Suppose I have a simple equation of the form:

7x + 4y = n

where n is chosen by us and x, y and n are all positive integers. This is the only equation which is given to us. Among the possible solutions we need the solution (x,y) in which x is the smallest. e.g.

7x + 4y = 14, then (2, 0) is the solution
7x + 4y = 15, then (1, 2) is the solution
7x + 4y = 32, then (4, 1) and (0, 8) are the possible solutions,
of which (0, 8) is the correct solution

I would like to design an algorithm to calculate it in the least possible running time. The current algorithm which I have in mind goes something like this:

Given an input n
Calculate max(x) = n/7
for i = 0 to max(x)
    If the equation 7*i + 4*y = n holds
        return value of i and y

This algorithm, I presume, can have a running time of upto O(n) in worst case behaviour. Is there some better algorithm to compute the solution?

  • 3
    You say If the equation 7*i + 4*y = n holds i you get from the loop but what is y?
    – msam
    May 3, 2012 at 13:44
  • Is there an upper bound on X and Y? If so, binary search your way to success.
    – Tony Ennis
    May 3, 2012 at 13:44
  • 2
    You might want to read about linear integer programming. Your problem is definetly a specific instance of the generalized problem, but I am curious if there is an efficient solution for the simplified problem you are facing.
    – amit
    May 3, 2012 at 13:46
  • 7
    This asks for solution for CodeChef May 2012 contest problem DIVPAIR :-(
    – Betlista
    May 3, 2012 at 14:03
  • 1
    @Betlista I've raised the issue on meta should you want to comment further
    – AakashM
    May 4, 2012 at 8:04

4 Answers 4


Let us consider the more general problem

  • For two coprime positive integers a and b, given a positive integer n, find the pair (x,y) of nonnegative integers such that a*x + b*y = n with minimal x. (If there is one. There need not be, e.g. 7*x + 4*y = 5 has no solution with nonnegative x and y.)

Disregarding the nonnegativity for the moment, given any solution

a*x0 + b*y0 = n

all solutions have the form (x0 - k*b, y0 + k*a) for some integer k. So the remainder of x modulo b and of y modulo a is an invariant of the solutions, and we have

a*x ≡ n (mod b), and b*y ≡ n (mod a)

So we need to solve the equation a*x ≡ n (mod b) - the other one follows.

Let 0 < c be an integer with a*c ≡ 1 (mod b). You find it for example by the extended Euclidean algorithm, or (equivalently) the continued fraction expansion of a/b in O(log b) steps. Both algorithms naturally yield the unique c < b with that property.

Then the minimal candidate for x is the remainder x0 of n*c modulo b.

The problem has a solution with nonnegative x and y if and only if x0*a <= n, and then x0 is the minimal nonnegative x appearing in any solution with nonnegtaive x and y.

Of course, for small a and b like 7 and 4, the brute force is no slower than calculating the inverse of a modulo b.


We have


So if (x, y) is a solution, then (x-4,y+7) is also a solution. Hence if there is a solution then there is one with x<4. That's why you only need to test x=0..3 which runs in constant time.

This can be extended to any equation of the form ax+by=n, you only need to test x=0..b-1.

  • I think the equation can be changed. What's there is just a sample.
    – Tony Ennis
    May 3, 2012 at 13:48
  • 2
    If the equation is of the form ax+by=n then if there is a solution, then there is one with x < b.
    – Thomash
    May 3, 2012 at 13:51
  • Your idea is good and true (I think), but the answer is not informative enough. If I were you, I'd edit the answer and add more information and explanation. If you do so, some downvoters will probably un-downvote you. I +1ed it anyway, for leading the way.
    – amit
    May 3, 2012 at 14:06
  • Thanks for the advice, I will do it.
    – Thomash
    May 3, 2012 at 14:08
  • awesome solution (y) Jan 7, 2017 at 2:29

I would recommend checking out the Simplex method in the Numerical Recipes in C book. You can easily treat the C code like pseudo-code and make a java version. The version of the simplex you want is the "constrained-simplex" which deals in positive values only. The book is available online for free. Start with section 10.8 and read forward.

  • The Simplex method is awesome.
    – Tony Ennis
    May 3, 2012 at 23:18

O(n) :

while((n-4y)%7!=0 && y!=0){
  • why call floor on an integer? If n is an int, so is n/4. Also, for efficiency you should start with x because its upper bound is smaller. May 3, 2012 at 14:00
  • i made it generic...there are some programming languages that convert divisions to float when the result is not an integer. May 3, 2012 at 14:01
  • So you decided to make your code Java-specific in all aspects except the floor call. May 3, 2012 at 14:03
  • ok you got me there.. I was not sure about the java behavior in this case because I use to develop in other languages too. Why are we discussing that instead of the algorithm? Why don't you write an answer yourself instead of criticizing other people's code? May 3, 2012 at 14:04
  • Because what I would write is too close to what you already have there. I'm trying to motivate you to clean it up. May 3, 2012 at 14:05

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