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Suppose I have a vector of n values, I want to get the different combinations of its values, for example: if I have vect = [a, b, c] the different combinations that I want are: [a, b, c], [a,b], [a,c], [b,c], [a], [b], [c]

Note that for example [a,b] is the same as [b,a] so I don't need to keep both of them.

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4  
You are looking for the 'power set' of your vector of values; to be absolutely accurate you are looking for the power set without the element []. This (the empty set) corresponds to the number 0 in @Henrik's answer. –  High Performance Mark Apr 26 '12 at 10:12

3 Answers 3

up vote 6 down vote accepted

Count from 0 to 2^vector.size() - 1. If bit i of your loop variable is 1, include vector[i] in your combination.

vector<char> v;
v.push_back('a');
v.push_back('b');
v.push_back('c');
for (int counter = 0; counter < (1 << v.size()); ++counter)
{
    vector<char> combination;
    for (int i = 0; i < v.size(); ++i)
    {
        if (counter & (1 << i))
            combination.push_back(v[i]);
    }

    // do something with combination
}

Edit: if you want to exclude the empty set, start counting at 1.

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This works, but I don't understand why and how ! –  shn Apr 26 '12 at 14:08
    
@user995434 - Set a = 1, b = 2, c = 4. This will give you a one-to-one correspondence between the numbers 0..7 and the combinations of a, b, and c. Now my code runs through the numbers 0..7 and builds the corresponding combinations by examining the bits 0..2 (of value 1, 2, 4). –  Henrik Apr 26 '12 at 14:22

Give you a pseudo code, please convert it to real code.

vector resultVec;
while (!inputVec.empty)
{
    char c = inputVec.pop_back();

    foreach(one in resultVec)
    {
         combined = combine c and one;
         resultVec.push_back(combined);
    }

    resultVec.push_back(c);
}
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Imagine you have a function which can already do this for you. Let's call it combinations.

If you were going to implement your own version of this, my_combinations, you could do it by looking at the first element in your vector, calling combinations on the rest of the vector, and then combining your element with each of the combinations.

Once you'd implemented this, you could delegate to your own version of combinations instead of using the pre-existing one.

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