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I have a question rather than a problem (witch maybe arises a memory question).. I've written this simple program:

#include <stdio.h>
#include <stdlib.h>

int multi(int x, int y);

int main(){
    int x;
    int y;
    printf("Enter the first number x: \n");
    printf("Enter the second number y: \n");
    int z=multi(x,y);
    printf("The Result of the multiplication is : %d\n",z,"\n");
    printf("The Memory adresse of x is : %d\n",&x);
    printf("The Memory adresse of y is : %d\n",&y);
    printf("The Memory adresse of z is : %d\n",&z);
    return 0;

int multi(int x,int y){
    int c=x*y;
    printf("The Memory adresse of c is : %d\n",&c);
    return c;  

As you can see (if you develop in C), this program inputs 2 int variables, then multiplies them with the multi function:

after getting the result , it displays the location of each variable in the memory (c,x,y and z).

I've tested this simple example those are the results (in my case):

The Memory adresse of c is : 2293556  
The Result of the multiplication is : 12  
The Memory adresse of x is : 2293620  
The Memory adresse of y is : 2293616  
The Memory adresse of z is : 2293612  

as you can see , the three variables x,y,z that are declared in the main function have closed memory adresses (22936xx) , the variable c that's declared in the multi function has a different adress (22935xx).

looking at the x,y and z variables, we can see that there's a difference of 4 bytes between each two variables (i.e : &x-&y=4, &y-&z=4).

my question is , why does the difference between every two variable equals 4?

share|improve this question
Using %d to print pointer values is incorrect, unless you cast them to (int) first, and that's a bad idea. Instead, use %p. – R.. Dec 8 '10 at 19:04
thank you, I just tried to use pointers and it comes to a cast error :) – SmootQ Dec 8 '10 at 19:12
up vote 5 down vote accepted

x, y, and z, are integer variables that will be created on the call stack (but see below). The sizeof int is 4 bytes, so that is how much space a compiler will allocate on the stack for those variables. These variables are adjacent to one another, so they are 4 bytes apart.

You can read about how memory is allocated for local variables by looking for information on calling conventions.

In some cases (where you do not use the address-of operator), the compiler may optimize local variables into registers.

share|improve this answer
thank you for the explanation , and also for the links – SmootQ Dec 8 '10 at 19:16

In your situation the three variables were allocated in contiguous memory blocks. On x86 systems, int types are 32-bits wide, i.e. sizeof(int) == 4. So each variable is placed 4 bytes apart from the last.

share|improve this answer
thank you for this sizeof(int)==4. – SmootQ Dec 8 '10 at 19:14

The size of a machine word on your machine is 4 bytes so, for speed of access by your program they offset each variable on a 4 byte boundary.

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Alignment is important, but doesn't seem to be the issue here. – Stuart Golodetz Dec 8 '10 at 18:49
I would guess that if 3 char variables were declared, they would be on the same boundaries. – KevinDTimm Dec 8 '10 at 18:50
But the other amazing thing that the c variable in the other function is not on the same boundaries it's really a bit far from x y and z locations – SmootQ Dec 8 '10 at 18:58
I think it is on the same boundary. What's different is that the stack frame is different and so you see that the function is quite far from the caller. – KevinDTimm Dec 8 '10 at 21:47

Local variables are allocated on the "stack". Often the compiler will put them in sequential order since there's really no reason not to. An integer in C is 4 bytes. Therefore, it makes sense that y comes in 4 bytes after x, and z comes in 4 bytes after y.

share|improve this answer
but is this only in case of my machine or for every machine in the world? I can come to a conclusion that for a 64 bits machine, the for integers will be 8 bytes apart. – SmootQ Dec 8 '10 at 19:18
Most int types are 32 bits even in a 64-bit machine. (The "bitness" of a machine refers to the size of the memory-address register, not the size of an integer.) To get a 64-bit integer, use a long type. – chrisaycock Dec 8 '10 at 19:27

It appears that you are running on a 32-bit machine. The size of each int is 32 bits, and with 8 bits in a byte, the size of an int is 4 bytes. Each memory address corresponds to one byte, so there is a difference of 4 between the address of each local variable.

share|improve this answer
thank you for this explanation. it was really useful – SmootQ Dec 8 '10 at 19:13
A 64-bit machine can still allocate 32 bits for an int type. – chrisaycock Dec 8 '10 at 19:30

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