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I do understand the technical concepts behind the two designs, but what makes a bytecode interpreter generally that much faster? Is there a good book, someone can point me to?

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closed as not constructive by Smi, Jon Adams, chris, LittleBobbyTables, rlemon Nov 9 '12 at 15:31

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One reason may be because walking an AST uses a lot of recursive function calls which can be somewhat expensive, while bytecode interpreters are normally just a loop and a jump table of some kind. –  Joachim Pileborg Mar 26 '12 at 5:58

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The most obvious reason is that AST is usually still too high level, whereas bytecode semantics can be trivial for execution. The slowest thing in an AST-walking interpreter is normally a context lookup: all the variables, arguments, etc. are referenced by their names, whereas in a bytecode they would normally be stripped off and register numbers or stack operations would be used instead.

Of course, a bytecode can be considered a special case of an AST walking - with a flat, simple "AST" and, possibly, an optimised "walker" (e.g., using a threaded code transformation). There are many possible states in between an ad hoc AST and highly specialised bytecode - e.g., for interpreting a functional language one may keep an AST structure but replace the variables names with De Bruijn indices.

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