# Adding two numbers without using +

I have this code which does the trick:

``````#include <stdio.h>
int main()
{
int a = 30000, b = 20,sum;
char *p;
p=(char *)a;
sum = (int)&p[b]; // adding a & b
printf("%d",sum);
return 0;
}
``````

Can someone please explain what is happening in the code?

``````p = (char*)a;
sum = (int)&p[b]; // adding a & b
``````
• Looks like a bitwise operation. You could take a quick look at cprogramming.com/tutorial/bitwise_operators.html for more information Jun 28, 2012 at 12:25
• Sorry, but this is not at all bitwise. The code IS contrived, but you will understand it if you read a bit into Pointer Arithmetic (specially the [] operator). If you are going to program in C, this is definitely going to be worth your while. Jun 28, 2012 at 12:41
• Aug 27, 2012 at 22:06

## 4 Answers

`&p[b]` is basically sugar for:

``````&*(p + b)
``````

The `*` and `&` operators are inverse operations here and cancel, leaving simply `p + b`. The casts just circumvent C's type checking. The fact that a `char *` pointer is used is signficant, however; C scales pointer arithmetic, and since `sizeof(char) == 1` by definition, the scaling factor is 1.

• It's faster than do `sum = a + b`?
– Jack
Jun 28, 2012 at 16:37
• @Jack it isn't, `&p[b]` is translated to `&*(p + b)` during compilation. Jun 29, 2012 at 10:10

I think it is worth adding to the other answers a quick explanation of pointers, arrays and memory locations in c.

Firstly arrays in c are just a block of memory big enough to hold the number of items in the array (see http://www.cplusplus.com/doc/tutorial/arrays/)

so if we said

``````int[5] example;
example[0] = 1;
example[1] = 2;
example[2] = 3;
example[3] = 4;
example[4] = 5;
``````

Assuming int is 32 bits we would have a block of memory 5*32bits = 160bits long. As C is a low level language it tries to be as efficient as possible, therefor stores the least amount of information about arrays as possible, in this case the least amount possible is the memory address of the first element. So the type of example could be expressed as

``````int *example;
``````

Or example points to an int. To get the items in the array you then add the correct number to the address stored in example and read the number at that memory address. If we assumed memory look like

``````Memory Address = Value (ints take up 4 bytes of space)
1000 = 1          <-- example
1004 = 2
1008 = 3
1012 = 4
1016 = 5
``````

So

``````int i = example[3];  //The 4th element
``````

could be expressed as

``````int i = *(example + 3 * sizeof(int));
int i = *(example + 3 * 4);
int i = *(1000 + 12);
int i = *(1012); // Fetch the value at memory location 1012
int i = 4;
``````

The sizeof(int) is 4 (int is 32 bits, or 4 * 8 bit bytes). If you where trying to do addition you would want a char which is 8 bits or 1 * 8 bit bytes.

So back to you code

``````char* p;       // declare p as a pointer to a char/
p = (char *)a; // point p at memory location 3000
// p[b] would be the 21st element of the "array" p =>
// p[20]  =>
// p + 20 * sizeof(char) =>
// p + 20 * 1 =>
// p + 20  =>
// 3000 + 20 =>
// 3020
// the & operator in c gets the address of the variable so
sum = (int) &p[b];
// &p[b] => find the address pointed to by p[b] => 3020
// (int) casts this pointer to a int.
``````

So sum is assigned the address of the 21st element of the array.

Long winded explanation.

• +1'd for the highest level of detail and clarity in your answer ! Thanks ! Jun 28, 2012 at 18:08

p[b] returns the b-th element of the array p, which is equivalent to *(p + b). &p[b] equals to p + b*sizeof(char) that is converted back to int.

• The "times sizeof(char)" part is exactly what FatalError means with "scaling factor". Jun 28, 2012 at 12:46
• thank you for your answer really cleared up the fact of why the scaling factor was important as stated by FatalError. Jun 28, 2012 at 12:59

If the question was "adding two numbers without the + operator", here is one:

``````#include <stdio.h>

int main()
{
int a=5, b=7;
int a1=a, b1=b;
int res;

res = (++a1 * ++b1) - (a * b) -1;

printf("a1=%d b1=%d res=%d\n", a1, b1, res );
return 0;
}
``````