# what's a good way to determine a global maximum in an arraylist [closed]

In my program i have a loop which computes integer values and put it one after another into an arraylist. The higher the computetd integer value is, the better it is. Now i want to continue to compute until it seems to be that there will not come any better integer value. That is, when the computed integer decreases over a range, or it does not change anymore. I'm thinking of, comparing the current computed value with the last x (how much value do i have to concern?) If it is always smaller or equals than any of the last x elements I stop computing. But with this strategy i have no guarantee that this is the global maximum, but just a local....

What is a good strategy to do that?

EDIT: I know that there can't be a guarantee to find the global maximum. But i know a little about the behaviour of the function: The more values i have already computed the more unlikely it is that the global maximum will appear.

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Without any knowledge on the function, it is impossible to guarantee a global maximum. Though the suggested approach IMO is still too simplified and naive. –  amit Jan 24 '13 at 11:36
if the input values are more or less randomly, you cannot know when the maximum (or near) comes –  AlexWien Jan 24 '13 at 11:37
What is the logic used for computing integer values? What is the distribution like for these values (input and output)? –  Srinivas Jan 24 '13 at 11:39
Do you have performance issues with `Collections.max()`? Call it once after computing integers is done. –  jlordo Jan 24 '13 at 11:40
@jlordo You missed the issue here. The issue is how to determine "when to stop", not how to find the max from a given data. –  amit Jan 24 '13 at 11:42

## closed as not a real question by BlueRaja - Danny Pflughoeft, jlordo, Lion, Romain Francois, Brent WordenJan 24 '13 at 18:06

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Well, it seems that you need to assume some heuristics to assess when to stop. Since you cannot say "I stop now, as I found my max", you can proceed in one of the following fashions:

• Keep current maximum and compare the next value with the current one, if it is smaller, increase the counter. If the counter reaches X (your parameter) you stop
• Use a probablity distributionfunction which has probability of 1 at 0, and 0 at +inf. this can be tailored to your liking. Then, you simply increment the number of seen values, or a counter of smaller values, and using that counter you estimate the probability using that function. If prob < X (your param again) you stop.

Hope this gives you some idea

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