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I am using this code to generate data that I am using for my honors thesis in psychology. It basically mimics some different ways in which people think humans make decisions.

When I run this program the probabilities suggest that the 3 variables correct, incorrect and incorrect2 will continue to get more and more negative until they underflow. I am trying to see just how high I can set the threshold (currently 2) and still get results.

EDIT:

I have brought my threshold all the way down to 2 and then added a statement that will say "underflow" once all 3 variables reach a certain negative number. However, even when I set that to -2 and have the threshold at 2 (one of these events should happen quite quickly) it seems to only make 2-5 decisions and then hang...I would like to be able to have the "underflow" value be something much greater like 500 to allow the program a chance to make a positive decision.

P.S there is only 3 alternatives in this version of the code opposed to the 4 alternatives in the previous version.

import java.util.Random;

public class thesis3 {

    public static void main (String [] args){

    int totalRTIncorrect = 0;
    int totalRTCorrect = 0;
    int totalCorrect = 0;
    int totalIncorrect = 0;

    for (int j = 0; j < 1152;j++){
    int correct = 0;
    int incorrect = 0;
    int incorrect2 = 0;
    int rtCorrect = 0;
    int rtIncorrect = 0;
    int time = 0;

        while(correct<2 && incorrect<2 && incorrect2<2){
                Random rand = new Random();
                int pickedNumber = rand.nextInt(400);

                if (pickedNumber<144){
                    correct++;
                    incorrect--;
                    incorrect2--;
                    time++;

                }
                else if (pickedNumber>143 && pickedNumber<277){
                    incorrect++;
                    correct--;
                    incorrect2--;

                    time++;
                }
                else if (pickedNumber>276){
                    incorrect2++;
                    correct--;
                    incorrect--;
                    time++;
                }

        }
                if (correct == 2){
                    rtCorrect = time;
                    totalCorrect++;
                    System.out.printf ("Correct %d\n", rtCorrect);
                }
                else if (incorrect == 2){
                    rtIncorrect = time;
                    totalIncorrect++;
                    System.out.printf ("Incorrect %d\n", rtIncorrect);
                }
                else if (incorrect2 == 2){
                    rtIncorrect = time;
                    totalIncorrect++;
                    System.out.printf ("Incorrect %d\n", rtIncorrect);
                }
                else if (incorrect2 < -2 && incorrect < -2 && correct < -2){
                    System.out.println ("underflow");
                      break;

                }


            totalRTIncorrect = totalRTIncorrect + rtIncorrect;
            totalRTCorrect = totalRTCorrect + rtCorrect;
    }
    System.out.printf ("Total Correct Responses: %d \nTotal Incorrect Responses: %d", totalCorrect, totalIncorrect);
    System.out.printf ("\nTotal Correct RT's: %d \nTotal Incorrect RT's: %d\n", totalRTCorrect/totalCorrect, totalRTIncorrect/totalIncorrect);
}

}

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2  
This is a math problem you can solve on paper using probabilities and statistics, no need for a simulation. Pseudo-random numbers wouldn't make you any wiser anyway. –  Lauri Elias Dec 6 '13 at 23:59
    
@AndrewThompson Just looking for some advice from people more well versed then I. My question is how to make this more efficient so that it can run without taking several months to do so. The only reason I added that P.S. was to mention that a very complex vague answer would not do me much good. If you want to put it for others sake, great, I was just explaining my situation so as to save everyone's time. –  user3067946 Dec 7 '13 at 1:02
    
@LauriElias Yes, I realize you are right and thank you for the advice. Unfortunately my current situation still requires me to make this program run, for better or for worse! Cheers! –  user3067946 Dec 7 '13 at 1:07
1  
@AndrewThompson Thanks :p –  user3067946 Dec 7 '13 at 2:14
    
I've played around with your code and thought about optimizations: ideone.com/ZSl4r0 is the result (I've also "fixed" the problem that numbers just go negative, no idea if that's the way it should work) –  zapl Dec 7 '13 at 2:30

3 Answers 3

The thing that jumps out is that you are creating a new java.util.Random object in the inner-most loop of your code. This is bad for several reasons:

  • At least within the inner-most loops of long-running code, creating extra objects can have a noticeable cost
  • The default constructor for Random has to query the current time, which might be expensive on some systems.
  • Although each new java.util.Random object should have a unique seed, the new seeds aren't as "random" as just asking for the next random value from an existing Random object.

