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I have a problem, where i have big list of number pairs. something like that:

(0,  1)
(10, 5)
(5, 6)
(8, 6)
(7, 5)
.....

I need to make that i can make very fast lookups if the pair exist in list. My first idea was make map< std::pair<int,int> > container. and do searches using container.find().

Second idea was to make vector<vector<int> container where i can search is the pair exist by using std::find(container[id1].begin(),container[id1].end(),id2);

The second way is a bit faster than first, but i need more effective way if that possible.

So question is there more effective way to find is a number pair exist in list?

The number of pairs i know when starting program, so i dont care a lot about pair insertion/deletion, i just need very fast searches.

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What do you mean the pairs are know when starting the program? Are they hard-coded? –  Luchian Grigore Sep 28 '11 at 9:15
    
when i start program i have big list of such integer pairs. so i know how many i have such pairs. –  Ruslan Sep 28 '11 at 9:18
    
do take note that Map is not Pair. The first element on the map is a key (which must be different for each element), but this is not the case with pair. And C++ have std::pair as well. –  dip Sep 28 '11 at 9:19

6 Answers 6

up vote 2 down vote accepted

If you want faster-than-set lookups (faster than O(lg n)) and don't care about items being in a random order, then a hashtable is the way to go.

This is not part of the standard, but a hash_set is available in most compilers. The reference for it is here.

If you want to have really fast searches, you can try a Bloom filter. However, they sometimes result in false positives (i.e. detecting that there is an item pair when there is none), and require lots of memory. A suitable Bloom filter implementation would be:

const int MAX_HASH = 23879519; // note it's prime; must be 2-5 times larger than number of your pairs
vector<bool> Bloom(MAX_HASH); // vector<bool> compresses bools into bits

// multiply one by a large-ish prime, add the second, return modulo another prime
// then use it as the key for the filter
int hash(long long a, long long b) {
    return (a*15485863LL + b) % MAX_HASH;
}

// constant-time addition
void add_item(pair<int,int> p) {
    Bloom[hash(p.first, p.second)] = true;
}

// constant-time check
bool is_in_set(pair<int,int> p) {
    return Bloom[hash(p.first, p.second)];
}
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2  
with the advance of C++0x, I would rather recommend std::unordered_set or (if unavailable) boost::unordered_set as it was the basis for the development of the new Standard, and is portable. –  Matthieu M. Sep 28 '11 at 9:47

If you do not care about insertion you could use a sorted std::vector and std::binary_search, or std::lower_bound.

int main()
{
    using namespace std;
    vector<pair<int, int>> pairs;
    pairs.push_back(make_pair(1, 1));
    pairs.push_back(make_pair(3, 1));
    pairs.push_back(make_pair(3, 2));
    pairs.push_back(make_pair(4, 1));

    auto compare = [](const pair<int, int>& lh, const pair<int, int>& rh)
        {
            return lh.first != rh.first ? 
                   lh.first < rh.first : lh.second < rh.second;
        };

    sort(begin(pairs), end(pairs), compare);
    auto lookup = make_pair(3, 1);
    bool has31 = binary_search(begin(pairs), end(pairs), lookup, compare);

    auto iter31 = lower_bound(begin(pairs), end(pairs), lookup, compare);

    if (iter31 != end(pairs) && *iter31 == lookup)
        cout << iter31->first << "; " << iter31->second << "at position "
            << distance(begin(pairs), iter31);
}
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+1: A sorted vector is faster than a set because of its nicer cache behavior (elements are packed tightly together). If the number of elements is really big, a hash table could be faster though. –  Matthieu M. Sep 28 '11 at 9:49

std::set is probably the way to go, and it should perform reasonably well even if the number of elements increase (whereas the performance of std::vector will slow down quite quickly unless you sort it beforehand and do some sort of binary or tree search). Keep in mind you'll have to define a < operator to use std::set.

If you can use c++0x, std::unordered_set might be worth a try also, particularly if you don't care about order. You'll find unordered_set in Boost. This doesn't require a < operator to be defined. If you make your unordered_set an appropriate size and define your own simple hash function that does not produce many collisions it might be faster than even a binary search on a sorted vector.

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Strictly speaking you do not need to provide operator<. You can make do with a custom comparison functor passed as the second template argument to the std::set. –  David Rodríguez - dribeas Sep 28 '11 at 9:37

You could use some implementation of hash_set to get it faster for instance boost::unordered_set where the key is the std::pair. This is the fastest from the easiest approaches.

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Here's another solution iff your individual numbers are ints.

  1. Construct a long long with the two ints (the first int could be the high 32 bits and the second int the lower 32 bits)
  2. Insert this into an unorderd_set (or set, or sorted vector - profile to find your match)
  3. find.

Should be some percentage faster than working with pairs/tuples etc. esp.

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Why not sorting the tuples according to 1st element, then 2nd, then a binary search should be O(log(n)).

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Why downvoted? Suggested the same as hansmaad did except he provided the implementation and I was one minute earlyer. –  stracktracer Sep 28 '11 at 9:29

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