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Feb
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comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
Replacing the comparison and if statement with the boolean NOT and bitwise OR instruction is a significant performance win in this case. The branch (and comparison) is not very expensive because it almost always gets predicted correctly, but it's still significantly more expensive than this. Branch predictors don't have limitless resources and this is a hot inner code path. Neither GCC or Clang optimizes the if statement to the same code. Using __builtin_expect doesn't really do much - it moves the slow paths out of the way for a clean fast path, but the code in this case is 1 instruction.
Feb
16
comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
If you're curious, the use case is inside a slab allocator where the allocation sizes need to be rounded up to the minimum alignment. Using n | (!n) is a clean way of eliminating zero as an edge case in general. GCC and Clang are lacking when it comes to optimizations like this...
Feb
16
accepted quickly rounding numbers >= 0 up to the multiple of a specific power of 2
Feb
16
comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
This is close to what I want, but it means values that are already rounded get moved up to the next multiple. For example, when rounding to the nearest 32 it will round 32 to 64.
Feb
16
comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
@DougCurrie: Sure, which is why the (n + (power - 1)) & ~(power - 1) pattern works in general. I need zero rounded up though, and I'd rather not pay for a branch because I've determined that it's a significant cost in this hot fast path.
Feb
16
comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
@Benni: I need rounding to a specific multiple of a power of 2 rather than the next power of 2, so it's a lot cheaper than 12 operations - at least without this annoying zero case that I need to handle.
Feb
16
comment quickly rounding numbers >= 0 up to the multiple of a specific power of 2
A table would work, but it would be quite large. It could be compressed, but that's going to be paying the same costs along with the cost of accessing the table simply to avoid a branch. I expect it would be cheaper, but it's not ideal.
Feb
16
revised quickly rounding numbers >= 0 up to the multiple of a specific power of 2
clarify more
Feb
16
revised quickly rounding numbers >= 0 up to the multiple of a specific power of 2
clarify the problem description
Feb
16
asked quickly rounding numbers >= 0 up to the multiple of a specific power of 2
Feb
14
comment Ternary operator vs if statement: compiler optimization
As I pointed out, a compiler could also make different optimization choices based on indent style. They do not need to know more about the platform to make the best choice because any platform with even a mediocre optimizing compiler will see both as the same operation. Generated code does not depend on the code style in practice. Totally equivalent operations like this trivially end up with equivalent compiler IR before it ever gets to the compiler's backend for that architecture at all.
Feb
14
comment Ternary operator vs if statement: compiler optimization
You're making the demonstrably false claim that this varies in performance between architectures. It's clearly not true because in practice no compiler will generate different code. There is simply no rationale for making optimization decisions based on code style. I am not making any claims about implementation, you are. I'm not claiming that a compiler can't handle each one in a different way, just that in practice they do not, contrary to your claim.
Feb
14
comment Ternary operator vs if statement: compiler optimization
I'm not making any claims about the C specification. I simply pointed out that an optimizing compiler of even mediocre quality guarantees that these will be treated the same way. If it doesn't treat them the same way, it has a performance bug.
Feb
14
comment Ternary operator vs if statement: compiler optimization
A modern compiler sees both primitives as the same thing, and there is no use case for distinguishing between them. Your answer presents it as a hardware issue but the generated code will always be the same in practice. This isn't going to change as architectures evolve. The compiler will do the same reasoning to decide how to perform the branch regardless of the code style - which is all this is. Sure, a compiler could decide to do optimizations based on whether you use spaces or tabs to indent, but that's not useful as a practical answer.
Feb
14
comment Ternary operator vs if statement: compiler optimization
The if statement is guaranteed to be at least as fast with even a mediocre optimizing compiler, because it doesn't zero initialize. If it did the same thing, then there would be no performance difference.
Feb
5
comment Linux mremap without freeing the old mapping?
I don't know how you're measuring the performance hit, but it certainly bigger than 10% for many use cases, especially for a memory bound workload which is probably the case Virtual memory fragmentation is hard to dismiss when they're stating that they have many very large mappings. Randomly spraying the address space with allocations is going to rapidly bring down the size of the largest gap.