressed a key other than the given key the loop will break
For those who are on windows and were struggling to find an working answer here's mine: pynput
from pynput.keyboard import Key, Listener
def on_press(key):
print('{0} pressed'.format(
key))
def on_release(key):
print('{0} release'.format(
key))
if key == Key.esc:
# Stop listener
return False
# Collect events until released
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
The function above will print whichever key you are pressing plus start an action as you release the 'esc' key. The keyboard documentation is here for a more variated usage.
Markus von Broady highlighted a potential issue that is: This answer doesn't require you being in the current window to this script be activated, a solution to windows would be:
from win32gui import GetWindowText, GetForegroundWindow
current_window = (GetWindowText(GetForegroundWindow()))
desired_window_name = "Stopwatch" #Whatever the name of your window should be
#Infinite loops are dangerous.
while True: #Don't rely on this line of code too much and make sure to adapt this to your project.
if current_window == desired_window_name:
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
More things can be done with keyboard module.
You can install this module using pip install keyboard
Here are some of the methods:
Method #1:
Using the function read_key():
import keyboard
while True:
if keyboard.read_key() == "p":
print("You pressed p")
break
This is gonna break the loop as the key p is pressed.
Method #2:
Using function wait:
import keyboard
keyboard.wait("p")
print("You pressed p")
It will wait for you to press p and continue the code as it is pressed.
Method #3:
Using the function on_press_key:
import keyboard
keyboard.on_press_key("p", lambda _:print("You pressed p"))
It needs a callback function. I used _ because the keyboard function returns the keyboard event to that function.
Once executed, it will run the function when the key is pressed. You can stop all hooks by running this line:
keyboard.unhook_all()
Method #4:
This method is sort of already answered by user8167727 but I disagree with the code they made. It will be using the function is_pressed but in an other way:
import keyboard
while True:
if keyboard.is_pressed("p"):
print("You pressed p")
break
It will break the loop as p is pressed.
Method #5:
You can use keyboard.record as well. It records all keys pressed and released until you press the escape key or the one you've defined in until arg and returns a list of keyboard.KeyboardEvent elements.
import keyboard
keyboard.record(until="p")
print("You pressed p")
Notes:
keyboard will read keypresses from the whole OS.
keyboard requires root on linux
As OP mention about raw_input - that means he want cli solution.
Linux: curses is what you want (windows PDCurses). Curses, is an graphical API for cli software, you can achieve more than just detect key events.
This code will detect keys until new line is pressed.
import curses
import os
def main(win):
win.nodelay(True)
key=""
win.clear()
win.addstr("Detected key:")
while 1:
try:
key = win.getkey()
win.clear()
win.addstr("Detected key:")
win.addstr(str(key))
if key == os.linesep:
break
except Exception as e:
# No input
pass
curses.wrapper(main)
For Windows you could use msvcrt like this:
import msvcrt
while True:
if msvcrt.kbhit():
key = msvcrt.getch()
print(key) # just to show the result
Use this code for find the which key pressed
from pynput import keyboard
def on_press(key):
try:
print('alphanumeric key {0} pressed'.format(
key.char))
except AttributeError:
print('special key {0} pressed'.format(
key))
def on_release(key):
print('{0} released'.format(
key))
if key == keyboard.Key.esc:
# Stop listener
return False
# Collect events until released
with keyboard.Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
Use PyGame to have a window and then you can get the key events.
For the letter p:
import pygame, sys
import pygame.locals
pygame.init()
BLACK = (0,0,0)
WIDTH = 1280
HEIGHT = 1024
windowSurface = pygame.display.set_mode((WIDTH, HEIGHT), 0, 32)
windowSurface.fill(BLACK)
while True:
for event in pygame.event.get():
if event.key == pygame.K_p: # replace the 'p' to whatever key you wanted to be pressed
pass #Do what you want to here
if event.type == pygame.locals.QUIT:
pygame.quit()
sys.exit()
neoDev's comment at the question itself might be easy to miss, but it links to a solution not mentioned in any answer here.
There is no need to import keyboard with this solution.
