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I have a problem from the internet where i have an array of N integers and have to perform segment multiplication some T times given the left(L) and right segment(R) of the array and return the answer modulo some given modulus(M).





and integers <=100



5(N) 2 5 8 9 4 4(T) 1 2 3 2 3 4 1 1 1 1 5 100000


1 0 0 2880

So i have made a solution to this problem but it is a little slow i need tips to optimize my program.

#include "stdio.h"

int main(void)
        int t;

        int Array[t+1];

    for (int i = 1; i <=t; i++)

    int N;

    for (int i = 0; i <N ; i++)

        long long a,b,c;
        long long Product = 1;
        if (c==1)
            Product = 0;


            for (int j = a; j <=b ; j++)

                Product *= Array[j];

                if (Product>=10000000000000000)



        printf("%lld\n",Product );


    return 0;
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closed as off-topic by Oswald, woodchips, Luc M, Mike, Dirk Aug 7 '13 at 22:01

  • This question does not appear to be about programming within the scope defined in the help center.
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This question is better suited for codereview.stackexchange.com –  Oswald Aug 7 '13 at 20:41
side: suggest Array[0] = 0; before int N;. –  chux Aug 7 '13 at 20:48
@chux why? i am not going to use Array[0] –  fresco Aug 7 '13 at 21:08
So if N=100000 you just put input to scanf a 100000 times? That is why it is slow? –  Neaţu Ovidiu Gabriel Aug 7 '13 at 21:13
That part actually doesn't count towards the time –  fresco Aug 7 '13 at 21:18

1 Answer 1

up vote 2 down vote accepted


You could compute an array A_p[i] for each prime p less than 100 that notes how many times p divides the i^th entry of your array.

Then you can compute a secondary array B_p[j] which is the cumulative sum of A_p[i] for i up to and including j. (This can be done in O(n) by the recursion B_p[i]=B_p[i-1]+A_p[i].)

This secondary array will allow you to compute the total power of each prime in any range. For example, if you wanted to know how many times the prime 5 appeared in array entries 10 to 100 you can compute B_5[100]-B_5[10-1].

So for each query you can then compute the final answer by raising each prime to the corresponding power and multiplying the results together modulo M. Note that there is a technique called exponentiation by squaring that makes this calculation efficient.

If 0 is a possible integer, then add 0 to your list of primes that are considered in the calculation.


Note that this approach of using a cumulative sum is quite useful in many situations. For example, the Viola-Jones method for face recognition uses a version of this technique in 2 dimensions in order to be able to compute 2d filters efficiently.

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this question is part of the running contest. Find the link here link I request to delete your answer. I have requested the admin too to block the post. –  rspr Aug 8 '13 at 8:33
I tried, but Stack overflow refuses to let me delete an accepted answer. –  Peter de Rivaz Aug 8 '13 at 9:54

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