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# Analysing a tree without fixed/static semantics?

I'm trying to analyze a dynamic language that can have multiple translations, depending upon probabilities. I have a few defined types in my language such as number, vector, etc...

For example, if we were to see the expression 'a+b' then that could be the addition of two numbers or it could be the addition of two vectors. A number is more likely and so we think the 'best' representation is the sum of two numbers. However it is possible that they are vectors, and so I still want to keep this 'less likely' representation.

If later on I saw 'a/b' then I know that they can't be vectors, as vector division is undefined. So I would throw away the 'vector' representation and the correct one prevails.

I want to do this by analysing an AST. The problem is that due to the many possible combinations of types and operators, we have a combinatorial explosion.

Any ideas on a suitable strategy or pattern that I could use? I'm thinking about a type of visitor for different combinations, that run in parallel to give the best meaning to a structure. Sort of like analyzing a sentance in natural language processing.

I'm using ANTLR's tree walking mechanism for the analysis, so any references specific to that system, or implementing semantics for a dynamic language would be much appreciated.

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If you can find a copy of the "Dragon Book" (Compilers, Principles, Techniques and Tools, by Aho, Sethi & Ullman), read chapter 6 with particular reference to the unification algorithm in 6.7. (My copy is from the 1980s, so the chapter numbers might have changed. But the word "unification" will be the key.) – rici Dec 27 '12 at 6:16
Thanks, but the Dragon Book seems too abstract for my liking. I'll look into unification. – David James Ball Dec 27 '12 at 7:27