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Solution to a recursive problem (code kata)
give an algorithm to find all valid permutation of parenthesis for given n for eg :
for n=3, O/P should be
{}{}{}
{{{}}}
{{}}{}
{}{{}}
{{}{}}
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give an algorithm to find all valid permutation of parenthesis for given n for eg :


marked as duplicate by Neil Butterworth, Pete Kirkham, kennytm, BlueRaja  Danny Pflughoeft, Graviton Jul 4 '10 at 2:45This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question. 


Overview of the problemThis is a classic combinatorial problem that manifests itself in many different ways. These problems are essentially identical:
See alsoA straightforward recursive solutionHere's a simple recursive algorithm to solve this problem in Java:
The above prints (as seen on ideone.com):
Essentially we keep track of how many open and close parentheses are "on stock" for us to use as we're building the string recursively.
Note that if you swap the order of the recursion such that you try to add a close parenthesis before you try to add an open parenthesis, you simply get the same list of balanced parenthesis but in reverse order! (see on ideone.com). An "optimized" variantThe above solution is very straightforward and instructive, but can be optimized further. The most important optimization is in the string building aspect. Although it looks like a simple string concatenation on the surface, the above solution actually has a "hidden" We can also optimize by simplifying the recursion tree. Instead of recursing "both ways" as in the original solution, we can just recurse "one way", and do the "other way" iteratively. In the following, we've done both optimizations, using
The recursion logic is less obvious now, but the two optimization techniques are instructive. Related questions 


While not an actual algorithm, a good starting point is Catalan numbers: Reference 


Eric Lippert recently blogged about this in his article Every Tree There Is. The article refers to code written in the previous article Every Binary Tree There Is.



A nonrecursive solution in Python:
This basically examines the binary representation of each number in [0,2^n), treating a '1' as a '{' and a '0' as a '}' and then filters out only those that are properly balanced. 

