I've been looking for possibilities of detecting keypresses in both blocking and non-blocking way and among some other similar PyPI libraries I've found the getkey package which (at first) seemed to do what I need.
Although the library really does work well when the program is started from the command line (on Windows 10 + Python 2.7), when the same program is started from IDLE
getkey() always (even if nothing is pressed) returns this character:
Here is the code I used to test the library:
from getkey import getkey, keys from time import sleep sleep(2) print "Start" key = getkey(blocking=True) while key != "m": if key == keys.UP: print "UP" else: print key sleep(2) print "Next..." key = getkey(blocking=True) print "End"
Since I will use the code on Rasbperry Pi (Linux) I was looking for a way to detect keypresses in a program started from command line but I'd like to be able to first test the algorithms on Windows - that's why I was looking for a cross platform solution. Additionally, I'd like to avoid buffering of pressed keys when using non-blocking call as in
key = getkey(blocking=False) but all the keys pressed during the
sleep() are later detected one by one as well - which is not what I want. In other words, I am really looking for some similar library which would detect only if the key is pressed in the moment of execution of the command for reading the keyboard. But that is another topic, here I would like to know why the same code produces different result when started from IDLE compared to when started from the command line.
The output when the code is started from within IDLE is:
Start ˙ Next... ˙ Next... ˙ Next... ˙ Next... ˙ Next... ˙
and so on forewer (even without any keyboard input).
The output when the program is started from the command line is as one would expect, e.g.:
Start a Next... z Next... UP Next... End
That is the output if the keys pressed were: "a", "z", "arrow up", "m".