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I need to get the rank (the positional index+1) of an element for containers in C++ like vector or list. Is there a convenient way of doing so? I could have done testing based on nth_element in order to find the rank. Or I could sort and do binary search to find the rank. But all of these do not seem very efficient in the worst-case. I'd like to get O(lgn) complexity, and done with STL algorithms if possible.

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If you want better than scanning the container, then you picked the wrong container. At the very least, there's no catch-all approach that'll be optimal for every container type. –  Lightness Races in Orbit Jan 19 '12 at 0:29
Ummm... use the already available method for finding an item's index and add 1? How do you think this could be achieved in a collection like a vector without potentially looking at each item? Is this actually a performance problem? I would have to assume that, if you have proven that it is, you would have then come to the conclusion that you are using the wrong data structure for the job. –  Ed S. Jan 19 '12 at 0:29
@EdS.: "Q: What is the method?" "A: Use the method." Hmm. –  Lightness Races in Orbit Jan 19 '12 at 0:29
@LightnessRacesinOrbit: Read past the first sentence. Also, using google for the most simple of stl operations is tough, right? –  Ed S. Jan 19 '12 at 0:30
It's not possible unless you've sorted the container or otherwise imposed some kind of structure you can use. Sketch proof: suppose that the desired element could be anywhere, and that examining an element that is not the desired element tells you nothing about the location of the target. Then whatever order you examine the elements, there are inputs for which the target will be the nth place you look. Hence in the worst case performance is Omega(n). –  Steve Jessop Jan 19 '12 at 0:37

4 Answers 4

If your container has random access iterators (e.g. vector) and is sorted, you can use the std::lower_bound() algorithm to get an elements index in O(log n) complexity. For example:

std::vector<int> v({10,20,30,30,20,10,10,20});
std::sort(v.begin(), v.end());
auto iter = std::lower_bound(v.begin(), v.end(), 20);
std::cout << "index " << int(iter - v.begin()) << std::endl;

(I'm using C++11 syntax to keep the code short, but you should get the idea).

Note that you can insert elements to a vector in a sorted way, so you don't need to sort before finding the index.

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At the very least you should assert sortedness before running this algorithm. –  Lightness Races in Orbit Jan 19 '12 at 0:41
At the very least you should read to the end of the answer you comment on ♥ –  ypnos Jan 19 '12 at 0:47
In my example code I'm sorting before running the algorithm just to show its use, of course doing that is worse than just linear search. As I noted, you should keep your vector sorted when inserting, and that's the better use case for this algorithm (You get O(log n) insertion and O(log n) search, as opposed to O(1) insertion and O(n) search.) –  spatz Jan 19 '12 at 0:48
@spatz: if you keep the vector sorted when inserting then you get O(n) insertion, it's not O(log n). First find the insertion point using approx log n comparisons, then shuffle everything to the right of it along one space to make a gap (expected n/2 copies/moves). –  Steve Jessop Jan 19 '12 at 10:08
@SteveJessop, you're right. Keeping the vector sorted gives O(n) insertion and O(log n) search. Sorry for the mistake. –  spatz Jan 19 '12 at 11:06

It seems very unlikely that you will find something more efficient than linear search here. The worst case must necessarily be that you compare all elements with what you search for - and that is exactly what linear search gives you.

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If you already have the data in a vector, and you have an itterator, you should be able to subtract the iterator from the beginning (or end) of the vector to get the position within -- that should assuming the vector is sorted -- be the rank.

  vector<int> myvector;
  vector<int>::iterator it;    
  for ( it=myvector.begin() ; something ; something )
      *it++; // 

  int rank = it - myvector.begin();
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If you already have an iterator, then sortedness is not relevant. Anyway, I think it's clear that the OP doesn't have any sort of handle to the element within the container. –  Lightness Races in Orbit Jan 19 '12 at 0:42

this might be abit untidy.

you can use the fact that elements in vectors are contiguous within memory.

so what you have to do is

1) get the iterator address of the element of interest

2) subtract with the vector.begin() to get the total memory

3) divide by the size of one element

this should give you the position (or rank).

this is assuming that the elements are fixed size.

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