Solution copied from this other question, all credits to #neoDev.
This worked for me on macOS Sierra and Python 2.7.10 and 3.6.3
import sys,tty,os,termios
def getkey():
old_settings = termios.tcgetattr(sys.stdin)
tty.setcbreak(sys.stdin.fileno())
try:
while True:
b = os.read(sys.stdin.fileno(), 3).decode()
if len(b) == 3:
k = ord(b[2])
else:
k = ord(b)
key_mapping = {
127: 'backspace',
10: 'return',
32: 'space',
9: 'tab',
27: 'esc',
65: 'up',
66: 'down',
67: 'right',
68: 'left'
}
return key_mapping.get(k, chr(k))
finally:
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_settings)
try:
while True:
k = getkey()
if k == 'esc':
quit()
else:
print(k)
except (KeyboardInterrupt, SystemExit):
os.system('stty sane')
print('stopping.')
Non-root version that works even through ssh: sshkeyboard. Install with pip install sshkeyboard,
then write script such as:
from sshkeyboard import listen_keyboard
def press(key):
print(f"'{key}' pressed")
def release(key):
print(f"'{key}' released")
listen_keyboard(
on_press=press,
on_release=release,
)
And it will print:
'a' pressed
'a' released
When A key is pressed. ESC key ends the listening by default.
It requires less coding than for example curses, tkinter and getch. And it does not require root access like keyboard module.
You don't mention if this is a GUI program or not, but most GUI packages include a way to capture and handle keyboard input. For example, with tkinter (in Py3), you can bind to a certain event and then handle it in a function. For example:
import tkinter as tk
def key_handler(event=None):
if event and event.keysym in ('s', 'p'):
'do something'
r = tk.Tk()
t = tk.Text()
t.pack()
r.bind('<Key>', key_handler)
r.mainloop()
With the above, when you type into the Text widget, the key_handler routine gets called for each (or almost each) key you press.
I made this kind of game based on this post (using msvcr library and Python 3.7).
The following is the main function of the game, that is detecting the keys pressed:
import msvcrt
def _secret_key(self):
# Get the key pressed by the user and check if he/she wins.
bk = chr(10) + "-"*25 + chr(10)
while True:
print(bk + "Press any key(s)" + bk)
#asks the user to type any key(s)
kp = str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Store key's value.
if r'\xe0' in kp:
kp += str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Refactor the variable in case of multi press.
if kp == r'\xe0\x8a':
# If user pressed the secret key, the game ends.
# \x8a is CTRL+F12, that's the secret key.
print(bk + "CONGRATULATIONS YOU PRESSED THE SECRET KEYS!\a" + bk)
print("Press any key to exit the game")
msvcrt.getch()
break
else:
print(" You pressed:'", kp + "', that's not the secret key(s)\n")
if self.select_continue() == "n":
if self.secondary_options():
self._main_menu()
break
If you want the full source code of the program you can see it or download it from GitHub
The secret keypress is:
Ctrl+F12
Using the keyboard package, especially on linux is not an apt solution because that package requires root privileges to run. We can easily implement this with the getkey package. This is analogous to the C language function getchar.
Install it:
pip install getkey
And use it:
from getkey import getkey
while True: #Breaks when key is pressed
key = getkey()
print(key) #Optionally prints out the key.
break
We can add this in a function to return the pressed key.
def Ginput(str):
"""
Now, this function is like the native input() function. It can accept a prompt string, print it out, and when one key is pressed, it will return the key to the caller.
"""
print(str, end='')
while True:
key = getkey()
print(key)
return key
Use like this:
inp = Ginput("\n Press any key to continue: ")
print("You pressed " + inp)
import cv2
key = cv2.waitKey(1)
This is from the openCV package. The delay arg is the number of milliseconds it will wait for a keypress. In this case, 1ms. Per the docs, pollKey() can be used without waiting.
The curses module does that job.
