# Random number,with nonuniform distributed [duplicate]

Possible Duplicate:
Generate random number with non-uniform density

I try to identify/create a function ( in Java ) that give me a nonuniform distributed sequence of number. if I has a function that say `function f(x), and x>0` it will give me a random number from `0` to `x`.

The function most work with any given `x` and this below is only a example how I want to have.

But if we say `x=100` the function `f(x)` will return s nonunifrom distributed.

And I want for example say

`0 to 20` be approximately 20% of all case.

`21 to 50` be approximately 50% of all case.

`51 to 70` be approximately 20% of all case.

`71 to 100`be approximately 10 of all case.

In short somting that give me a number like normal distribution and it peek at 30-40 in this case `x` is `100`.

http://en.wikipedia.org/wiki/Normal_distribution

( I can use a uniform random gen as score if need, and only a function that will transfrom the uniform result to a non-uniform result. )

EDIT

My final solution for this problem is:

``````/**
* Return a value from [0,1] and mean as 0.3, It give 10% of it is lower
* then 0.1. 5% is higher then 0.8 and 30% is in rang 0.25 to 0.45
*
* @return
*/
public double nextMyGaussian() {
double d = -1000;
while (d < -1.5) {
// RANDOMis Java's normal Random() class.
// The nextGaussian is normal give a value from -5 to +5?
d = RANDOM.nextGaussian() * 1.5;
}
if (d > 3.5d) {
return 1;
}
return ((d + 1.5) / 5);
}
``````
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## marked as duplicate by David Z, Andrew Marshall, Alessandro Minoccheri, Starx, Hardik MishraNov 8 '12 at 8:50

Could you just write a function that sums a number of random numbers it the 1-X range and takes an average? this will tend to the normal distribution as n increases

See:

Generate random numbers following a normal distribution in C/C++

I hacked something like the below:

``````class CrudeDistribution {

final int TRIALS = 20;

public int getAverageFromDistribution(int upperLimit) {
return getAverageOfRandomTrials(TRIALS, upperLimit);
}

private int getAverageOfRandomTrials(int trials, int upperLimit) {
double d = 0.0;
for (int i=0; i<trials; i++) {
d +=getRandom(upperLimit);
}
return (int) (d /= trials);
}

private int getRandom(int upperLimit) {
return (int) (Math.random()*upperLimit)+1;
}
}
``````

There are libraries in Commons-Math that can generate distributions based on means and standard deviations (that measure the spread). and in the link some algorithms that do this.

Probably a fun hour of so of hunting to find the relevant 2 liner:

https://commons.apache.org/math/userguide/distribution.html

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there is Math.nextGaussian() but this uses a standard deviation and could generate an unlimitedly large number requiring bucketing. –  Alex Nov 7 '12 at 23:18
Why is `CrudeDistribution` and `TRIALS` package scope? –  Steve Kuo Nov 7 '12 at 23:27
I think this is the post that is most close to a good solution here. `Steve Kuo` Tt do not matter, is probably not a pure java code for that matter. –  FIG-GHD742 Nov 8 '12 at 5:25

A simple solution would be to generate a first random number between 0 and 9.

0 means the 10 first percents, 1 the ten following percents, etc.

So if you get 0 or 1, you generate a second random number between 0 and 20. If you get 2, 3, 4, 5 or 6, you generate a second random number between 21 and 50, etc.

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Yes, but sorry, I think this not is a good way, base on my `x` can be all value from zero to a big number. –  FIG-GHD742 Nov 7 '12 at 22:51
Well, replace `between 0 and 20` by `between 0 and x / 5`, and you have the same result. –  JB Nizet Nov 7 '12 at 22:53
Good point, this perhaps work, but I hops to use a mathematical function and not logic function. –  FIG-GHD742 Nov 7 '12 at 22:56
You probably won't find one. +1. –  Louis Wasserman Nov 7 '12 at 23:07

One solution would be to do a random number between 1-100 and based on the result do another random number in the appropriate range.

1-20 -> 0-20

21-70 -> 21-50

71-90 -> 51-70

91-100 -> 71-100

Hope that makes sense.

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It might make sense if you explain how it satisfies the requirements. It's not at all clear just from this. –  Don Roby Nov 7 '12 at 22:59

You need to create the f(x) first.

Assuming values x are equiprobable, your f(x) is

``````double f(x){
if(x<=20){
return x;
}else if (x>20 && x<=70){
return (x-20)/50*30+20;
} else if(...
``````

etc

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Just generate a bunch, say at least 30, uniform random numbers between 0 and x. Then take the mean of those. The mean will, following the central limit theorem, be a random number from a normal distribution centered around x/2.

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