# Python, get milliseconds since epoch, millisecond accuracy (not seconds*1000)

How can I get the number of milliseconds since epoch?

Note that I want the actual milliseconds, not seconds multiplied by 1000. I am comparing times for stuff that takes less than a second and need millisecond accuracy. (I have looked at lots of answers and they all seem to have a *1000)

I am comparing a time that I get in a POST request to the end time on the server. I just need the two times to be in the same format, whatever that is. I figured unix time would work since Javascript has a function to get that

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If you need millisecond accuracy are you sure you need absolute time (since epoch)? Typically that accuracy is only needed in a relative sense, say relative to when the computer started. –  Thomas Aug 11 at 5:41
I am comparing a time that I get in a post request to the end time on the server. Really I just need the two times to be in the same format, whatever that is. I figured unix time would work since js has a function to get that. –  user984003 Aug 11 at 5:42

`time.time() * 1000` will give you millisecond accuracy if possible.

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Using datetime:

``````>>> import datetime
>>> delta = datetime.datetime.now() - datetime.datetime(1970, 1, 1)
>>> delta
datetime.timedelta(15928, 52912, 55000)
>>> delta.total_seconds()
1376232112.055
>>> delta.days, delta.seconds, delta.microseconds
(15928, 52912, 55000)
``````
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`int(time.time() * 1000)` will do what you want. `time.time()` generally returns a float value with double precision counting seconds since epoche, so multiplying it does no harm to the precision.

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I see many people suggesting `time.time()`. While `time.time()` is an accurate way of measuring the actual time of day, it is not guaranteed to give you millisecond precision! From the documentation:

Note that even though the time is always returned as a floating point number, not all systems provide time with a better precision than 1 second. While this function normally returns non-decreasing values, it can return a lower value than a previous call if the system clock has been set back between the two calls.

This is not the procedure you want when comparing two times! It can blow up in so many interesting ways without you being able to tell what happened. In fact, when comparing two times, you don't really need to know what time of day it is, only that the two values have the same starting point. For this, the `time` library gives you another procedure: `time.clock()`. The documentation says:

On Unix, return the current processor time as a floating point number expressed in seconds. The precision, and in fact the very definition of the meaning of “processor time”, depends on that of the C function of the same name, but in any case, this is the function to use for benchmarking Python or timing algorithms.

On Windows, this function returns wall-clock seconds elapsed since the first call to this function, as a floating point number, based on the Win32 function QueryPerformanceCounter(). The resolution is typically better than one microsecond.

Use `time.clock()`.

Or if you just want to test how fast your code is running, you could make it convenient for yourself and use `timeit.timeit()` which does all of the measuring for you and is the de facto standard way of measuring elapsed time in code execution.

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So on Unix, `clock()` is not appropriate. It counts, as you cite, processor time which is different from wall clock time, even in relative manners. –  glglgl Aug 11 at 9:24
If you are simply comparing two times, calculating the difference between two `clock()` calls will give you the most accurate measure of passed time. Using `time()` the delta might not be precise enough, and could even be negative! –  kqr Aug 11 at 9:49
If you have several programs running at the same time, your system gets slower. The programs need more wall clock time, but the same CPU time. That can be a huge difference if you need the precise time. –  glglgl Aug 11 at 10:00
Using `time()` can be a problem if the system time is adjusted abruptly by a huge amount. That's why e. g. NTP slowly adjusts the time frequency instead of abruptly setting the time to a different value. –  glglgl Aug 11 at 10:02
@glglgl The Python `clock()` method depends on the underlying C `clock()` function, which has a fixed tick rate `CLOCKS_PER_SEC`. Unless I have missed something, the tick speed should not vary with time. –  kqr Aug 11 at 10:12
``````import datetime