# How to apply std::accumulate algorithm for associative containers?

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For a map like std::map, how do I accumulate it's values' sum?
Actually, I made it with a functor and std::for_each algorithm. But I'd also like to make this using std::accumulate algorithm.
I have no idea how to apply it to std::map.
Is this even possible?

``````struct Accumurator
: std::unary_function<std::pair<int, int>, void>
{
Accumurator()
: totalValue_(0)
{
}

void operator()(const std::pair<int, int>& p)
{
totalValue_ += p.second;
}

int result() const
{
return totalValue_;
}

int totalValue_;
};

int _tmain(int argc, _TCHAR* argv[])
{
std::map<int, int> m;
m.insert(make_pair(1, 10));
m.insert(make_pair(2, 10));
m.insert(make_pair(3, 10));
m.insert(make_pair(4, 10));
m.insert(make_pair(5, 10));
m.insert(make_pair(6, 10));

int totalSum = std::for_each(m.begin(), m.end(), Accumurator()).result();

// How can I apply accumulate algorithm for associative containers.
// int totalSum = accumulate(m.begin(), m.end(), ???);

return 0;
}
``````
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## 2 Answers

Almost. The functor must be a binary operator taking the return value type as the first and the range type as the second argument:

``````x = Functor(init, *it++);
x = Functor(x, *it++);
x = Functor(x, *it++);
// ... until it == end
``````

So you don't need a stateful functor at all, a simple function will do:

``````int map_acc(int lhs, const std::pair<int, int> & rhs)
{
return lhs + rhs.second;
}

const int sum = std::accumulate(m.begin(), m.end(), 0, map_acc);
``````
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 Aha, _Fn2 type means binary function/functor? Helpful. I haven't noted about that. – Benjamin Aug 4 '11 at 2:25

std::accumulate requires an init argument and a binary operation to perform. Your binary operation needs to accept a pair as the second argument and int as the first argument and return int.

``````struct pair_add {
int operator()(int i, const std::pair<int, int>& x) {
return i + x.second;
}
};
//use as
int totalSum = accumulate(m.begin(), m.end(), 0, pair_add());
``````

The real problem is to get the functor as generic as possible.

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