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I'm writing an algorithm for generating evaluation tree of a given expression in infix mode. It works and everything is ok, It's O(n) (I'm not sure:-) So, I'd like to know what is the standard (=most efficient?) algorithm for generating evaluation tree of a given expression (not for algebraic expressions only, it should get a set of binary operators, their priority, a set of unary operators and their priority and finally infix expression).

I also like to know it's order of time and memory.

any references?

Note: I don't want code.

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I'm having difficultly thinking how you could possibly make it worse than O(N). You look at the current token, and maybe make a comparison against the top of a stack of pending operations to handle operator precedence. –  The Archetypal Paul Nov 20 '10 at 18:40
The shunting-yard algorithm, although mainly used to generate RPN, can afaik be used for AST generation as well. Not an answer because I'm not sure if it applies here. –  delnan Nov 20 '10 at 18:40
@Paul: the way to make it worse than O(N) is to do something foolish like, on finding an open-paren, looking ahead for a matching close paren, then recurse on the sub-expression. This parses expressions of form ((...((1))...)) in O(N^2). –  Steve Jessop Nov 20 '10 at 18:50
@ delnan: that's an aswer:-) The shunting-yard was exactly what I'm looking for. –  sorush-r Nov 20 '10 at 18:52
@SJ, yes, I'm sure there are a range of bogo-parse algorithms :) –  The Archetypal Paul Nov 20 '10 at 19:42

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