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I have a problem to solve. N natural number is given. I need to find a list of natural numbers which sum up to that given number and at the same time the inverses up to 1.

a + b + c + ... = N
1/a + 1/b + 1/c + ... = 1

a, b, c don't have to be unique.

I have come up with following code in Java. It works for simple cases, but incredibly slow for already for N > 1000.

How can I rewrite the method so it works fast even for millions? Maybe, I should drop off recursion or cut off some of branches with mathematical trick which I miss?


private final static double ONE = 1.00000001;

public List<Integer> search (int number) {
    int bound = (int)Math.sqrt(number) + 1;
    List<Integer> list = new ArrayList<Integer>(bound);

    if (number == 1) {
        return list;

    for (int i = 2; i <= bound; i++) {
        if (simulate(number, i, list, 0.0)) break;

    return list;

//TODO: how to reuse already calculated results?
private boolean search (int number, int n, List<Integer> list, double sum) {
    if (sum > ONE) {
        return false;

    //would be larger anyway
    double minSum = sum + 1.0 / number;
    if (minSum > ONE) {
        return false;

    if (n == 1) {
        if (minSum < 0.99999999) {
            return false;

        return true;

    boolean success = false;
    for (int i = 2; i < number; i++) {
        if (number - i > 0) {
            double tmpSum = sum + 1.0 / i;
            if (tmpSum > ONE) continue;

            success = search(number - i, n - 1, list, tmpSum);
            if (!success) {
                list.remove(list.size() - 1);

            if (success) break;

    return success;
share|improve this question
I think 1/a + 1/b + 1/c + ... = N is a typo, that should be = 1, shouldn't it? –  Daniel Fischer May 16 '13 at 13:20
you said inverse list should sum up to 1 (your formula says N): a + b + c + ... = N 1/a + 1/b + 1/c + ... = 1 –  Steve Oh May 16 '13 at 13:20
I think you should expect a magnitude of O(n^2) for runtime. If you implement a smart pruning, you may save a constant factory, which does IMHO not pay off. I think you cannot solve this with floating point arithmetics. Optimizations should probably go to java coding. –  Steve Oh May 16 '13 at 13:26
Just to make it clear, {a, b, ...} should be integers, right? Also, do you allow both positive and negative numbers? –  adrianp May 16 '13 at 13:34
Should a, b, c, ... de dinstinct? –  Thomash May 16 '13 at 13:35

3 Answers 3

up vote 11 down vote accepted

The paper "A Theorem on Partitions", 1963 by Graham, R. L. shows that for N > 77 there is a solution where the numbers used are dinstinct and propose an algorithm to find such a decomposition.

The algorithm is the following:

  • If N is less than 333 , use a precomputed table to fetch the result.
  • If N is odd, find a decomposition d1, d2, d3, d4, ..., dk for (N-179)/2, then 3, 7, 78, 91, 2*d1, 2*d2, 2*d3, ..., 2*dk is a decomposition for N
  • If N is even, find a decomposition d1, d2, d3, d4, ..., dk for (N-2)/2, then 2, 2*d1, 2*d2, 2*d3, ..., 2*dk is a decomposition for N

But since you don't care about having distinct numbers in the decomposition, you can reduce the size of the table for precomputed results to 60 and in case N is odd, find a decomposition d1, d2, d3, d4, ..., dk for (N-9)/2, then 3, 6, 2*d1, 2*d2, 2*d3, ..., 2*dk is a decomposition for N.

share|improve this answer
(N-179)/2 that's insane! –  Nikolay Kuznetsov May 16 '13 at 14:45
Since you don't care about dincstinct numbers, you don't need this 179, I have updated the answer. –  Thomash May 16 '13 at 14:50
where 60 and (N-9)/2 comes from? –  Nikolay Kuznetsov May 20 '13 at 10:01
You should read the paper. (N-9)/2 comes from the fact that if d1, ..., dk is a decomposition for (N-9)/2, then 3, 6, 2*d1, ..., 2*dk is a decomposition for N. –  Thomash May 20 '13 at 18:46
60 is not actually the minimal number. The minimal number is 55. There is no valid decomposition for 23 so for the number 55 you can not use this algorithm. –  Thomash May 20 '13 at 18:54

First, change the second condition so that you don't have to perform any floating point arithmatic. Change (1/a+1/b+1/c)=1 to bc+ac+ab = abc. You can calculate this with O(k) divisions (Hint: Calculate the right side first).

Second, consolidate your numbers. Example: if you have a,b,c,a,b as input, consolidate the dupes and store it as two a, two b and one c.

Third, there is a DP based solution to solve the first problem efficiently. You would have to store all the partial answers as well. However you can store the partial answers quite efficiently. Eg. Store "x=bc+ac+ab" and "y=abc" as the partial solution. When you add d to the mix, you have xnew = x*d+y, and ynew=y*d .

If you use these three pointers, your solution could be more efficient.

share|improve this answer

If the numbers don't have to be integers a = b = c = ... = sqrt(N) is a solution.

If negative numbers are allowed, then find a and b such that 8a+3b+1=N (you can compute them with Euclide's algorithm) and then the list you want is: the number 3 (3a times), the number 2 (2b times) and the number 1 (1-a-b times)

share|improve this answer
they have to be integers. negative are not allowed. –  Nikolay Kuznetsov May 16 '13 at 13:54
not a downvoter –  Nikolay Kuznetsov May 16 '13 at 14:02

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