Thus, just move Random rand = new Random(); to the start of main, so that it is used for the whole program and that should help a lot.

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Thanks for the advice. Will doing so effect the "randomness" of my generated numbers? I am aware they are pseudo-random and this might not be the best way to go about this but aside from that. Will making this change compound that problem? Oh actually upon re-reading it seems you are suggesting this will actually help this problem, am I correct? –  user3067946 Dec 7 '13 at 1:04
1  
For your purposes (i.e. "give me additional random values, quickly but effectively"), there is no advantage to creating new instances of Random. You will never go through a "cycle" in the returned values (in your lifetime), so where the existing Random left off is just as good as where a new one would start. This argument only breaks down if someone is trying to predict the next number or if the usage needs more sophisticated pseudorandomness. In either case, one should be using something other than Random. Your code doesn't need anything more sophisticated. –  user2471887 Dec 7 '13 at 1:13
    
@user2471887 "the existing Random left off is just as good as where a new one would start" That is not correct. Random uses the time as a seed. Many produced in quick succession (e.g. in a loop) will give identical series of numbers. –  Andrew Thompson Dec 7 '13 at 3:25
    
@AndrewThompson That being said, where is the best placed to have my random object? –  user3067946 Dec 8 '13 at 23:56
    
@AndrewThompson obviously did not consult the code, or is looking at an old or non-canonical Java implementation. Look for "seedUniquifier." Besides, by "is just as good as" is like ">=", and you're trying to argue I'm wrong because the right side is small. –  user2471887 Dec 9 '13 at 21:52

You may want to recheck your notes on the random walk model. As things stand, each counter increases one-fourth of the time, and decreases the other three-fourths (it's slightly different because you're not breaking at the even hundreds, but by less than 10%). This means that every four turns, each counter expects to lose two points. Since you're looking for a counter to exceed 88, my guess is that a counter will most likely exceed 88 when it underflows past -2^31 to become 2^31-1 (you can try printing out the counters as you exit the while loop to see if this is happening).

If your thesis is due in the spring, you may be well served by enrolling in an introductory probability course.


Edit: Changing the programming language won't make an infinite loop exit any sooner (although you would want to avoid Python, since the integer values wouldn't underflow).

I don't suppose the "already established theory" was with just two people? That would keep things zero sum, and you would be able to get to 88. One way to make a four person game to be zero sum (and eventually get to 88) would be to change your increments to +=3.

If you must keep everything as is, then you should also create a lower cutoff (-1000, say), and exit the while loop when someone wins (gets to 88) or everyone loses (is below -1000). But I would recommend logging to keep track of how you exit the while loop, since my guess is everyone will lose the vast majority of the time. Even with a winning threshold of 5 instead of 88, it will still be common for everyone to lose.

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Yes. That threshold (88) is intended to be manipulated and will likely be more like 5 or less for this type of model. It was just that way for a process I was running with the race model (the one without any decrementing) Unfortunately this is an already established theory (I think it is bs) but since it is someones specific theory I need to follow the assumptions they have made. I am beginning to think this may not be possible with Java. Thanks very much for the advice. –  user3067946 Dec 7 '13 at 2:23
    
@user3067946 Java is a touring complete programming language which means that it is possible if it is at all possible to do in any programming language. –  zapl Dec 7 '13 at 2:42
    
@Teepeemm I added some stuff so that it shows me every decision it makes and how many numbers it took to do so. Then I added a statement to say "underflow" if they all go below a certain negative number. I will show what I have done in my question in a moment. For some reason it does not seem to work. It will make 2-5 decisions and then just hang. Even if I set the underflow value to -2 and the threshold to 2. One of those events should happen quite quickly. –  user3067946 Dec 9 '13 at 0:40
    
It appears that you're not checking for underflow until after the while loop exits. Try printing out pickedNumber every time so that you can trace what's happening. –  Teepeemm Dec 9 '13 at 4:25

I'd say your problem is similar to a 4-player gamblers ruin problem: https://en.wikipedia.org/wiki/Gambler%27s_Ruin_problem#N-player_ruin_problem

Given you have boundaries and your space is big but ok-ish (88x88x88x88), a dynamic programming solution would be possible I think.

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