# How to get the int/size_t value from the iterator position of the minimum element in stl vector?

    std::vector<bool> reprVectors::encode(std::vector<float> input){
std::vector<float> distance;
for(size_t i=0;i<this->reprVectorsList.size();i++){
distance.push_back(distBtw(input,this->reprVectorsList[i]));
}
std::vector<float>::iterator it= min_element(distance.begin(),distance.end());

return this->reprVectorsList[it]->code;
}

float reprVectors::distBtw(std::vector<float> input, Node* node){
double distance=0;
for(size_t i=0;i<node->valuesInDim.size();i++){
distance = distance +
pow((node->valuesInDim[i]-input[i]),2);
}
return (float)pow(distance,0.5);
}


it iterator gives me the minimum distance in the distance vector. How do I find the corresponding position in my reprVectorList? how can I get an int/size_t value from it iterator returned by min_element?

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You could consider making your vector contain a struct { bool , float } instead, and assembling some suitable operator overrides for it. That way you're only ever having to deal with a single vector. –  Rook Jun 15 '12 at 11:49

You can use std::distance:

auto index = std::distance(distance.begin(), it);


This approach is favourable to performing arithmetic operations on iterators, since it is valid for all operator types.

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This is a better solution than the one by MikMik, as it should support any iterator (and hence container). –  Rook Jun 15 '12 at 11:59
@Rook exactly! Maybe I should have stated that in the answer. –  juanchopanza Jun 15 '12 at 11:59
@Rook: this is debatable. It will compile for every iterator type, but you'll get O(N) runtime for any iterator that do not support random access. As such, - can be used as a fail-safe, so that you reconsider the cost of the operation should the container type change. For example should it sit within a tight loop, you might prefer to maitain an additional variable (adjusted manually) to keep track of it rather than incur the big overhead. –  Matthieu M. Jun 15 '12 at 12:24
@MatthieuM.it will compile and produce the expected results for valid iterator pairs, but yes, it hides away potential performance issues. –  juanchopanza Jun 15 '12 at 12:27
size_t index = it - distance.begin();

Note: the exact return type is ptrdiff_t, in general, because it might be negative. –  Matthieu M. Jun 15 '12 at 12:24
@Damon: I consider this an advantage, as std::distance is O(N) for anything else than a random iterator. –  Matthieu M. Jun 15 '12 at 12:25