You can test it running this example from the terminal:
import curses
screen = curses.initscr()
curses.noecho()
curses.cbreak()
screen.keypad(True)
try:
while True:
char = screen.getch()
if char == ord('q'):
break
elif char == curses.KEY_UP:
print('up')
elif char == curses.KEY_DOWN:
print('down')
elif char == curses.KEY_RIGHT:
print('right')
elif char == curses.KEY_LEFT:
print('left')
elif char == ord('s'):
print('stop')
finally:
curses.nocbreak(); screen.keypad(0); curses.echo()
curses.endwin()
Here is a cross-platform solution, both blocking and non-blocking, not requiring any external libraries:
import contextlib as _contextlib
try:
import msvcrt as _msvcrt
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [frozenset(("\x00", "\xe0"))]
_next_input = _msvcrt.getwch
_set_terminal_raw = _contextlib.nullcontext
_input_ready = _msvcrt.kbhit
except ImportError: # Unix
import sys as _sys, tty as _tty, termios as _termios, \
select as _select, functools as _functools
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [
frozenset(("\x1b",)),
frozenset(("\x1b\x5b", "\x1b\x4f"))]
#_contextlib.contextmanager
def _set_terminal_raw():
fd = _sys.stdin.fileno()
old_settings = _termios.tcgetattr(fd)
try:
_tty.setraw(_sys.stdin.fileno())
yield
finally:
_termios.tcsetattr(fd, _termios.TCSADRAIN, old_settings)
_next_input = _functools.partial(_sys.stdin.read, 1)
def _input_ready():
return _select.select([_sys.stdin], [], [], 0) == ([_sys.stdin], [], [])
_MAX_ESCAPE_SEQUENCE_LENGTH = len(_ESCAPE_SEQUENCES)
def _get_keystroke():
key = _next_input()
while (len(key) <= _MAX_ESCAPE_SEQUENCE_LENGTH and
key in _ESCAPE_SEQUENCES[len(key)-1]):
key += _next_input()
return key
def _flush():
while _input_ready():
_next_input()
def key_pressed(key: str = None, *, flush: bool = True) -> bool:
"""Return True if the specified key has been pressed
Args:
key: The key to check for. If None, any key will do.
flush: If True (default), flush the input buffer after the key was found.
Return:
boolean stating whether a key was pressed.
"""
with _set_terminal_raw():
if key is None:
if not _input_ready():
return False
if flush:
_flush()
return True
while _input_ready():
keystroke = _get_keystroke()
if keystroke == key:
if flush:
_flush()
return True
return False
def print_key() -> None:
"""Print the key that was pressed
Useful for debugging and figuring out keys.
"""
with _set_terminal_raw():
_flush()
print("\\x" + "\\x".join(map("{:02x}".format, map(ord, _get_keystroke()))))
def wait_key(key=None, *, pre_flush=False, post_flush=True) -> str:
"""Wait for a specific key to be pressed.
Args:
key: The key to check for. If None, any key will do.
pre_flush: If True, flush the input buffer before waiting for input.
Useful in case you wish to ignore previously pressed keys.
post_flush: If True (default), flush the input buffer after the key was
found. Useful for ignoring multiple key-presses.
Returns:
The key that was pressed.
"""
with _set_terminal_raw():
if pre_flush:
_flush()
if key is None:
key = _get_keystroke()
if post_flush:
_flush()
return key
while _get_keystroke() != key:
pass
if post_flush:
_flush()
return key
You can use key_pressed() inside a while loop:
while True:
time.sleep(5)
if key_pressed():
break
You can also check for a specific key:
while True:
time.sleep(5)
if key_pressed("\x00\x48"): # Up arrow key on Windows.
break
Find out special keys using print_key():
>>> print_key()
# Press up key
\x00\x48
Or wait until a certain key is pressed:
>>> wait_key("a") # Stop and ignore all inputs until "a" is pressed.
You can use pygame's get_pressed():
import pygame
while True:
keys = pygame.key.get_pressed()
if (keys[pygame.K_LEFT]):
pos_x -= 5
elif (keys[pygame.K_RIGHT]):
pos_x += 5
elif (keys[pygame.K_UP]):
pos_y -= 5
elif (keys[pygame.K_DOWN]):
pos_y += 5
I was finding how to detect different key presses subsequently until e.g. Ctrl + C break the program from listening and responding to different key presses accordingly.
