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I have the following grammar :

S -> S{S}S | null

Here null means nothing to be there in place of S. I need to generate all possible strings of 2n brackets generated by this grammar. I have tried to code it but the program runs out of memory. Could someone please help me code this grammar for 2n number of brackets?

Thanks a lot in advance

share|improve this question
Could you post your code in the form of an SSCCE? I'm sure someone is able to point out why it throws an out-of-memory error. – Bart Kiers Sep 23 '11 at 8:54
This grammar is ambiguous... {}{} can parse as either null{S}S or as S{S}null. So any generative approach is likely to output {}{} twice. Probably easier to just write a recursive-descent parser, feed it all 2^(2n) strings of 2n {/}, and print the ones that parse successfully. – Nemo Sep 25 '11 at 5:43

First, prove that this grammar generates all strings of balanced curly braces.

(Hint: Start by proving S -> S{S} | null generates all such strings.)

Then just write a function to generate all of those:

function generate(num_opens, num_closes, string_so_far, N)
    if (num_opens + num_closes == N)
        print string_so_far;
    if (num_opens > num_closes)
        generate(num_opens, num_closes+1, string_so_far . '}', N)
    generate(num_opens+1, num_closes, string_so_far . '{', N)

generate(0, 0, N)

This may or may not be in the "spirit" of the question.

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Some psuedocode for you:

function grammar: S(string), n(int), generatedStrings(collection)
    if (|S| == 2*n)
        // Store in generatedStrings
    else if (|S| > 2*n)

    grammar(S + '{}', n, generatedStrings)
    grammar(S +'{'+ S +'}', n, generatedStrings)
    grammar(S +'{'+ S +'}'+ S, n, generatedStrings)
    grammar('{'+ S +'}'+ S, n, generatedStrings)
    grammar('{'+ S +'}', n, generatedStrings)
    grammar('{}'+ S, n, generatedStrings)

Then you'll just need some mechanism to make sure you don't add duplicates to the set of generated strings. I'd use a set-type data structure (in other words, a structure that only allows one of each value to be stored) for that.

share|improve this answer
I do not think this works because the S's can be different, but this code requires them to be the same. For example, {}{{{}}} matches this grammar, but I do not think your code will ever output it. – Nemo Sep 25 '11 at 6:01
Sure it will. If the six recursive calls are numbered 1..6, that string is generated by the following sequence: 5->5->5->6. – Ryan Ballantyne Sep 25 '11 at 6:07
OK bad example :-). Try {{}}{{}}. – Nemo Sep 25 '11 at 6:13
OK, but...can the S's really be different? Granted, it's been a few years since I did anything with grammars, but I don't recall them working that way. – Ryan Ballantyne Sep 25 '11 at 6:24
Pretty sure "S" means anything matching an "S", even if it appears twice. But I could be wrong – Nemo Sep 25 '11 at 6:32

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