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An SPOJ question:

Given two arrays, A and B, of positive numbers between 1 and 1,000,000. I have to pair each integer a in A with an integer b in B such that the sum of absolute values of differences is minimized. A and B can contain a maximum of 5000 integers each.

For example:

Let A=[10, 15, 13] and B=[14,13, 12], then the best pairing is (10, 12), (15, 14) and (13, 13) because |10-12|+|15-14|+|13-13|=3, which is the least we can achieve. Thus, the minimum sum achieved is 3.

I believe it is a dynamic programming question.


The arrays may be of different sizes but can contain a maximum of 5000 elements each.

My code:

#include <cmath>
#include <vector>
#include <iostream>
#include <cstring>
#include <algorithm>
#include <cstdio>
using namespace std;

static int DP[5002][5002], N, M, tmp;
vector<int> B, C;

int main()
    scanf("%d %d", &N, &M); memset(DP, -1, sizeof DP);
    B.push_back(0); C.push_back(0); DP[0][0]=0;
    for(int i=1; i<=N; ++i){scanf("%d", &tmp); B.push_back(tmp);} \\inputting numbers.
    for(int i=1; i<=M; ++i){scanf("%d", &tmp); C.push_back(tmp);}
    sort(B.begin(), B.end()); sort(C.begin(), C.end());         \\Sorting the two arrays.

    if(C.size()<=B.size()){                         \\Deciding whether two swap the order of arrays.
        for(int i=1; i<=N; ++i){
            for(int j=1; j<=M; ++j){
                    DP[i][j]=(DP[i-1][j]!=-1)? min(tmp, DP[i-1][j]): tmp;
        printf("%d\n", DP[N][M]);    \\Outputting the final result.
        for(int i=1; i<=M; ++i){
            for(int j=1; j<=N; ++j){
                if(j>i) break;
                    DP[i][j]=(DP[i-1][j]!=-1)? min(tmp, DP[i-1][j]): tmp;
        printf("%d\n", DP[M][N]);
    return 0;
share|improve this question
Isn't the solution to just sort both arrays and pair them off, iterating A forward and B reverse? Or at least that would be the base case I'd try to make improvements off of, if not – Patashu May 21 '13 at 0:44
@Patashu No, both arrays in the same direction. – Niet the Dark Absol May 21 '13 at 0:44
@Kolink Oops, yeah, you're right – Patashu May 21 '13 at 0:45
If both arrays are of the same size, and every number needs to be used exactly once, you only need to sort and pair them indeed. I suspect the intended problem is a bit harder though and OP forgot to mention something, or it's a "gotcha" question by the interviewer. – Niels Keurentjes May 21 '13 at 0:48
i.stack.imgur.com/BlSXH.png Mathematically speaking what you have is two vectors and the "sum of absolute differences" is the distance in Taxicab Geometry. @NielsKeurentjes is right if the conditions are indeed as you mentioned. Are you sure you're not forgetting anything? – Benjamin Gruenbaum May 21 '13 at 0:51
up vote 2 down vote accepted

Niels's comment elucidates that, if the arrays are of the same size, then you should sort them and pair the values. We can build on that to construct the general case:

I'll assume the length of the first array arr1 is smaller than or equal to the length of the second arr2. If it isn't, just swap them. First, sort both arrays, and let dp[A][B] be the smallest difference when you consider only the subarrays arr1[A...] and arr2[B...] (that is, arr1 from A forward and arr2 from B to the end). You have two choices:

  • Pair A and B. In this case you'd get a total difference of |arr1[A]-arr2[B]| + dp[A+1][B+1].

  • Don't use B. Note that in this case you'll never consider B again (because if you pair A and B to different elements, then you could swap both pairs and the sum would go down). So you can simply ignore B and your answer will be dp[A][B+1].

Base cases should be fairly obvious:

  • dp[length of arr1][length of arr2] = 0
  • dp[A][length of arr2] = infinity (it's impossible to pair the remaining elements of arr1).
share|improve this answer
Please see the edit 2 and help me out. I have done as you said. But getting wrong answer on SPOJ judge. – Pushkar Mishra May 21 '13 at 6:27
I don't think the j==1 condition is correct. Test cases with a one-element C array, such as (1, 2, 3, 4) and (1). – ffao May 21 '13 at 13:13
Great answer, well explained. – roim May 21 '13 at 16:32
@ffao i think dp[length of arr1][B] = infinity should also be there . Correct me if i am wrong . – Aseem Goyal Feb 21 '14 at 11:44
Not necessarily, as some elements in array B can be unmatched in the end. dp[length of arr1][B] should be 0. – ffao Feb 22 '14 at 2:03

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