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I have a sample program that I copied from some website.

int main(void)
   int answer;
   short x = 1;
   long y = 2;
   float u = 3.0;
   double v = 4.4;
   long double w = 5.54;
   char c = 'p';

   typedef enum

  /* __DATE__, __TIME__, __FILE__, __LINE__ are predefined symbols */
  #if 0
  printf("Date : %s\n", __DATE__);
  printf("Time : %s\n", __TIME__);
  printf("File : %s\n", __FILE__);
  printf("Line : %d\n", __LINE__);

  /* The size of various types */
  printf("The size of int         %zu\n", sizeof(answer));
  printf("The size of short       %zu\n", sizeof(x));
  printf("The size of long        %zu\n", sizeof(y));
  printf("The size of float       %zu\n", sizeof(u));
  printf("The size of double      %zu\n", sizeof(v));
  printf("The size of long double %zu\n", sizeof(w));
  printf("The size of char        %zu\n", sizeof(c));
  printf("The size of enum        %zu\n", sizeof(codes_t));

  return 0;

I ran this program and the output that I got is as follows.

The size of int         4
The size of short       2
The size of long        8
The size of float       4
The size of double      8
The size of long double 16
The size of char        1
The size of enum        4

I am running this on a linux PC that is running 64-bit Ubuntu.My question is if I were to run the same program on a 32-bit machine will I see different results.Or in other words does the size of the basic data types depend on

  1. processor
  2. Operating System
  3. anything else
share|improve this question
It quite literally depends on everything. – Mysticial Feb 11 '13 at 22:06
To me the one and only correct assumption on eg. size of int is that the size of int is always sizeof(int) – Al W Feb 11 '13 at 22:08
@AlW: Also sizeof(int) >= 2 as defined in ANSI C. Apart from that, all bets are off. – SecurityMatt Feb 11 '13 at 22:11
The size of float and double must be at least 4 and 8 respectively. 2 <= short <= int <= long. And 1 <= char. Otherwise all bets are off, as SecurityMatt said. – Hot Licks Feb 11 '13 at 22:17
Float and double are very precise, so long as your implementation uses the IEEE standard for them. The rest just have some relative constraints, as Hot Licks noted. – ssube Feb 11 '13 at 22:34
up vote 1 down vote accepted

Subject to having to install some libraries [probably just glibc] in it's 32-bit variant, you should be able to try this yourself by using gcc -m32 myprog.c [or clang -m32 myprog.c].

However, the only thing of your items that have been listed that will change if you move from a 64-bit x86 linux system to 32-bit x86 linux system, using gcc-based compilers, is the size of long. Note the heavy qualification of x86, gcc, etc - compilers have a lot of freedom. Someone could write a compiler for Linux that uses 16-bit int and 64-bit long on a 32-bit system with no huge amount of difficulty. Using that compiler to compile the Linux kernel and many of the Linux tools would probably fail [most likely including compiling gcc with that compiler]. But you can't really say "on this architecture" or "in this OS" or "with this compiler" ... without also qualifying what the OTHER parameters are.

Case in point: A Microsoft C/C++ compiler has a long that is 32 bit even on 64-bit systems. Why, I hear you ask? Because a large number of Windows API functions use long as a 32-bit value as legacy from when Windows was a 16-bit OS on Intel 286/386 processors. Since (some of) the system calls are backwards compatible a very long way in Windows, code that is written for 16-bit systems will still work on 64-bit Windows [unless the code is using some really unusual system calls, and of course, the STYLE will look a bit ancient]. Changing long to a 64-bit value would have broken some of that functioanilty, so the compiler guys at MS decided to stick with long = 32 bit. If you want 64-bit integers, you have to use long long or int64_t or something else, not long. Of course, this breaks some code that assumes that sizeof(long) == sizeof(void *). Hopefully, most such code has already been fixed...

share|improve this answer

My question is if I were to run the same program on a 32-bit machine will I see different results

Maybe. Or maybe not.

Or in other words does the size of the basic data types depend on 1) processor 2) Operating System 3) anything else

  1. Yes, 2. yes, 3. yes, for example if you run a 32-bit app in 32-bit compatibility mode on a 64-bit OS, then it most likely will use a 32-bit word size (of course, it was compiled like that). Oh, and yes, it may depend on the compiler too.

"And your compiler flags..." (Thanks, Kay!)

share|improve this answer
And your compiler flags. – Kay Feb 11 '13 at 22:12

If you care about the exact size of the variables use

#include <stdint.h>

And then use the fixed-width types defined there:


or their signed cousins


Do not rely on the sizes of native types in C. Different compilers have different rules.

share|improve this answer
Great additional bit of info, adds clarity – James Allen Aug 10 '15 at 19:27

Yes, it depends on the hardware, OS, compiler and even language in some cases.

But on x86 linux, longs will be 4 bytes on 32-bit platforms, rather than 8. The others I believe all remains the same (not sure about long double).


I've worked on a 24-bit system where the word size was 24 bits, and every native type was 1 word in size. sizeof(char)? 1 (ie: 24 bits). sizeof(int)? 1 (ie: 24 bits). Etc. Fun!

share|improve this answer
IIRC, long double used to be 96 bits on x86-32. – larsmans Feb 11 '13 at 22:16
@PQuinn, did that implementation have stdio.h? – Seb Feb 12 '13 at 2:01

The sizes are set in stone by the compiler at compile-time, because the compiler has to emit size-specific instructions, lay out the members in structs, and know struct sizes for all required address calculations.

So if you compile your source into a 64-bit binary and run it on a bunch of different systems, the types will have the same sizes on each run, if the system supports the binary at all.

If you then compile the source into a 32-bit binary or use different compiler switches, when you run that on a bunch of different systems then the numbers may be different from the 64-bit case, but they will be consistent over all the different systems.

share|improve this answer
I like this answer, because it clearly states that the sizes are decided by the compiler. I could implement a translator (compiler or interpreter) that uses 111-bit char, short, int, long, etc ..., and regardless of 32-vs-64-bit the size of those types would all be 1. – Seb Feb 12 '13 at 2:09

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