lea    0x0(%esi),%esi

I believe it has no result and is simply filling space. Is this the case?

1 Answer 1


Its a NOP. It adds the contents of %esi and 0x0, and puts the result in %esi. Somebody either has a clumsy code generator or needs to fill N bytes, where this instruction is the right size.

LEA instructions execute quite fast (typically 1 clock), so this is a lot better than N nops.

The x86 being as quirky as it is, has a variety of instructions that effectively don't do anything but fill differing numbers of bytes. You may find other useless instructions of different lengths. You tend to find instructions that are long but execute in 1 clock or less.

The AMD x86-64 manual has some suggestions as to what should be used for NOPs; they suggest one of the prefix opcodes repeated a number of times before an actual NOP, IIRC. Such prefix opcodes are consumed very quickly by the instruction fetch engine; mostly their cost is hidden in instruction pre-fetch, and not in instruction execution time.

  • 1
    The latter, unless GCC is a clumsy code generator. Thanks for the quick response.
    – Brian
    May 8, 2012 at 20:10
  • 3
    An interesting point is that lea 0x0(%esi),%esi is a no-op only in the 32-bit code. In the 64-bit code, this instruction additionally zeroes the higher double word of %rsi. So far I have seen GCC inserting such instructions only in the 32-bit code though.
    – Eugene
    May 9, 2012 at 13:54
  • 1
    @Eugene: lea 0x0(%esi),%esi would require an additional size prefix in 64 bit mode. May 9, 2012 at 18:36
  • 1
    @drhirsch: Yes, you are right, it needs "address size override" prefix (0x67) there.
    – Eugene
    May 10, 2012 at 7:16
  • I see this instruction in between subroutines in places that aren't part of any code path (i.e. are never executed) alongside NOPs. It's quite clear that this is part of subroutine padding to make the entry points of subroutines align with cache lines or otherwise ensure most efficient execution (presumably 16 byte multiples). However, why it doesn't fill this space with just NOPs only is not exactly clear to me. My educated guess is that it has something to do with pipeline filling, look-ahead, speculative execution or somesuch and somehow gains a little edge in execution speed vs. NOP only yesterday

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