# How to return two values from a function? [duplicate]

Possible Duplicate:
returning multiple values from a function

Suppose i have passsed two values to a function iCalculate(int x, int y) and this iCalculate returns two values. Those are as follows:-

• (x*y)
• (x/y)

Now how should i return the above two values at the same time with the same function?

My Approach was:-

int* iCalculate(int x,int y){
int temp[2];
temp[0] = x*y;
temp[1] = x/y;
return temp;
}
-

## marked as duplicate by Jeff Atwood♦Jul 17 '11 at 11:43

What is your question ?? –  Andrew Anderson Jul 16 '11 at 11:30

returning the address of the first element of a local array has undefined behavior(at least dereferencing it later is).

You may use output parameters, that is, pass two pointers, and set the values inside

void Calculate(int x, int y, int* prod, int* quot)
{
*prod = x*y;
*quot = x/y;
}

usage:

int x = 10,y = 2, prod, quot;
Calculate(x, y, &prod, &quot)

Another thing you could do is pack your data into a struct

typedef struct
{
int prod;
int quot;
} product_and_quot;

product_and_quot Calculate(int x, int y)
{
product_and_quot p = {x*y, x/y};
return p;
}
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+1 5 seconds faster... –  eckes Jul 16 '11 at 11:30
But not faster than me for the struct return option. What is it with C programmers that they always think of the pointer solution first, and the easy solution second? ;) –  larsmans Jul 16 '11 at 11:33
Because returning/passing struct means copying all struct elements. That's why I suggest 3rd solution: returning/passsing pointer to the struct :-) –  dragon135 Jul 16 '11 at 11:42
@Dave: only if you pass the struct in by pointer, i.e. make the client responsible for allocating it. Let's see what we've gained then: we're not copying two 32-bit ints anymore, instead we're copying just a single 32-bit pointer. And it only took an extra declaration, an & operator and two dereferences. No, wait, 32-bit pointers, that was on yesteryear's hardware... –  larsmans Jul 16 '11 at 12:46
@dragon135: growing the struct is a valid point, but not for this kind of mathematical function, where you know what will be returned. –  larsmans Jul 17 '11 at 13:21

That won't work, since you're returning a pointer to a temporary array, which will stop existing at function return time.

typedef struct { int first, second; } IntPair;

and return an object of that type.

(This is what the standard library functions div and ldiv do, except that they call the type differently.)

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Is there any function which consist of more than one return type? –  Abhineet Jul 16 '11 at 11:33
div and ldiv, foremost. Most others return by pointer, though that's not really necessary on modern machines (it used to be an optimization). –  larsmans Jul 16 '11 at 11:34

Your approach is wrong, temp is out of scope/ not longer exist when functon iCalculate exit. So you must not return the address of temp. That would be address of out of scope/ no longer exist variable. Accessing that address means undefined behaviour.

You can use this approach:

void iCalculate(int x,int y,int *mult,int *divi){
*mult = x*y;
*divi = x/y;
}

or you can use another approach:

typedef struct{
int mul, divi;
} TResult;

TResult iCalculate(int x,int y){
TResult res;
res.mul = x*y;
res.divi = x/y;
return res;
}

or :

void iCalculate(int x,int y,TResult *res){
res->mul = x*y;
res->divi = x/y;
}

I suggest the first approach. I think it is too silly to create a new struct definition only to wrap 2 unrelated value together.

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Not necessarily destroyed, but it invokes Undefined Behavior. As we all know, the stack isn't padded with zeroes when the function exits. Sorry, I just had to be a little pendantic ;) –  new123456 Jul 16 '11 at 17:08
I was just using logical word. The more correct term would be that the variable is out of scope. Nothing is destroyed in C, even freeing from heap doesn't pad it with zero. –  dragon135 Jul 18 '11 at 5:37

The way you did is wrong since int temp[2] disappears once the function returns, so the caller has a "dangling" pointer. You have to add static. Another way, likely better, is to let the caller pass where it wants the result be store e.g.

void iCalc(int x, int y, int *rp, int *rq)
{
// check if rp and rq are NULL, if so, returns
*rp = x*y;
*rq = x/y; // y != 0, and this will truncate of course.
}

and the caller will do something like

int res[2];
iCalc(x, y, res, res+1);

or similar.

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Your approach was not so wrong you can return the address of the table like this :

int *iCalculate(int x,int y){
int *temp=malloc(sizeof(int)*2);
temp[0]=x*y;
temp[1]=x/y;
return temp;
}

dont forget to free the memory :

int *result;
result=iCalculate(10,7);
printf("%d %d\n",result[0],result[1]);
free(result);
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