Why is this program so slow? [closed]

Question

So i came up with this solution to ProjectEuler problem 29 (http://projecteuler.net/problem=29)

The answer is right. I would expect this code to run pretty fast but it runs extremely slowly. I have no idea why.

#include <iostream>
#include <vector>
#include <algorithm>

using namespace std;

typedef vector<pair<int,int>> factorized_int; // pairs of base, exponent

factorized_int primeFactors(int n) {
        int primeFactors[100] = {0};
        for (int i=2; i <= n; i++) {
                if (n%i == 0) {
                        primeFactors[i]++;
                        n /= i;
                        i--;
                }
        }

        vector<pair<int,int>> retValue;
        for (int i=2; i<100; i++) {
                if (primeFactors[i] != 0) {
                        retValue.push_back(pair<int,int>(i,primeFactors[i]));
                }
        }

        return retValue;
}

factorized_int pow(factorized_int n, int exponent) {
        factorized_int retValue = factorized_int(n);
        for (size_t i = 0; i<retValue.size(); i++) {
                retValue[i].second *= exponent;
        }
        return retValue;
}

int main() {

        vector<factorized_int> list;

        for (int a=2; a <= 100; a++) {
                factorized_int factorized_a = primeFactors(a);
                cout<<a<<endl;
                for (int b=2; b <= 100; b++) {
                        factorized_int number = pow(factorized_a,b);

                        if (find(list.begin(), list.end(), number) == list.end()) {
                                list.push_back(number);
                        }
                }
        }


        cout<<list.size();
        getchar();
        return 0;
}

Any ideas?

Edit: Most of the answers I am getting are in terms of the algorithmic complexity of the algorithm. Notice that n is pretty low (100) and also:

int main() {

            vector<factorized_int> list;

            for (int a=2; a <= 100; a++) {
                    factorized_int factorized_a = primeFactors(a);
                    cout<<a<<endl;
                    for (int b=2; b <= 100; b++) {
                            /*factorized_int number = pow(factorized_a,b);

                            if (find(list.begin(), list.end(), number) == list.end()) {
                                    list.push_back(number);
                            }*/
                    }
            }


            cout<<list.size();
            getchar();
            return 0;
    }

runs almost instantely. This make me think that the problem is with the constant in the O(n) of the pow function. I think the problem is realted to the various copies of std::vector in the call to pow(factorized_int,int) How could I check and optimize that?

Note: In my PC, the commented version runs in less than 0.1 seconds, and the first one takes more than 30 seconds

Answer 1

You aren't clear on what 'fast' or 'slow', is, but:

int main() {
        vector<factorized_int> list;

        for (int a=2; a <= 100; a++) { //O(a)
                factorized_int factorized_a = primeFactors(a); //O(2a)
                cout<<a<<endl;
                for (int b=2; b <= 100; b++) {  //O(b)
                        factorized_int number = pow(factorized_a,b);//O(2b)

                        if (find(list.begin(), list.end(), number) == list.end()) {
                                list.push_back(number);
                        }
                }//total of O(b*2b) => O(b^2)
        }//total of O(a * (2a + b^2)) => O(n^3)


        cout<<list.size();
        getchar();
        return 0;
}

The annotations indicates, roughly, the algorithmic complexity of your function calls. You have an O(n^3), which is pretty slow.