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I am in a dilemma, what would be the more performing option for the loop of a VM:

option 1 - force inline for the instruction functions, use computed goto for switch to go the call (effectively inlined code) of the instruction on that label... or...

option 2 - use a lookup array of function pointers, each pointing to a fastcall function, and the instruction determines the index.

Basically, what is better, a lookup table with jump addresses and in-line code or a lookup table with fastcall function addresses. Yes, I know, both are effectively just memory addresses and jumps back and forth, but I think fastcall may still cause some data to be pushed on the stack if out of register space, even if forced to use registers for the parameters.

Compiler is GCC.

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I would suggest trying both, and profiling. It would also be worth looking at the resulting assembler in each case, to clarify exactly what the compiler is doing. –  Oli Charlesworth Aug 11 '13 at 12:53
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@OliCharlesworth - trying both with simple code will not likely give realistic results. In a VM the execution loop is kind of low level, so it is not like a few lines of work to try both cases, that is why I ask in advance so I can pick and work on the better solution. –  user2341104 Aug 11 '13 at 12:57
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I think option 1 would be faster, but I have not data to back this up. Try to keep the switch values tightly packed. –  brian beuning Aug 11 '13 at 12:59
    
"Computed goto"? I don't see a FORTRAN tag... –  Pete Becker Aug 11 '13 at 13:26
    
@PeteBecker - there is computed goto extension in GCC for C and C++. Don't know about other compiler vendors. Basically, there is a "get the address of label" operator to jump to. –  user2341104 Aug 11 '13 at 13:27
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I assume, that with "virtual machine", you refer to a simulated processor executing some sort of bytecode, similiar to the "Java virtual machine", and not a whole simulated computer that allows installation of another OS (like in VirtualBox/VMware).

My suggestion is to let the compiler do the decision, about what has the best performance, and create a big traditional "switch" on the current item of the byte code stream. This will likely result in a jump table created by the compiler, so it it as fast (or slow) as your computed goto variant, but more portable.

Your variant 2 - lookup array of function pointers - is likely slower than inlined functions, as there is likely extra overhead with non-inlined functions, such as the handling of return values. After all, some of your VM-op functions (like "goto" or "set-register-to-immediate") have to modify the instruction pointer, others don't need to.

Generally, calls to function pointers (or jumps via a jump table) are slow on current CPUs, as they are hardly predicted right by branch prediction. So, if you think about optimizing your VM, try to find a set of instructions, that requires as few code points as necessary.

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