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Here is the pseduo code for this algorithm.

SpaceSaving algorithm

Following is how I have implemented this.

#include <iostream>
#include <fstream>
#include <string>
#include <map>

typedef std::map<std::string, int> collection_t;
typedef collection_t::iterator collection_itr_t;

collection_t T;

collection_itr_t get_smallest_key() {
    collection_itr_t min_key = T.begin();
    collection_itr_t key     = ++min_key;
    while ( key != T.end() ) {
        if ( key->second < min_key->second )
            min_key =  key;
    return min_key;
void space_saving_frequent( std::string &i, int k ) {
    if ( T.find(i) != T.end())
    else if ( T.size() < k ) {
        T.insert(std::make_pair(i, 1 ));
    } else {
        collection_itr_t j = get_smallest_key();
        int cnt = j->second + 1;
        T.insert(std::make_pair(i, cnt));
int main ( int argc, char **argv) {
    std::ifstream ifs(argv[1]);
    if ( ifs.peek() == EOF ) 
        return 1;
    std::string line; 
    while( std::getline(ifs,line) ) {
        std::string::size_type left   = line.rfind('=') + 1;
        std::string::size_type length = line.length();
        std::string i     = line.substr(left, length - left - 1);  
        space_saving_frequent(i, 5);
    return 0;

Original paper link : http://dimacs.rutgers.edu/~graham/pubs/papers/freqcacm.pdf

But code does not work, and I am no able to figure out where I am wrong.

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if the element is in the collection you count it; and if the collection isn't full you add it. but if none of those conditions apply you simply replace the minimum element with the new one ? what if the new element appeared for the first time ? also, what is your question ? –  yurib Dec 19 '11 at 13:16

1 Answer 1

up vote 4 down vote accepted

If the items with least count are two or more, you can simply break ties arbitrarily by choosing, for instance, the item with lowest index stored in your data structure, or a random one among those of lowest count etc.

If you want to compare your implementation with a reference one, take a look at the implementation of Cormode and Hadjieleftheriou that you will find here. The code is more complex than yours, because you are not actually implementing the stream summary data structure. Their code also includes implementations for several other frequent items algorithms, and the authors compared the performances of those algorithms. Space saving proved to be in the majority of the cases, the best algorithm, with regard to several metrics such as precision, recall, update speed, space used etc. You will also find a paper discussing this experimental comparison. An improved version of this paper appeared later in Communications of the ACM. Here you can access a pdf version.

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I have done the same thing, but the code does not work. –  Avinash Dec 19 '11 at 18:06
What is not working exactly ? –  Massimo Cafaro Dec 19 '11 at 20:40
It is not giving me top 5 frequent items. –  Avinash Dec 20 '11 at 5:19
Please post your example input and the output you get. –  Massimo Cafaro Dec 20 '11 at 6:16
Please note that the algorithm always outputs frequent elements, and can but is NOT guaranteed to report top-k elements. Top-k elements are reported if, at the end of the algorithm, additional conditions are satisfied. Please check Section 4.2. and Figure 5 of the original paper in which Space Saving was introduced for details related to the implementation of a top-k query on the algorithm output. –  Massimo Cafaro Dec 21 '11 at 6:40

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