# How do I get my program to sleep for 50 milliseconds?

How do I get my Python program to sleep for 50 milliseconds?

``````from time import sleep
sleep(0.05)
``````
• But how does it actually work? E.g., will the actual time resolution often be 16.66 ms (1/60 second)? In this particular case the sleep time happens to be exactly 3 times the time resolution. However, what about rounding? What if 3 is actually 2.9999999 due to floating point operations and it is rounded down to 2 (actual sleep time = 0.0333333 s = 33.33 ms)? Feb 6, 2021 at 23:01
• It is extremely unlikely that the python code base will round sleep(0.05) into 2 system clock ticks. It will mostly likely request 3 clock ticks because that's the right answer. BUT the system might return after 3 or 4 or 5 or 100 clock ticks. There's no guarantee it will return after 3 clock ticks if it is busy doing something else like flush data to the disk. Definitely DON'T use this if timing is critical. You would have to write code at the driver level to leverage interrupts if you want super accurate sleep intervals. Mar 3, 2022 at 1:11

Note that if you rely on sleep taking exactly 50 ms, you won't get that. It will just be about it.

• It might be 10 or 15ms longer than that on some platforms, so be warned. Jan 17, 2009 at 18:41
• Is it a consistent delay on a given system? Feb 18, 2018 at 22:00
• @user391339 From experience it is not consistent. Thread/process priority, CPU load avg, available memory, and a plethora of other factors make all calls imprecise. The busier the system is, the higher the imprecision. Jan 28, 2019 at 18:44
• Might be interesting to know though that 'the function [`time.sleep(secs)`] sleeps at least `secs`' since Python 3.5 according to the documentation. Oct 30, 2019 at 14:11

Use `time.sleep()`:

``````import time
time.sleep(50 / 1000)
``````

See the Python documentation: https://docs.python.org/library/time.html#time.sleep

There is a module called 'time' which can help you. I know two ways:

1. `sleep`

Sleep (reference) asks the program to wait, and then to do the rest of the code.

There are two ways to use sleep:

``````import time # Import whole time module
print("0.00 seconds")
time.sleep(0.05) # 50 milliseconds... make sure you put time. if you import time!
print("0.05 seconds")
``````

The second way doesn't import the whole module, but it just sleep.

``````from time import sleep # Just the sleep function from module time
print("0.00 sec")
sleep(0.05) # Don't put time. this time, as it will be confused. You did
# not import the whole module
print("0.05 sec")
``````
2. Using time since boot using `time.monotonic()`.

This way is useful if you need a loop to be running. But this one is slightly more complex. `time.monotonic` is better than `time.time` as it does not account for leap seconds, but it counts the amount of settings from boot. (Credit: Mark Lakata)

``````time_not_passed = True
from time import monotonic as time # Importing time.monotonic but naming it 'time' for the sake of simplicity

init_time = time() # Or time.monotonic() if whole module imported
print("0.00 secs")
while True: # Init loop
if init_time + 0.05 <= time() and time_not_passed: # Time not passed variable is important as we want this to run once. !!! time.monotonic() if whole module imported :O
print("0.05 secs")
time_not_passed = False
``````
• It is not recommended to use `time.time()` for measuring elapsed time. It is better to use `time.monotonic()` which is guaranteed to increase at a uniform rate. There are actual cases where `time()` can change by jumps, because of leap seconds and things. `time.monotonic()` has no absolute correlation to Linux epoch time, but it is usually started at 0 when the system boots up. Mar 3, 2022 at 1:04
• I can change time.time() to time.monotonic() Apr 3, 2023 at 17:49

You can also do it by using the `Timer()` function.

Code:

``````from threading import Timer

def hello():
print("Hello")

t = Timer(0.05, hello)
t.start()  # After 0.05 seconds, "Hello" will be printed
``````
• How does it actually work for sub-second sleep? Often timers have a time resolution of 16.66 ms. Feb 6, 2021 at 23:08

You can also use pyautogui as:

``````import pyautogui
pyautogui._autoPause(0.05, False)
``````

If the first argument is not None, then it will pause for first argument's seconds, in this example: 0.05 seconds

If the first argument is None, and the second argument is True, then it will sleep for the global pause setting which is set with:

``````pyautogui.PAUSE = int
``````

If you are wondering about the reason, see the source code:

``````def _autoPause(pause, _pause):
"""If `pause` is not `None`, then sleep for `pause` seconds.
If `_pause` is `True`, then sleep for `PAUSE` seconds (the global pause setting).

This function is called at the end of all of PyAutoGUI's mouse and keyboard functions. Normally, `_pause`
is set to `True` to add a short sleep so that the user can engage the failsafe. By default, this sleep
is as long as `PAUSE` settings. However, this can be override by setting `pause`, in which case the sleep
is as long as `pause` seconds.
"""
if pause is not None:
time.sleep(pause)
elif _pause:
assert isinstance(PAUSE, int) or isinstance(PAUSE, float)
time.sleep(PAUSE)
``````
• somehow, it's better to use `time.sleep` rather then this, but if you want your program to be pure autopygui, then this can be a way .
– okie
Sep 15, 2019 at 0:39
• pyautogui uses time.sleep() May 4, 2022 at 17:07