Using following code,
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
if keyboard.is_pressed("up"):
print("Reach the top!")
if keyboard.is_pressed("ctrl+c"):
break
It will cause the program to keep spamming the response text, if I pressed arrow down or arrow up. I believed because it's in a while-loop, and eventhough you only press once, but it will get triggered multiple times (as written in doc, I am awared of this after I read.)
At that moment, I still haven't went to read the doc, I try adding in time.sleep()
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
time.sleep(0.5)
if keyboard.is_pressed("up"):
print("Reach the top!")
time.sleep(0.5)
if keyboard.is_pressed("ctrl+c"):
break
This solves the spamming issue.
But this is not a very good way as of subsequent very fast taps on the arrow key, will only trigger once instead of as many times as I pressed, because the program will sleep for 0.5 second right, meant the "keyboard event" happened at that 0.5 second will not be counted.
So, I proceed to read the doc and get the idea to do this at this part.
while True:
# Wait for the next event.
event = keyboard.read_event()
if event.event_type == keyboard.KEY_DOWN and event.name == 'down':
# do whatever function you wanna here
if event.event_type == keyboard.KEY_DOWN and event.name == 'up':
# do whatever function you wanna here
if keyboard.is_pressed("ctrl+c"):
break
Now, it's working fine and great!
TBH, I am not deep dive into the doc, used to, but I have really forgetten the content, if you know or find any better way to do the similar function, please enlighten me!
Thank you, wish you have a great day ahead!
I am making a stopwatch type program in Python and I would like to know how to detect if a key is pressed (such as p for pause and s for stop), and I would not like it to be something like raw_input, which waits for the user's input before continuing execution.
Anyone know how to do this in a while loop?
I would like to make this cross-platform but, if that is not possible, then my main development target is Linux.
Python has a keyboard module with many features. Install it, perhaps with this command:
pip3 install keyboard
Then use it in code like:
import keyboard # using module keyboard
while True: # making a loop
try: # used try so that if user pressed other than the given key error will not be shown
if keyboard.is_pressed('q'): # if key 'q' is pressed
print('You Pressed A Key!')
break # finishing the loop
except:
break # if user pressed a key other than the given key the loop will break
For those who are on windows and were struggling to find an working answer here's mine: pynput
from pynput.keyboard import Key, Listener
def on_press(key):
print('{0} pressed'.format(
key))
def on_release(key):
print('{0} release'.format(
key))
if key == Key.esc:
# Stop listener
return False
# Collect events until released
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
The function above will print whichever key you are pressing plus start an action as you release the 'esc' key. The keyboard documentation is here for a more variated usage.
Markus von Broady highlighted a potential issue that is: This answer doesn't require you being in the current window to this script be activated, a solution to windows would be:
from win32gui import GetWindowText, GetForegroundWindow
current_window = (GetWindowText(GetForegroundWindow()))
desired_window_name = "Stopwatch" #Whatever the name of your window should be
#Infinite loops are dangerous.
while True: #Don't rely on this line of code too much and make sure to adapt this to your project.
if current_window == desired_window_name:
with Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
More things can be done with keyboard module.
You can install this module using pip install keyboard
Here are some of the methods:
Method #1:
Using the function read_key():
import keyboard
while True:
if keyboard.read_key() == "p":
print("You pressed p")
break
This is gonna break the loop as the key p is pressed.
Method #2:
Using function wait:
import keyboard
keyboard.wait("p")
print("You pressed p")
It will wait for you to press p and continue the code as it is pressed.
Method #3:
Using the function on_press_key:
import keyboard
keyboard.on_press_key("p", lambda _:print("You pressed p"))
It needs a callback function. I used _ because the keyboard function returns the keyboard event to that function.
Once executed, it will run the function when the key is pressed. You can stop all hooks by running this line:
keyboard.unhook_all()
Method #4:
This method is sort of already answered by user8167727 but I disagree with the code they made. It will be using the function is_pressed but in an other way:
import keyboard
while True:
if keyboard.is_pressed("p"):
print("You pressed p")
break
It will break the loop as p is pressed.
