Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want to determine the value of x for which a certain function (similar to the next one) is maximized: enter image description here

It is clear that the maximum of A is reached when x = 0, and then A = 200.

How could I solve this problem in Java?

Update: Sorry for not making it clear from the beginning. x is an int, but I need a method to find the maximum also when x is not upper bounded like in the next example: enter image description here

share|improve this question
what is the code you wrote –  Shivam Shah Jul 30 '12 at 16:05
if x is an integer, the question is trivial, if it is not, the objective in question is non-convex and non-differentiable, therefore there is no general way of determining the maximum exactly –  Qnan Jul 30 '12 at 16:14
Can you describe exactly what functions you need to maximise? They only contain floor and multiplication, addition and substraction? –  Nikita Beloglazov Jul 30 '12 at 16:19
@NikitaBeloglazov yes, they should contain only floor, multiplication, addition and substraction –  ovdsrn Jul 30 '12 at 16:20

5 Answers 5

The floor function has a linear upper bound as well as a lower one, x-1 < floor(x) < x, which should make it possible to determine the general shape of the curve. One could then find the maximum of the lower bound (which is a linear function) and enumerate the values of x which fall into the area where the upper bound of A may reach the maximum of the lower bound, namely the regions where the upper bound exceeds the minimum of the lower bound. If this region in question is finite, the x that maximizes the A can thus be found. If it is not, this indicates that the function is cyclic, and therefore you have to determine its period and find the maximum on the period.

In the example, the lower bound would be (x + 100) / 1000 - 1 + 3 * (x / 1000 - 1) + 200 - x, which is equal to (196100 - 996 * x) / 1000, and the upper bound (x + 100) / 1000 + 3 * (x / 1000) + 200 - x or (200100 - 996 * x) / 1000. The lower bound obviously reaches its maximum of 196100 / 1000 at x == 0 and therefore we need only check those values of x where the upper bound is higher, (200100 - 996 * x) / 1000 > 196100 / 1000, which can be reduced to x < 4.02, so one only has to check the values of x from 0 to 4.

share|improve this answer

Well, floor((x+100)/1000) and floor(x/1000) are both 0 for the given range. That makes this example pretty easy.

p.s. I don't think Java has anything to do with this question.

share|improve this answer

EDIT: Didn't see that x has to be an integer.

If someone has a function where the variables do not have to be integers, they can use the following:

To approximate the maximum, you could have a look at the Nelder-Mead method. It is susceptible to local maxima and requires a smooth function. It is implemented in Flanagan's Java Scientific Library. Basically you have to extend MaximizationFunction and implement the function

public double function(double[] param)

which contains your function above. This method evaluates your function given the parameters param (in your case one value: x) and returns the function value.

Then you can use the whole program like this:

//Create instance of Maximisation
Maximization max = new Maximization();

// Create instace of class holding function to be maximised
YourFunction funct = new YourFunction();

// initial estimates (your initial x)
double[] start = {30.0};

// initial step sizes (take a good guess)
double[] step = new double[start.length];
Arrays.fill(step, 100);

// convergence tolerance
double ftol = 0.0001;

// maximal number of iterations
int maxIter = 5000;

// Nelder and Mead maximisation procedure
max.nelderMead(funct, start, step, ftol, maxIter);

// result of maximization
double result = max.getMaximum()

Since your variable has restrictions, you should add some constraints via the addConstraint method of Maximization.

share|improve this answer
the goal is for him to implement the calculation. It's scientific computation.... –  hvgotcodes Jul 30 '12 at 16:11
@hvgotcodes how do you know what is goal for him? –  Nikita Beloglazov Jul 30 '12 at 16:12
i guess he should clarify –  hvgotcodes Jul 30 '12 at 16:14
@hvgotcodes Would you mind withdrawing your downvote, since we are not sure about his goal? –  Baz Jul 30 '12 at 16:15
Fine, for now...;) –  hvgotcodes Jul 30 '12 at 16:16

here is an outline, since this is homework

public int myMax(int x){ // assuming x is an integer
  // implement the math function as a Java function 
  // Java has a floor function

public int findMaxOverRange(int low, int hi) {
    int highestSoFar = 0;
    for (int x = low; x <= hi; x++) {
       // invoke your function, getting the result.  If the result is higher
       // than highestSoFar, reset highestSoFar to the value.

The floor function

share|improve this answer
What if answer is not integer? –  Nikita Beloglazov Jul 30 '12 at 16:11
its an integer -- look at the floor functions –  hvgotcodes Jul 30 '12 at 16:12

In java you basically study whole field of mathematical optimization and implement some algorithm in java (as in any other language).
Java doesn't have any so specific math tools. You can search for libraries.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.