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I have a sequence of N boolean values. Some of them are dependent on others. For example, if N[0] is false, all the others must also be false. If N[0] is true, then N[1] can be true or false. If N[1] is false, N[2] must be false, but all other booleans can still be true or false.

I want a program to show me all possible permutations of the sequence, but I have no idea how to do that without writing out a series of if/then statements. Someone suggested that I could use enums, but based on my understanding of how enums work, I'd still end up with a long series of if/then statements, and it would only apply to this single problem. I've been thinking about this for a few days, trying to figure out how I would structure something more dynamic. The pseudo code would look something like this:

public List<string> permutations (int N, int[][] dependencies)
     Create boolean array of size N;
     Set array[0] to false;
     Check dependencies on array[0], flip other values accordingly -- in this case, the permutation is complete. All values are 0.
     Set array[0] to true;
     Check dependencies...
     Set array[1] to false;
     Set array[1] to true;

It could have a loop:

foreach (bool b in array)
     b = false;
     Check dependencies and set values
     b = true;
     Check dependencies and set values

Hopefully the question is clear at this point. Besides if/then are there other ways of setting a gatekeeper? Or are nested/cascading if/then statements the right way to handle this?


In response to the question of what the rules are, that's part of my question. Can the rules here be dynamic? Can I take any sequence of N boolean values, flag some of them as dependencies, or as gates maybe, and then come up with all the permutations? Here's a possible set of rules

  1. If element B is dependent on element A, then element B is false as long as A is false.
  2. If element B is dependent on element A and element A is true, then B can be either true or false.
  3. Dependencies can be one-to-one or one-to-many. If element B is dependent on element A, element C may also be dependent on element A. Element C does not have to be dependent on element B.

Consider this scenario -- (A: B, C, D, E, F; F: G, H) (meaning that B-E are dependent on A, and G-H are dependent on F. If A is false, everything is false. If A is true, B-F can be true or false, and then we start the next level. If F is false, G-H are false. If F is true, then G-H can be either true or false.

So my output should be every possible combination of values from A-H=false to A-H=true.

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It's really hard to come up with an answer if you don't tell us what all the "rules" are –  Sam I am Sep 6 '13 at 19:50
I agree with @SamIam, I have no way of knowing what the logic is that determines if a certain value is true or false if you don't define the rules. –  Paccc Sep 6 '13 at 19:51
Have you read about Moore and Mealy state machines? Some background reading about how they operate may help you approach the problem. This kind of state machine logic is I think what you're trying to define with your if / else logic. Wish I could tell you more about them, but my electronics degree is too long ago! This answer may help though: stackoverflow.com/questions/133214/… –  Kris C Sep 6 '13 at 20:39
This has nothing to do with permutations or combinations. If I understand correctly, you're looking for either a way to generate the truth table of a propositional formula, or only the true rows of it. –  larsmans Sep 6 '13 at 20:45

1 Answer 1

Brute force way:

public List<Boolean[]> validPermutations (int N, Dependency[] rules){
    List<Boolean[]> list = new ArrayList<Boolean[]>();
    boolean[] perm = new boolean[N];//the permutation to test. initially all false
    for(int pcount = 1; pcount <= Math.pow(2, N)); p++){
        boolean valid = true;
        for(Dependency d : rules){
                valid = false;
        if(valid) list.add(perm);
        //now "increment" the boolean array to the next permutation
        //it will take on all 2^N possibilites over the course of the for loop
        boolean notDoneShifting = true;
        int i = 0;
            notDoneShifting = perm[i];
            perm[i] = !perm[i];

As you can see, you only need to write the the if/else testing once for each kind of dependency. This is what loops and other control statements are for!

A more efficient algorithm (or perhaps Not, now that I think on it) would store a table of size 2^N for whether each permutation is possible. Then you step through the dependencies one by one, and for each mark impossible the eventualities that it excludes. (Analagous to a prime sieve) You would have to generalize the loop here in order to fix certain indices and iterate over the rest. For example "element B is false if element A is false"...every entry in the table where the B'th bit of the index (i.e. position in table) is 1 and the A'th bit is 0 should be marked off.

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