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I'm stuck on how to begin coding this. I want to be able to do the following. It's a classic flipping the coin problem If I flip twice the out comes are:
I want to be able to create an array with one result at a time. To better illustrate this, it should be something like (I'm using Java by the way):
boolean[] cases = new boolean[numberOfFlips]

the first time cases will have: T T.
After I'm done doing other calculations with this result I want to move on and now make cases: T F and proceed with running other calculations.
Can someone guide me in the right direction please? I would greatly appreciate it. An algorithm in any language is fine with me. Thank you for your time! (:

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"If I flip twice the out comes are: T T T F F T F F" What the heck kind of coin is this? When I flip a coin twice, I only get two outcomes... ;-) Edit: Oh, you mean the possible outcomes. –  T.J. Crowder Dec 8 '12 at 10:02
sorry, forgot to add some break returns in there so it read in one line –  Ceelos Dec 8 '12 at 10:03
It's really unclear what you're asking. Are you asking how to incrementally record the results of actual flips (or pseudo-random flips), or walk through all possible results as you increase the number of flips? –  T.J. Crowder Dec 8 '12 at 10:04
my array has to hold one possible result at a time. then have it be the next result and so on. First case my array will hold [T, T], Then it'll hold [T, F], Then [F, T], and finally [F, F] –  Ceelos Dec 8 '12 at 10:08
@Ceelos, see my update –  Dims Dec 8 '12 at 11:39

4 Answers 4

up vote 3 down vote accepted

There are many ways to store binary data in Java and it is unclear, what you want to store. If you want to store ALL possible combinations of N flippings, then you need and array new boolean[2^N][N]

Remember that Java has another syntax for raising to power.


Below is the code for storing all combinations of N flips.

From it you will get an idea how to generate one combination too: from binary representation of combination ordinal number. See comments.

    // number of flips
    // limit it by 31
    int N = 3;

    // number of combinations
    // using bitshift to power 2
    int NN = 1<<N;

    // array to store combinations
    boolean flips[][] = new boolean[NN][N];

    // generating an array
    // enumerating combinations
    for(int nn=0; nn<NN; ++nn) {

        // enumerating flips
        for( int n=0; n<N; ++n) {

            // using the fact that binary nn number representation
            // is what we need
            // using bitwise functions to get appropriate bit
            // and converting it to boolean with ==
            flips[nn][N-n-1] = (((nn>>n) & 1)==1);

            // this is simpler bu reversed
            //flips[nn][n] = (((nn>>n) & 1)==1);



    // printing an array
    for(int nn=0; nn<NN; ++nn) {

        System.out.print("" + nn + ": ");

        for( int n=0; n<N; ++n) {
            System.out.print(flips[nn][n]?"T ":"F ");
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yes, doing all possible combinations is pretty straight forward, I want to do only one result in my array at a time. that's why my array size is equal to only the number of flips & not the 2^N –  Ceelos Dec 8 '12 at 10:12
Array size from your example should be [4][2], where 4 is 2^N i.e. actual for 2 flips. –  Dims Dec 8 '12 at 11:24

Notice the similarity between your desired output and binary representation of an integer. Here is an example:

for(int i = 0; i < 4; ++i) {
    boolean first = (i & 1) == 0;
    boolean second = (i & 2) == 0;
    System.out.println(first + "\t" + second);


true    true
false   true
true    false
false   false
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Here is a general solution that works for any number of flips (within reason):

public class Flips {

    static void generate(boolean[] res, int start) {
        if (start == res.length) {
        } else {
            generate(res, start + 1);
            res[start] = true;
            generate(res, start + 1);
            res[start] = false;

    static void generate(int n) {
        boolean res[] = new boolean[n];
        generate(res, 0);

    public static void main(String args[]) {

It produces the combinations in a different order to that in your question, but it's trivial to modify to match your order if that's important.

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Using recursion :

public static void main(String args[]) {
int size = 3;
generateTable(0, size, new int[size]);

private static void generateTable(int index, int size, int[] current) {
if(index == size) { 
    for(int i = 0; i < size; i++) {
        System.out.print(current[i] + " ");
} else {
    for(int i = 0; i < 2; i++) {
        current[index] = i;
        generateTable(index + 1, size, current);
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