# Can i assign in 2 variables at the same time at C++?

``````int DFS(a, b,c,d)
{
first=a+b;
second=c+d;
return(first,second);
}

solution, cost_limit = DFS(a, b,c,d);
``````

can I do something like this ? and how?

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It's very unclear what you're asking here. I would suggest you explain what you mean by assign, and what you mean by a variable. – Styne666 Jan 12 '12 at 10:55

## 4 Answers

In C++11 you can use the tuple types and `tie` for that.

``````#include <tuple>

std::tuple<int, int> DFS (int a, int b, int c, int d)
{
return std::make_tuple(a + b, c + d);
}

...

int solution, cost_limit;
std::tie(solution, cost_limit) = DFS(a, b, c, d);
``````
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If C++11 is not an option, the Boost Tuple library provides these features. – Luc Touraille Jan 12 '12 at 10:40
If C++11 is not an option, you still can use C++03's `std::pair<int, int>` – Antonio Pérez Jan 12 '12 at 10:42
@Antionio: but there's no `tie` in C++03, so it comes out looking pretty ugly: `std::pair<int, int> result = DFS(a,b,c,d); solution = result.first; cost_limit = result.second;`. – Steve Jessop Jan 12 '12 at 10:44
You could use TR1, I think that one also features the tuple library (with `tie`) – filmor Jan 12 '12 at 11:07

You can do this two ways:

1. Create a struct with two values and return it:

``````struct result
{
int first;
int second;
};

struct result DFS(a, b, c, d)
{
// code
}
``````
2. Have out parameters:

``````void DFS(a, b, c, d, int& first, int& second)
{
// assigning first and second will be visible outside
}
``````

call with:

``````DFS(a, b, c, d, first, second);
``````
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This is clearly not what the OP is asking for. He's asking for returning two separate values into two separate variables. – Szabolcs Jan 12 '12 at 10:32
@Szabolcs: That was not clear. – Tudor Jan 12 '12 at 10:33
This is not what he asked for. He wants the pythonic way, meaning `solution = first; cost_limit = second;` – filmor Jan 12 '12 at 10:33
It's still not clear, and the comments here have not exactly helped... – Cody Gray Jan 12 '12 at 10:35

If C++11 is not possible, it's possible to use references.

By passing a reference to variables in parameters.

``````int DFS(int a, int b, int c, int d, int &cost_limit)
{
cost_limit = c + d;
return a + b;
}

int solution, cost_limit;

solution = DFS(a, b, c, d, cost_limit);
``````
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One thing you should be know is that if a,b,c,d are not base types, but instances of a class you defined, let's say Foo, and you overload the = operator of the class, you must ensure the fact that the operator will return a reference to the object which is assigned, or else you will not be able to chain assignments ( solution = cost_limit = DFS(..) will only assign to cost_limit). The = operator should look like this:

``````Foo& Foo::operator =(const Foo& other)
{
//do stuff
return other;
}
``````
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