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I am looking at some assembly that was generated by disassembling some C programs and I am confused by a single optimization that I see repeated frequently.

When I have no optimizations on the GCC compiler uses the subl instruction for subtraction, but when I do have optimizations turned on (-O3 to be precise) the compiler uses a leal instruction instead of subtraction, example below:

without optimizations:

83 e8 01     subl $0x1, %eax 

with optimizations

8d 6f ff     leal -0x1(%edi), %ebp 

Both of these instructions are 3 bytes long, so I am not seeing an optimization here. Could someone help me out and try to explain the compiler's choice ?

Any help would be appreciated.

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2 Answers 2

up vote 11 down vote accepted

It's hard to tell without seeing the original C code that produces this.

But if I had to guess, it's because the leal allows the subtraction to be done out-of-place without destroying the source register.

This can save an extra register move.

The first example:

83 e8 01     subl $0x1, %eax 

overwrites %eax thereby destroying the original value.

The second example :

8d 6f ff     leal -0x1(%edi), %ebp 

stores %edi - 1 into %ebp. %edi is preserved for future use.

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I hadn't considered it from this perspective because the non-optimized version only uses immediate values in the subtractions. Thanks, this was very helpful. –  Hunter McMillen Oct 2 '12 at 1:28

Keep in mind also that lea does not affect the flags whereas sub does. So if the ensuing instructions do not depend on the flags being updated by the subtraction then not updating the flags will be more efficient as well.

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If lea does not affect flags, then how is it equivalent to sub? Should it not affect the flags to have the same effect as sub? –  crisron Jan 5 at 15:46

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