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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
    else
        continue

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?

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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 '12 at 13:44
    
Is there an upper bound on X and Y? If so, binary search your way to success. –  Tony Ennis May 3 '12 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 '12 at 13:46
7  
This asks for solution for CodeChef May 2012 contest problem DIVPAIR :-( –  Betlista May 3 '12 at 14:03
1  
@Betlista I've raised the issue on meta should you want to comment further –  AakashM May 4 '12 at 8:04

4 Answers 4

up vote 7 down vote accepted

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.

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excelent answer –  Perroloco May 3 '12 at 14:18

We have

7(x-4)+4(y+7)=7x+4y

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.

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I think the equation can be changed. What's there is just a sample. –  Tony Ennis May 3 '12 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 '12 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 '12 at 14:06
    
Thanks for the advice, I will do it. –  Thomash May 3 '12 at 14:08

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.

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The Simplex method is awesome. –  Tony Ennis May 3 '12 at 23:18

O(n) :

y=n/4;
while((n-4y)%7!=0 && y!=0){
 y--;
}
x=(n-4y)/7;
share|improve this answer
    
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. –  Marko Topolnik May 3 '12 at 14:00
    
i made it generic...there are some programming languages that convert divisions to float when the result is not an integer. –  Perroloco May 3 '12 at 14:01
    
So you decided to make your code Java-specific in all aspects except the floor call. –  Marko Topolnik May 3 '12 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? –  Perroloco May 3 '12 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. –  Marko Topolnik May 3 '12 at 14:05

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