Method #5:
You can use keyboard.record as well. It records all keys pressed and released until you press the escape key or the one you've defined in until arg and returns a list of keyboard.KeyboardEvent elements.
import keyboard
keyboard.record(until="p")
print("You pressed p")
Notes:
keyboard will read keypresses from the whole OS.
keyboard requires root on linux
As OP mention about raw_input - that means he want cli solution.
Linux: curses is what you want (windows PDCurses). Curses, is an graphical API for cli software, you can achieve more than just detect key events.
This code will detect keys until new line is pressed.
import curses
import os
def main(win):
win.nodelay(True)
key=""
win.clear()
win.addstr("Detected key:")
while 1:
try:
key = win.getkey()
win.clear()
win.addstr("Detected key:")
win.addstr(str(key))
if key == os.linesep:
break
except Exception as e:
# No input
pass
curses.wrapper(main)
For Windows you could use msvcrt like this:
import msvcrt
while True:
if msvcrt.kbhit():
key = msvcrt.getch()
print(key) # just to show the result
Use this code for find the which key pressed
from pynput import keyboard
def on_press(key):
try:
print('alphanumeric key {0} pressed'.format(
key.char))
except AttributeError:
print('special key {0} pressed'.format(
key))
def on_release(key):
print('{0} released'.format(
key))
if key == keyboard.Key.esc:
# Stop listener
return False
# Collect events until released
with keyboard.Listener(
on_press=on_press,
on_release=on_release) as listener:
listener.join()
Use PyGame to have a window and then you can get the key events.
For the letter p:
import pygame, sys
import pygame.locals
pygame.init()
BLACK = (0,0,0)
WIDTH = 1280
HEIGHT = 1024
windowSurface = pygame.display.set_mode((WIDTH, HEIGHT), 0, 32)
windowSurface.fill(BLACK)
while True:
for event in pygame.event.get():
if event.key == pygame.K_p: # replace the 'p' to whatever key you wanted to be pressed
pass #Do what you want to here
if event.type == pygame.locals.QUIT:
pygame.quit()
sys.exit()
neoDev's comment at the question itself might be easy to miss, but it links to a solution not mentioned in any answer here.
There is no need to import keyboard with this solution.
Solution copied from this other question, all credits to #neoDev.
This worked for me on macOS Sierra and Python 2.7.10 and 3.6.3
import sys,tty,os,termios
def getkey():
old_settings = termios.tcgetattr(sys.stdin)
tty.setcbreak(sys.stdin.fileno())
try:
while True:
b = os.read(sys.stdin.fileno(), 3).decode()
if len(b) == 3:
k = ord(b[2])
else:
k = ord(b)
key_mapping = {
127: 'backspace',
10: 'return',
32: 'space',
9: 'tab',
27: 'esc',
65: 'up',
66: 'down',
67: 'right',
68: 'left'
}
return key_mapping.get(k, chr(k))
finally:
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_settings)
try:
while True:
k = getkey()
if k == 'esc':
quit()
else:
print(k)
except (KeyboardInterrupt, SystemExit):
os.system('stty sane')
print('stopping.')
Non-root version that works even through ssh: sshkeyboard. Install with pip install sshkeyboard,
then write script such as:
from sshkeyboard import listen_keyboard
def press(key):
print(f"'{key}' pressed")
def release(key):
print(f"'{key}' released")
listen_keyboard(
on_press=press,
on_release=release,
)
And it will print:
'a' pressed
'a' released
When A key is pressed. ESC key ends the listening by default.
It requires less coding than for example curses, tkinter and getch. And it does not require root access like keyboard module.
You don't mention if this is a GUI program or not, but most GUI packages include a way to capture and handle keyboard input. For example, with tkinter (in Py3), you can bind to a certain event and then handle it in a function. For example:
import tkinter as tk
def key_handler(event=None):
if event and event.keysym in ('s', 'p'):
'do something'
r = tk.Tk()
t = tk.Text()
t.pack()
r.bind('<Key>', key_handler)
r.mainloop()
With the above, when you type into the Text widget, the key_handler routine gets called for each (or almost each) key you press.
