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I am trying to print time_t without casting it as long int in Microsoft Visual Studio Project and it is giving me unexpected result. The source code is

#include <time.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/timeb.h>
#include <string.h>

int main()
    int a=1,b=2;
    long int c=3;
    time_t myTime;
    return 0;

The output is 1_1389610399_0_2. This is running fine on my linux machine though.I understand that time_t should not be printed like this but I am not sure why? Please tell me how to debug such problem?

EDIT: I was expecting the output to be 1_1389610399_2_3 given the fact that time_t is considered as arithmetic in C.

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I don't understand what you are asking. You know you are printing it incorrectly, yet wonder why it doesn't do what you expect? What output do you want? –  BoBTFish Jan 13 '14 at 10:59
The time_t type in C is considered to be arithmetic type. So,the expected output should be something like 1_1389610399_2_3. I am not getting it why the output is coming the way it is coming. –  Abhishek Jan 13 '14 at 11:01
@Abhishek: By the looks of your results (I haven't checked the docs) time_t is long long on Windows, which would be sensible. When you pass the wrong types as varargs, things go wrong. –  Steve Jessop Jan 13 '14 at 11:02
Why shouldn't a time be printed like that? Who told you that? While time_t might be something else (it's implementation specified) on platforms where it is an integer it can indeed be printed like that. It won't really tell you anything except that it's a large number, but otherwise it's okay. You just have to be careful to output it using the correct format code (or use the C++ output operator <<). –  Joachim Pileborg Jan 13 '14 at 11:02
@ramyabel: I dont think that will be correct. Since from the answeres I think it is platform dependent. –  Abhishek Jan 13 '14 at 11:11

5 Answers 5

up vote 8 down vote accepted

I was expecting the output to be 1_1389610399_2_3

You are wrong to expect this. Different types have different sizes, and when you pass the "wrong" type via varargs this means that the receiver can no longer find everything on the stack in the expected locations. That's why behavior is undefined when the formatting codes don't match the arguments: the receiver is not reading the same types that the caller is writing.

The 0 that you see printed out where you expected b, is the most significant 32 bits of the 64-bit long long value that is placed on the stack when you pass a time_t via varargs (in this implementation). The %ld formatting code only took the first 4 bytes of the value of myTime, leaving the rest to be taken by the next formatting code.

When it works on linux, that's because time_t is long on that implementation and so your format code matches the type you pass.

There is a kind of "all-purpose" way to print any signed integer, which is to convert it to intmax_t and use the formatting code %j. Unfortunately you aren't guaranteed that time_t is a signed type, or even that it's an integer type. So this would be more portable but still not strictly so, because the value of myTime in theory might not be in range of intmax_t at all. In C++ you should use std::cout << myTime;, because that avoids you needing to know the actual type aliased by time_t (just as long as it's not any kind of char).

Alternatively you can use difftime to coerce your time to double, which you know how to print. Or you can use gmtime or localtime to get a broken-down calendar time, each component of which you know how to print either with printf or with strftime.

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Thanks for your detailed answer @steve, but shouldn't according to this logic, printf("%d_%ld_%d",a,b,c); should have given output as 1_2_0, but instead it is given output as 1_2_3. –  Abhishek Jan 13 '14 at 11:36
@Abhishek: no. int and long are the same size on Windows. It's still undefined behavior, of course. –  Steve Jessop Jan 13 '14 at 11:42

Who says time_t is a long? It may be any arithmetic type. You must explicitly cast it to some defined type when using printf.

Use ostream, and avoid such problems.

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But how my not casting it is affecting the subsequent argument of b? I fail to understand this. –  Abhishek Jan 13 '14 at 11:05
@Abhishek Because you're passing the wrong type to a var_args. Which causes the var args mechanism to become unsynchronized with your input. (The usual mechanism involves adding the size of the extracted element to a char* to get the address of the next element.) You must pass the exact type the receiving program expects to a var args. –  James Kanze Jan 13 '14 at 11:10
Thanks @James, It is clear to me now. I will look more into printf implementation and var args mechanism to get more insight. –  Abhishek Jan 13 '14 at 11:15
In particular, it could be floating point. –  Ciro Santilli 六四事件 法轮功 纳米比亚 威视 Jun 1 at 11:00

To show its (time_t) contents in a safe manner, you should first use (ie.) gmtime to convert it to struct tm, and then use one of its fields or use strftime to convert it further to string.

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In order to print a 64 bit integer using a format string you have to use %I64d rather than %ld. However, be ware because the type of time_t depends on your hardware's bitness.

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the time() function returns the number of seconds elapsed "since 00:00, Jan 1 1970 UTC".

Source: http://en.cppreference.com/w/c/chrono/time_t

So, the value you got (1389610399) is pretty fine, as it is:

1389610399 / 60 (=minutes) / 60 (=hours) / 24 (=days) / 365 ~ 44 years, which seems pretty plausible.

So, if you want to get the number of days, for example, then divide the time-value by 3600. If you want to get the date, then refer to other functions such as localtime() or gmtime() - the latter returns the date and time in UTC. See the examples provided at: http://en.cppreference.com/w/c/chrono/gmtime

Hope that helps! Greetz, Michael

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