2

Python 3.7 on Windows 10:

>>> from datetime import datetime
>>> datetime.fromtimestamp(0)
datetime.datetime(1970, 1, 1, 0, 0)
>>> datetime.fromtimestamp(0).timestamp()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
OSError: [Errno 22] Invalid argument
>>> datetime.fromtimestamp(3600 * 3).timestamp()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
OSError: [Errno 22] Invalid argument
>>> datetime.fromtimestamp(360000).timestamp()
360000.0

I understand that on Windows, the range for timestamps is limited to 1970 – 2038 due to 32-bit integer size. But it's really strange that it crashes on a timestamp that should still be allowed. FWIW, I am in UTC+2, so if there is some issue with the timezone, I expected the 3600 * 3 (3 hour) timestamp to work. Can I make this work somehow or should I just accept that very low timestamps are not going to work?

  • @Dschoni that's strange, the function was added back in 3.3. Does it work for you with a normal (much higher) timestamp? – Aurel Bílý Jul 8 '19 at 9:23
  • 1
    Sorry, I was on the wrong python version. With 3.7.3 on Windows 10, the smallest timestamp I can use is 86400 (found by binary separation) – Dschoni Jul 8 '19 at 9:28
  • I checked quickly on Ubuntu 18.04 with python 3.7.1 datetime.fromtimestamp(0).timestamp() gives me 0.0 – Dschoni Jul 8 '19 at 9:33
  • It says in the docs (docs.python.org/3/library/…) that there might be an OSError when localtime fails, so maybe your lowest working integer is not identical with mine. – Dschoni Jul 8 '19 at 9:35
  • 1
    Posted to the Python Bugtracker: bugs.python.org/issue37527 – Dschoni Jul 9 '19 at 10:33
2

Ok I did some digging in the source code of the Python. The problem lies within the function _PyTime_localtime. This calls the localtime_s function takes 2 arguments time_t t and struct tm *tm. Where t is a time_t object to convert and tm the resulting time structure. When you pass 0 as time_t, which is perfectly valid, the resulting structure has the field tm_hour set to 1 on my machine. Also there is other code for Non-Windows variants, which calls localtime_r in stead.

Now the problem gets moved to the internally used function utc_to_seconds, which takes the time structure (split into arguments like so: int year, int month, int day, int hour, int minute, int second). Now for the year, month and day there is no problem, it gets converted to an ordinal (which is the correct ordinal btw). But then the function has the following last line:

return ((ordinal * 24 + hour) * 60 + minute) * 60 + second;

Where EPOCH is supposed to return 62135683200 there, but due to this extra hour we get 62135686800.

This all comes together in the internal function local_to_seconds

long long t, a, b, u1, u2, t1, t2, lt;
t = utc_to_seconds(year, month, day, hour, minute, second);
/* Our goal is to solve t = local(u) for u. */
lt = local(t);
if (lt == -1)
    return -1;
a = lt - t;
u1 = t - a;
t1 = local(u1);

Where t = 62135683200 and lt = 62135686800. We end up with u1 = -3600 which results in the invalid parameter.

So to conclude: The problem is when you call timestamp. I'm not exactly sure what the solution would be to fix it in the C-code, but it definitely looks like a bug I guess.

| improve this answer | |
  • Interesting. Is the hour still added with the first valid timestamp (86400)? Is it ever removed in the code that follows? – Aurel Bílý Jul 9 '19 at 8:47
  • Nevertheless probably best to open this as a python bug on the issue tracker. – Dschoni Jul 9 '19 at 10:21
  • @AurelBílý I guess after that timestamp localtime_s returns a proper struct tm and doesn't end up with a negative u1. But I have no idea why. – Neijwiert Jul 9 '19 at 14:02

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