I made this kind of game based on this post (using msvcr library and Python 3.7).
The following is the main function of the game, that is detecting the keys pressed:
import msvcrt
def _secret_key(self):
# Get the key pressed by the user and check if he/she wins.
bk = chr(10) + "-"*25 + chr(10)
while True:
print(bk + "Press any key(s)" + bk)
#asks the user to type any key(s)
kp = str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Store key's value.
if r'\xe0' in kp:
kp += str(msvcrt.getch()).replace("b'", "").replace("'", "")
# Refactor the variable in case of multi press.
if kp == r'\xe0\x8a':
# If user pressed the secret key, the game ends.
# \x8a is CTRL+F12, that's the secret key.
print(bk + "CONGRATULATIONS YOU PRESSED THE SECRET KEYS!\a" + bk)
print("Press any key to exit the game")
msvcrt.getch()
break
else:
print(" You pressed:'", kp + "', that's not the secret key(s)\n")
if self.select_continue() == "n":
if self.secondary_options():
self._main_menu()
break
If you want the full source code of the program you can see it or download it from GitHub
The secret keypress is:
Ctrl+F12
Using the keyboard package, especially on linux is not an apt solution because that package requires root privileges to run. We can easily implement this with the getkey package. This is analogous to the C language function getchar.
Install it:
pip install getkey
And use it:
from getkey import getkey
while True: #Breaks when key is pressed
key = getkey()
print(key) #Optionally prints out the key.
break
We can add this in a function to return the pressed key.
def Ginput(str):
"""
Now, this function is like the native input() function. It can accept a prompt string, print it out, and when one key is pressed, it will return the key to the caller.
"""
print(str, end='')
while True:
key = getkey()
print(key)
return key
Use like this:
inp = Ginput("\n Press any key to continue: ")
print("You pressed " + inp)
import cv2
key = cv2.waitKey(1)
This is from the openCV package. The delay arg is the number of milliseconds it will wait for a keypress. In this case, 1ms. Per the docs, pollKey() can be used without waiting.
The curses module does that job.
You can test it running this example from the terminal:
import curses
screen = curses.initscr()
curses.noecho()
curses.cbreak()
screen.keypad(True)
try:
while True:
char = screen.getch()
if char == ord('q'):
break
elif char == curses.KEY_UP:
print('up')
elif char == curses.KEY_DOWN:
print('down')
elif char == curses.KEY_RIGHT:
print('right')
elif char == curses.KEY_LEFT:
print('left')
elif char == ord('s'):
print('stop')
finally:
curses.nocbreak(); screen.keypad(0); curses.echo()
curses.endwin()
Here is a cross-platform solution, both blocking and non-blocking, not requiring any external libraries:
import contextlib as _contextlib
try:
import msvcrt as _msvcrt
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [frozenset(("\x00", "\xe0"))]
_next_input = _msvcrt.getwch
_set_terminal_raw = _contextlib.nullcontext
_input_ready = _msvcrt.kbhit
except ImportError: # Unix
import sys as _sys, tty as _tty, termios as _termios, \
select as _select, functools as _functools
# Length 0 sequences, length 1 sequences...
_ESCAPE_SEQUENCES = [
frozenset(("\x1b",)),
frozenset(("\x1b\x5b", "\x1b\x4f"))]
#_contextlib.contextmanager
def _set_terminal_raw():
fd = _sys.stdin.fileno()
old_settings = _termios.tcgetattr(fd)
try:
_tty.setraw(_sys.stdin.fileno())
yield
finally:
_termios.tcsetattr(fd, _termios.TCSADRAIN, old_settings)
_next_input = _functools.partial(_sys.stdin.read, 1)
def _input_ready():
return _select.select([_sys.stdin], [], [], 0) == ([_sys.stdin], [], [])
_MAX_ESCAPE_SEQUENCE_LENGTH = len(_ESCAPE_SEQUENCES)
def _get_keystroke():
key = _next_input()
while (len(key) <= _MAX_ESCAPE_SEQUENCE_LENGTH and
key in _ESCAPE_SEQUENCES[len(key)-1]):
key += _next_input()
return key
def _flush():
while _input_ready():
_next_input()
def key_pressed(key: str = None, *, flush: bool = True) -> bool:
"""Return True if the specified key has been pressed
Args:
key: The key to check for. If None, any key will do.
flush: If True (default), flush the input buffer after the key was found.
