# c++ next_permutation algorithm

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let's say , a course with 8 participans, i must output the first 3 places in all possible ways. ex :

123 124 125 126 127 128 213 so on..

I know there is `next_permutation` algorithm but it returns all the possible permuations with all the numbers (from 1 through 8), but i need first 3 places with all the participans ex:

``````1  2  3  4  5  6  7  8
1  2  3  4  5  6  8  7
``````
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Why there are two 127? And how about 111? – KennyTM Feb 29 '12 at 15:22
What does 122 mean? That Person #1 came in first, and person #2 tied with himself for second? – Robᵩ Feb 29 '12 at 15:24
@rob sorry i've edited. – ddacot Feb 29 '12 at 15:26
possible duplicate of n choose k implementation – Robᵩ Feb 29 '12 at 15:34
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This program produces the output you are looking for, not necessarily in the order you expect. If you want it in a particular order, you may need to capture the output and sort it. To see it run, look here.

``````#include <algorithm>
#include <iostream>

template <typename Iterator>
inline bool next_combination(Iterator first,
Iterator k,
Iterator last);

int main () {
int array[] = { 1, 2, 3, 4, 5, 6, 7, 8 };
do {
do {
std::cout << array[0] << array[1] << array[2] << "\n";
} while(std::next_permutation(array, array+3));
} while(next_combination(array,array+3,array+8));
}

template <typename Iterator>
inline bool next_combination(const Iterator first, Iterator k, const Iterator last)
{
/* Credits: Thomas Draper */
// http://stackoverflow.com/a/5097100/8747
if ((first == last) || (first == k) || (last == k))
return false;
Iterator itr1 = first;
Iterator itr2 = last;
++itr1;
if (last == itr1)
return false;
itr1 = last;
--itr1;
itr1 = k;
--itr2;
while (first != itr1)
{
if (*--itr1 < *itr2)
{
Iterator j = k;
while (!(*itr1 < *j)) ++j;
std::iter_swap(itr1,j);
++itr1;
++j;
itr2 = k;
std::rotate(itr1,j,last);
while (last != j)
{
++j;
++itr2;
}
std::rotate(k,itr2,last);
return true;
}
}
std::rotate(first,k,last);
return false;
}
``````
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 thanks, now it works. – ddacot Feb 29 '12 at 16:33

The things you're after are not permutations, which is why `next_permutation` alone won't solve your problem.

First, you need to decide whether `123` is the same as `321` or not. If they are the same, you have plain combinations. If they are different, you have k-permutations (different from plain permutations).

`std::next_permutation` gives you the next permutation, not the next k-permutation. There's no `std::next_combination`.

Fortunately, if you write your own `next_combination` (or find one on the internet), you can use it and `std::next_permutation` together to easily express the `next_k_permutation` algorithm.

With the correct terminology at hand it should be easy to find a solution.

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What you want is not `next_permutation`, it is what I would call next_combination.