# Why does int pointer '++' increment by 4 rather than 1?

Value of a pointer is address of a variable. Why value of an `int pointer` increased by 4-bytes after the int pointer increased by 1.

In my opinion, I think value of pointer(address of variable) only increase by 1-byte after pointer increment.

Test code:

``````int a = 1, *ptr;
ptr = &a;
printf("0x%X\n", ptr);
ptr++;
printf("0x%X\n", ptr);
``````

Expected output:

``````0xBF8D63B8
0xBF8D63B9
``````

Actually output:

``````0xBF8D63B8
0xBF8D63BC
``````

EDIT:

Another question - How to visit the 4 bytes an `int` occupies one by one?

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"How to visit the 4 bytes int occupied one by one?" - Why would you do that? –  Xeo Apr 10 '11 at 7:28
@Xeo Hey, No special reason to do it, just come out this idea according to the question.:) –  Jason Apr 10 '11 at 7:32

When you increment a `T*`, it moves `sizeof(T)` bytes. This is because it doesn't make sense to move any other value: if I'm pointing at an `int` that's 4 bytes in size, for example, what would incrementing less than 4 leave me with? A partial `int` mixed with some other data: nonsensical.

Consider this in memory:

``````    [↓      ]
[...|0 1 2 3|0 1 2 3|...]
[...|int    |int    |...]
``````

Which makes more sense when I increment that pointer? This:

``````            [↓      ]
[...|0 1 2 3|0 1 2 3|...]
[...|int    |int    |...]
``````

Or this:

``````      [↓      ]
[...|0 1 2 3|0 1 2 3|...]
[...|int    |int    |...]
``````

The last doesn't actually point an any sort of `int`. (Technically, then, using that pointer is UB.)

If you really want to move one byte, increment a `char*`: the size of of `char` is always one:

``````int i = 0;
int* p = &i;

char* c = (char*)p;
char x = c[1]; // one byte into an int
``````

†A corollary of this is that you cannot increment `void*`, because `void` is an incomplete type.

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Great graphical explanation! –  Saytonurn Apr 10 '11 at 8:45
Great Answer indeed –  snoofkin Apr 10 '11 at 13:29

Pointer increment is based on the size of the type pointed to. If an int is 4 bytes, incrementing an int* by 1 will increase its value by 4.

If a short is 2 bytes, incrementing a short* by 1 will increase its value by 2.

This is standard behavior for C pointer arithmetic.

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I think he's asking for the rationale. –  GManNickG Apr 10 '11 at 7:20
Hopefully it's clear that the rationale is pointer arithmetic always works in units of the pointee type's size. –  Ken Rockot Apr 10 '11 at 7:23
Rationale would be why that's the case. –  GManNickG Apr 10 '11 at 7:25

The idea is that after incrementing, the pointer points to the next int in memory. Since ints are 4 bytes wide, it is incremented by 4 bytes. In general, a pointer to type T will increment by sizeof(T)

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As you said, an `int pointer` points to an `int`. An `int` usually takes up 4 bytes and therefore, when you increment the pointer, it points to the "next" `int` in the memory - i.e., increased by 4 bytes. It acts this way for any size of type. If you have a pointer to type `A`, then incrementing a `A*` it will increment by `sizeof(A)`.

Think about it - if you only increment the pointer by 1 byte, than it will point to a middle of an `int` and I can't think of an opportunity where this is desired.

This behavior is very comfortable when iterating over an array, for example.

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Pointers are increased by the size of the type they point to, if the pointer points to char, `pointer++` will increment pointer by 1, if it points to a 1234 bytes struct, `pointer++` will increment the pointer by 1234.

This may be confusing first time you meet it, but actually it make a lot of sense, this is not a special processor feature, but the compiler calculates it during compilation, so when you write `pointer+1` the compiler compiles it as `pointer + sizeof(*pointer)`

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