When compiling with -Ofast, clang correctly deduces that the following function will always return 0.

int zero(bool b) {
    const int x = 5;
    return (x * b) + (-x * b);

compiles to

zero(bool):                               # @zero(bool)
        xor     eax, eax

However, if I change the constant to be any power of two (except 1 or 0), clang no longer makes the same deduction

int zero(bool b) {
    const int x = 8;
    return (x * b) + (-x * b);

compiles to

zero(bool):                               # @zero(bool)
        mov     eax, edi
        shl     eax, 3
        xor     dil, 1
        movzx   ecx, dil
        lea     eax, [rax + 8*rcx]
        add     eax, -8

The code compiled with compiler explorer.

If I change the function parameter to be anything bigger (short, int, long) the optimization is correctly made.

What causes this weird edge case?

  • 7
    Log a bug for it?
    – JVApen
    Jun 2, 2019 at 16:26
  • 3
    And if the constant is changed to a parameter passed to the function, code is correct. Weird, indeed. Jun 2, 2019 at 16:38
  • 1
    @AlainMerigot Good observation, I didn't notice that. It also works again at 2**31, even preventing overflow by making the constant unsigned.
    – spyr03
    Jun 2, 2019 at 17:20
  • 6
    Good bug report. Unnecessary Stack Overflow question.
    – Boann
    Jun 2, 2019 at 23:51
  • 2
    @WernerHenze I disagree. The question of "Why did this happen" has as of yet not been answered.
    – spyr03
    Feb 24, 2020 at 11:03

1 Answer 1


It is an optimization problem in Clang, which was fixed after version 10.0.0. We can reproduce this problem in version 9.0.1.

Compared versions 9.0.1 and 10.0.0 in compiler explorer.

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