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I've been nerding out on JVM byte code lately, and I'm wondering if restructuring performance critical code to take advantage of the Tload_<n> instructions (aload_0, aload_1, aload_2, etc) rather than the two operand Tload instructions would net any appreciable performance benefit?

This falls squarely into the category of "micro-optimizations you will never need", but consider it an academic curiosity. If a method can keep its local variable table under 7 entries, what performance benefits (if any) could manifest themselves? I'm thinking this might just result in ever-so-slightly smaller byte-code.

Bonus points for quality links to reading material on bytecode level optimizations!

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up vote 4 down vote accepted

The short loads are there primarily because of the original purpose of Java bytecodes. Originally the language was designed for set-top boxes and was made as compact as possible, so having special short versions of frequently-used instructions was deemed worthwhile, to save RAM/ROM.

There is also, in the interpreter, a minuscule performance advantage in that the interpreter routines can be individually coded with the necessary offsets built in.

However, in JITCed code there is no difference -- all the ops would fold into the same logic, which might take advantage of a short machine instruction for short offsets, but not at the same boundaries as the short bytecodes.

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(No references, but I wrote both an interpreter and a bytecode compiler for the IBM iSeries.) – Hot Licks Mar 15 '13 at 1:29
    
Great information! A little historical context goes a long way to explain things that seem strange at first glance :-) – Ron Dahlgren Mar 15 '13 at 1:39

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