Return:
boolean stating whether a key was pressed.
"""
with _set_terminal_raw():
if key is None:
if not _input_ready():
return False
if flush:
_flush()
return True
while _input_ready():
keystroke = _get_keystroke()
if keystroke == key:
if flush:
_flush()
return True
return False
def print_key() -> None:
"""Print the key that was pressed
Useful for debugging and figuring out keys.
"""
with _set_terminal_raw():
_flush()
print("\\x" + "\\x".join(map("{:02x}".format, map(ord, _get_keystroke()))))
def wait_key(key=None, *, pre_flush=False, post_flush=True) -> str:
"""Wait for a specific key to be pressed.
Args:
key: The key to check for. If None, any key will do.
pre_flush: If True, flush the input buffer before waiting for input.
Useful in case you wish to ignore previously pressed keys.
post_flush: If True (default), flush the input buffer after the key was
found. Useful for ignoring multiple key-presses.
Returns:
The key that was pressed.
"""
with _set_terminal_raw():
if pre_flush:
_flush()
if key is None:
key = _get_keystroke()
if post_flush:
_flush()
return key
while _get_keystroke() != key:
pass
if post_flush:
_flush()
return key
You can use key_pressed() inside a while loop:
while True:
time.sleep(5)
if key_pressed():
break
You can also check for a specific key:
while True:
time.sleep(5)
if key_pressed("\x00\x48"): # Up arrow key on Windows.
break
Find out special keys using print_key():
>>> print_key()
# Press up key
\x00\x48
Or wait until a certain key is pressed:
>>> wait_key("a") # Stop and ignore all inputs until "a" is pressed.
You can use pygame's get_pressed():
import pygame
while True:
keys = pygame.key.get_pressed()
if (keys[pygame.K_LEFT]):
pos_x -= 5
elif (keys[pygame.K_RIGHT]):
pos_x += 5
elif (keys[pygame.K_UP]):
pos_y -= 5
elif (keys[pygame.K_DOWN]):
pos_y += 5
I was finding how to detect different key presses subsequently until e.g. Ctrl + C break the program from listening and responding to different key presses accordingly.
Using following code,
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
if keyboard.is_pressed("up"):
print("Reach the top!")
if keyboard.is_pressed("ctrl+c"):
break
It will cause the program to keep spamming the response text, if I pressed arrow down or arrow up. I believed because it's in a while-loop, and eventhough you only press once, but it will get triggered multiple times (as written in doc, I am awared of this after I read.)
At that moment, I still haven't went to read the doc, I try adding in time.sleep()
while True:
if keyboard.is_pressed("down"):
print("Reach the bottom!")
time.sleep(0.5)
if keyboard.is_pressed("up"):
print("Reach the top!")
time.sleep(0.5)
if keyboard.is_pressed("ctrl+c"):
break
This solves the spamming issue.
But this is not a very good way as of subsequent very fast taps on the arrow key, will only trigger once instead of as many times as I pressed, because the program will sleep for 0.5 second right, meant the "keyboard event" happened at that 0.5 second will not be counted.
So, I proceed to read the doc and get the idea to do this at this part.
while True:
# Wait for the next event.
event = keyboard.read_event()
if event.event_type == keyboard.KEY_DOWN and event.name == 'down':
# do whatever function you wanna here
if event.event_type == keyboard.KEY_DOWN and event.name == 'up':
# do whatever function you wanna here
if keyboard.is_pressed("ctrl+c"):
break
Now, it's working fine and great!
TBH, I am not deep dive into the doc, used to, but I have really forgetten the content, if you know or find any better way to do the similar function, please enlighten me!
Thank you, wish you have a great day ahead!