# Is the size of C “int” 2 bytes or 4 bytes?

Does an Integer variable in C occupy 2 bytes or 4 bytes? What are the factors that it depends on?

Most of the textbooks say integer variables occupy 2 bytes. But when I run a program printing the successive addresses of an array of integers it shows the difference of 4.

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en.wikipedia.org/wiki/… –  Evan Mulawski Jul 11 '12 at 18:15
`int` is just one of several integer types. You asked about the size of "integer"; you probably meant to ask about the size of `int`. –  Keith Thompson Jul 11 '12 at 18:18
And you should find better textbooks. A textbook that says an `int` is 2 bytes (a) probably refers to an old system, and (b) fails to make it clear that the size will vary from one system to another. The best book on C is "The C Programming Language" by Kernighan and Ritchie, though it assumes some programming experience. See also question 18.10 of the comp.lang.c FAQ. –  Keith Thompson Jul 11 '12 at 18:22
Try `#define int int64_t` on a 64-bit platform, so neither. Just use `sizeof`. ;-) –  netcoder Jul 11 '12 at 19:35

I know it's equal to `sizeof(int)`. The size of an `int` is really implementation dependent. Back in the day, when processors were 16 bit, an `int` was 2 bytes. Nowadays, it's most often 4 bytes on a 32 bits system or 8 bytes on 64 bits system.

Still, using `sizeof(int)` is the best way to get the size of an integer for the specific system the program is executed on.

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I hope by "application dependent" you mean "implementation dependent". –  Mehrdad Jul 11 '12 at 18:18
So it is compiler dependent? or machine dependent –  Rajiv Prathap Jul 11 '12 at 18:19
Machine. I messed up there. –  yhyrcanus Jul 11 '12 at 18:20
@RajivPrathap: Well, it's compiler-dependent, but the compiler decides whether or not it's also machine-dependent. :) –  Mehrdad Jul 11 '12 at 18:20
@Mehrdad Thank you very much sir! –  Rajiv Prathap Jul 11 '12 at 18:21

This is one of the points in C that can be confusing at first, but the C standard only specifies a minimum range for integer types that is guaranteed to be supported. `int` is guaranteed to be able to hold -32767 to 32767, which requires 16 bits. In that case, `int`, is 2 bytes. However, implementations are free to go beyond that minimum, as you will see that many modern compilers make `int` 32-bit (which also means 4 bytes pretty ubiquitously).

The reason your book says 2 bytes is most probably because it's old. At one time, this was the norm. In general, you should always use the `sizeof` operator if you need to find out how many bytes it is on the platform you're using.

To address this, C99 added new types where you can explicitly ask for a certain sized integer, for example `int16_t` or `int32_t`. Prior to that, there was no universal way to get an integer of a specific width (although most platforms provided similar types on a per-platform basis).

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+1 for int16_t and int32_t –  krupal Jul 7 '13 at 13:24
Isn't that -32768? –  nevan king Mar 25 '14 at 14:03
@nevanking: On a two's complement machine (which is every machine I know of...), yes. But, C doesn't guarantee it to be the case. –  FatalError Mar 26 '14 at 22:16
Ah, I didn't know that. Thanks! –  nevan king Mar 26 '14 at 22:52
@nevanking I'm completely new to C, but isn't it 32767 because otherwise it would be using another bit|byte? Imagine, I can hold 3 digits (0 or 1), so I can go from 000 to 111 (which is decimal 7). 7 is right before an exponent of 2. If I could go until 8 (1000) then I could use those 4 digits all the way up to 15! Such as 32767 is right before an exponent of 2, exhausting all the bits|bytes it has available. –  RSerrao Jul 15 '14 at 23:25

That depends on the platform you're using, as well as how your compiler is configured. The only authoritative answer is to use the `sizeof()` operator to see how big an integer is in your specific situation.

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There's no specific answer. It depends on the platform. It is implementation-defined. It can be 2, 4 or something else.

The idea behind `int` was that it is supposed to match the natural "word" size on the given platform: 16 bit on 16-bit platforms, 32 bit on 32-bit platforms, 64 bit on 64-bit platforms, you get the idea. However, for backward compatibility purposes some compilers prefer to stick to 32-bit `int` even on 64-bit platforms.

The time of 2-byte `int` is long gone though (16-bit platforms?) unless you are using some embedded platform with 16-bit word size. Your textbooks are probably very old.

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This depends on implementation, but usually on x86 and other popular architectures like ARM `int`s take 4 bytes. You can always check at compile time using `sizeof(int)` or whatever other type you want to check.

If you want to make sure you use a type of a specific size, use the types in `<stdint.h>`

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Mostly it depends on the platform you are using .It depends from compiler to compiler.Nowadays in most of compilers int is of 4 bytes. If you want to check what your compiler is using you can use `sizeof(int)`.

``````main()
{
printf("%d",sizeof(int));
printf("%d",sizeof(short));
printf("%d",sizeof(long));
}
``````

The only thing c compiler promise is that size of short must be equal or less than int and size of long must be equal or more than int.So if size of int is 4 ,then size of short may be 2 or 4 but not larger than that.Same is true for long and int. It also says that size of short and long can not be same.

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The only guarantees are that `char` must be at least 8 bits wide, `short` and `int` must be at least 16 bits wide, and `long` must be at least 32 bits wide, and that `sizeof (char)` <= `sizeof (short)` <= `sizeof (int)` <= `sizeof (long)` (same is true for the unsigned versions of those types).

`int` may be anywhere from 16 to 64 bits wide depending on the platform.

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The answer to this question depends on which platform you are using.
But irrespective of platform, you can reliably assume the following types:

`````` [8-bit] signed char: -127 to 127
[8-bit] unsigned char: 0 to 255
[16-bit]signed short: -32767 to 32767
[16-bit]unsigned short: 0 to 65535
[32-bit]signed long: -2147483647 to 2147483647
[32-bit]unsigned long: 0 to 4294967295
[64-bit]signed long long: -9223372036854775807 to 9223372036854775807
[64-bit]unsigned long long: 0 to 18446744073709551615
``````
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Someone edited your post to "fix" the ranges, but I'm not sure if your edit adequately reflects your intent. It assumes a two's complement implementation, which will be true in most cases, but not all. Since your answer specifically points out the implementation-dependence, I'm thinking the edit is probably wrong. If you agree, please be sure to revert the edit. –  Cody Gray Aug 8 '14 at 14:42
``````#include <stdio.h>

int main(void) {
printf("size of int: %d", (int)sizeof(int));
return 0;
}
``````

This returns 4, but it's probably machine dependant.

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Its 4 bytes,depending on the processor.It can use long for 8 bytes,but if the processor has 32 byte words than its 32 bytes.

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in `Short` there will be store only 2 bytes it can store in range number is 32786---32767.

Now `Integer` "int i" THERE will be 4 bytes in Memory allocating.

sample 1

``````include
main() {
int x;
//this Program Contain 4 Bytes Memory allocating //
int y;
int z;
x= 5;
y= 6;
z=x+y;
cout<<"the value of x is "<}
``````

sample 2

``````include
main() {
short x;
//this Program Contain 2 Bytes Memory allocating //
short y;
short z;
x = 5;
y =6;
z=x+y;
cout<<"the value of x is "<
}
``````
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