C++ Standard Library Algorithms std::accumulate

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Example

Defined in header <numeric>

template<class InputIterator, class T>
T accumulate(InputIterator first, InputIterator last, T init); // (1)

template<class InputIterator, class T, class BinaryOperation>
T accumulate(InputIterator first, InputIterator last, T init, BinaryOperation f); // (2)

Effects:

std::accumulate performs fold operation using f function on range [first, last) starting with init as accumulator value.

Effectively it's equivalent of:

T acc = init;
for (auto it = first; first != last; ++it)
    acc = f(acc, *it);
return acc;

In version (1) operator+ is used in place of f, so accumulate over container is equivalent of sum of container elements.

Parameters:

first, last - the range to apply f to.
init - initial value of accumulator.
f - binary folding function.

Return value:

Accumulated value of f applications.

Complexity:

O(n×k), where n is the distance from first to last, O(k) is complexity of f function.

Example:

Simple sum example:

std::vector<int> v { 2, 3, 4 };
auto sum = std::accumulate(v.begin(), v.end(), 1);
std::cout << sum << std::endl;

Output:

10

Convert digits to number:

c++11
class Converter {
public:
    int operator()(int a, int d) const { return a * 10 + d; }
};

and later

const int ds[3] = {1, 2, 3};
int n = std::accumulate(ds, ds + 3, 0, Converter());
std::cout << n << std::endl;
c++11
const std::vector<int> ds = {1, 2, 3};
int n = std::accumulate(ds.begin(), ds.end(),
                        0,
                        [](int a, int d) { return a * 10 + d; });
std::cout << n << std::endl;

Output:

123


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