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I am learning about computer architecture now. Why the data type sizes are different between Linux and Windows operating systems??

This is my sample C code.

#include<stdio.h>
int main(void)
{
    printf ("\n-- General Data Type Size --\n");
    printf ("char size : %d byte\n", (int)sizeof(char));
    printf ("short size : %d byte\n", (int)sizeof(short));
    printf ("int size : %d byte\n", (int)sizeof(int));
    printf ("long size : %d byte\n", (int)sizeof(long));
    printf ("double size : %d byte\n", (int)sizeof(double));
    printf ("long double size : %d byte\n", (int)sizeof(long double));

    printf ("\n-- Pointer Data Type Size -- \n");
    printf ("char* size : %d byte\n", (int)sizeof(char*));
    printf ("short* size : %d byte\n", (int)sizeof(short*));
    printf ("int* size : %d byte\n", (int)sizeof(int*));
    printf ("long* size : %d byte\n", (int)sizeof(long*));
    printf ("double* size : %d byte\n", (int)sizeof(double*));
    printf ("long double* size : %d byte\n", (int)sizeof(long double*));

    return 0;
} 

when i compiled and run this code on my windwos 10 64bit with visual studio 10, it show like:

windows result

then, when i compiled and run this code on my ubuntu 18.04 64bit. it shows like:

ubuntu result

The Windows system shows me the size of long double is 8-byte and long is 4-byte.

But Ubuntu shows me the size of long double is 16-byte and long is 8-byte. Why are the two sizes different? Both have 64-bit environments, and I wonder why they have different values. I'd appreciate it if you could explain.

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  • 1
    An aside, did you know that you can simply use "%zu" as a format specifier for size_t? (To avoid the cast to int)
    – ryyker
    Sep 17, 2020 at 12:41
  • 3
    Because they can. Why shouldn't they be?
    – user253751
    Sep 17, 2020 at 12:42
  • 3
    Sizes are determined by the C implementation, not by the operating system or the hardware. General-purpose C implementations are largely influenced by the operating system and the hardware—key types, such as int, are normally chosen to be good for performance with the hardware and for interfacing with operating system features. But some types are flexible. E.g., one C implementation might choose to implement an extended-precision floating-point type for long double while another might choose not to make that effort and leave long double the same as double Sep 17, 2020 at 12:42
  • 2
    … Or one C implementation might choose to use the old Intel 80-bit floating-point features for long double while another decides the performance of that is not worth it, especially if it interferes with modern features. And special-purpose C implementations, such as one designed to facilitate running old code for a particular environment, might largely ignore the operating system and hardware and make the sizes what they need to be to match the old code. You can write compiler software to make the types any sizes, so choosing sizes is a matter of satisfying your goals for the compiler. Sep 17, 2020 at 12:44
  • 3
    Compatibility. Sep 17, 2020 at 13:17

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