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c - Creating a mask with N least significant bits set

I would like to create a macro or function1 mask(n) which given a number n returns an unsigned integer with its n least significant bits set. Although this seems like it should be a basic primitive with heavily discussed implementations which compile efficiently - this doesn't seem to be the case.

Of course, various implementations may have different sizes for the primitive integral types like unsigned int, so let's assume for the sake of concreteness that we are talking returning a uint64_t specifically although of course an acceptable solutions would work (with different definitions) for any unsigned integral type. In particular, the solution should be efficient when the type returned is equal to or smaller than the platform's native width.

Critically, this must work for all n in [0, 64]. In particular mask(0) == 0 and mask(64) == (uint64_t)-1. Many "obvious" solutions don't work for one of these two cases.

The most important criteria is correctness: only correct solutions which don't rely on undefined behavior are interesting.

The second most important criteria is performance: the idiom should ideally compile to approximately the most efficient platform-specific way to do this on common platforms.

A solution that sacrifices simplicity in the name of performance, e.g., that uses different implementations on different platforms, is fine.


1 The most general case is a function, but ideally it would also work as a macro, without re-evaluating any of its arguments more than once.

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Another solution without branching

unsigned long long mask(unsigned n)
{
    return ((1ULL << (n & 0x3F)) & -(n != 64)) - 1;
}

n & 0x3F keeps the shift amount to maximum 63 in order to avoid UB. In fact most modern architectures will just grab the lower bits of the shift amount, so no and instruction is needed for this.

The checking condition for 64 can be changed to -(n < 64) to make it return all ones for n ? 64, which is equivalent to _bzhi_u64(-1ULL, (uint8_t)n) if your CPU supports BMI2.

The output from Clang looks better than gcc. As it happens gcc emits conditional instructions for MIPS64 and ARM64 but not for x86-64, resulting in longer output


The condition can also be simplified to n >> 6, utilizing the fact that it'll be one if n = 64. And we can subtract that from the result instead of creating a mask like above

return (1ULL << (n & 0x3F)) - (n == 64) - 1; // or n >= 64
return (1ULL << (n & 0x3F)) - (n >> 6) - 1;

gcc compiles the latter to

mov     eax, 1
shlx    rax, rax, rdi
shr     edi, 6
dec     rax
sub     rax, rdi
ret

Some more alternatives

return ~((~0ULL << (n & 0x3F)) << (n == 64));
return ((1ULL << (n & 0x3F)) - 1) | (((uint64_t)n >> 6) << 63);
return (uint64_t)(((__uint128_t)1 << n) - 1); // if a 128-bit type is available

A similar question for 32 bits: Set last `n` bits in unsigned int


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