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I am thinking about this topcoder problem.

Given a string of digits, find the minimum number of additions required for the string to equal some target number. Each addition is the equivalent of inserting a plus sign somewhere into the string of digits. After all plus signs are inserted, evaluate the sum as usual.

For example, consider "303" and a target sum of 6. The best strategy is "3+03".

I would solve it with brute force as follows:

for each i in 0 to 9 // i -- number of plus signs to insert
  for each combination c of i from 10
    for each pos in c // we can just split the string w/o inserting plus signs
      insert plus sign in position pos 
    evaluate the expression
    if the expression value == given sum
      return i

Does it make sense? Is it optimal from the performance point of view?


Well, now I see that a dynamic programming solution will be more efficient. However it is interesting if the presented solution makes sense anyway.

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This question needs to be retitled --- someone has downvoted, and i assume that is why. –  jayunit100 Nov 26 '11 at 18:40
@jayunit100 what is wrong with the title in your opinion ? –  Michael Nov 26 '11 at 18:43
It contains no information about the question being asked. There are probably several "Old Top Coder riddles", don't you think? –  Ken White Nov 26 '11 at 18:46
Yup.... Looks better now :) in general, a specific question, or at least, a clear issue, is essential in the title. –  jayunit100 Nov 27 '11 at 6:10

5 Answers 5

up vote 4 down vote accepted

It's certainly not optimal. If, for example, you are given the string "1234567890" and the target is a three-digit number, you know that you have to split the string into at least four parts, so you need not check 0, 1, or 2 inserts. Also, the target limits the range of admissible insertion positions. Both points have small impact for short strings, but can make a huge difference for longer ones. However, I suspect there's a vastly better method, smells a bit of DP.

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Well, I see just two ways of attacking it: Dynamic Programming, filling an optimal table TxN starting from the last position (where T is the target value and N is the input string length) or exaustive search with pruning. Probably the DP approach is easier and speedier (a naïve approach is quadratic. Dunno if it is possible to do better, at least asymptotically). –  akappa Nov 26 '11 at 19:02
I concur. Looks like a DP problem (I have added it to the question). –  Michael Nov 26 '11 at 19:03
I don't think it can be solved by dp approach.. Just think over it like matrix chain multiplication(Putting + in place of brackets), there is very rare chance that a subproblem will be used in any of the calculation. –  dejavu Dec 10 '11 at 6:46

I haven't given it much thought yet, but if you scroll down you can see a link to the contest it was from, and from there you can see the solvers' solutions. Here's one in C#.

using System; 
using System.Text; 
using System.Text.RegularExpressions; 
using System.Collections; 

public class QuickSums { 
    public int minSums(string numbers, int sum) { 
        int[] arr = new int[numbers.Length]; 
    for (int i = 0 ; i < arr.Length; i++)       
      arr[i] = 0; 

    int min = 15; 

    while (arr[arr.Length - 1] != 2)     
      for (int i = 0; i < arr.Length - 1; i++) 
        if (arr[i] == 2)  
          arr[i] = 0; 
          arr[i + 1]++; 

      String newString = ""; 
      for (int i = 0; i < numbers.Length; i++) 
        if (arr[i] == 1) 

      String[] nums = newString.Split('+'); 
      int sum1 = 0; 
      for (int i = 0; i < nums.Length; i++) 
          sum1 += Int32.Parse(nums[i]); 

      if (sum == sum1 && nums.Length - 1 < min) 
        min = nums.Length - 1; 

    if (min == 15) 
      return -1; 

    return min; 

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dynamic programming :

public class QuickSums {

public static int req(int n, int[] digits, int sum) {

    if (n == 0) {
        if (sum == 0)
            return 0;
            return -1;
    } else if (n == 1) {
        if (sum == digits[0]) {
            return 0;
        } else {
            return -1;

    int deg = 1;
    int red = 0;

    int opt = 100000;
    int split = -1;

    for (int i=0; i<n;i++) {
        red += digits[n-i-1] * deg;

        int t = req(n-i-1,digits,sum - red);
        if (t != -1 && t <= opt) {
            opt = t;
            split = i;
        deg = deg*10;

    if (opt == 100000) 
        return -1;
    if (split == n-1) 
        return opt;
        return opt + 1;


public static int solve (String digits,int sum) {
   int [] dig = new int[digits.length()];
   for (int i=0;i<digits.length();i++) {
       dig[i] = digits.charAt(i) - 48;

    return req(digits.length(), dig, sum);

public static void doit() {
    String digits = "9230560001";
    int sum = 71;

    int result = solve(digits, sum);
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Because input length is small (10) all possible ways (which can be found by a simple binary counter of length 10) is small (2^10 = 1024), so your algorithm is fast enough and returns valid result, and IMO there is no need to improve it.

In all until your solution works fine in time and memory and other given constrains, there is no need to do micro optimization. e.g this case as akappa offered can be solved with DP like DP in two-Partition problem, but when your algorithm is fast there is no need to do this and may be adding some big constant or making code unreadable.

I just offer parse digits of string one time (in array of length 10) to prevent from too many string parsing, and just use a*10^k + ... (Also you can calculate 10^k for k=0..9 in startup and save its value).

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I think the problem is similar to Matrix Chain Multiplication problem where we have to put braces for least multiplication. Here braces represent '+'. So I think it could be solved by similar dp approach.. Will try to implement it.

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I tried it. But I don't think that it could be solved by Matrix Chain Multiplication approach because there is very less chance that optimal solution of any previous solution will be used. Think over it. I think DP approach is ruled out after analyzing the problem this way. –  dejavu Nov 28 '11 at 20:19

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