@tadman default MSVC Release config

@πάνταῥεῖ default so: Maximum Optimization (Favor Speed) (/O2)

Looks like passed is a perfect tail-call form, whereas returned is a little harder for the optimizer. What happens if you change it to return depth + returned_func(depth); ?

@Useless I thought that might have an effect, but no its the same.

OK, so your next step is to try using a proper profiling tool and/or look at the generated assembly code.

@Useless Yes, but also what's the point of asking any optimization question on here then? I asked because I was hoping experts in the topic may know because this is a very common type of thing to implement. Rather than having to dedicate the hours to learning a profiling tool and/or to be able to read asm. Any question that can be answered by another person could be answered by yourself with enough studying, but that isn't a efficient use of time compared to just asking someone who's already an expert. This feels like telling someone asking how to change a timing belt to study the diagram.

Yep, software is hard, performance is contingent, and you already ruled out the only obvious well-kown effect: tail-call optimization. What's left is hoping someone saw exactly the same thing with exactly the same compiler and options, hoping someone else reads the assembly for you, and reading the assembly yourself.

@Useless I can't test myself right now, but I image the optimization across compilers for this basic of functionality is the same. And this problem will be encountered by essentially every programmer implementing any kind of recursive logic. So, yeah, I think it is fair to hope for the first. Again, aren't all questions essentially just "hoping someone saw exactly the same thing" or at least "hoping someone saw something similar enough to extrapolate the same thing"

Extrapolating optimizer behaviour from prior experience is at best an educated guess. Optimizers get updated all the time, there are performance regressions between compiler version, and small code changes can have large effects.

But we don't need to extrapolate because the compiler gives us all its output for free.

That's definitely true, but I honestly really don't see this is any less basic optimization than preferring vectors over lists- and everyone is quick to comment on that if they see it

I'm on my phone, but if I wasn't my first port of call would be to plug your code into godbolt and look at the assembly code

This is completely my own stupidity but for some reason I can never figure out how to use standard libs in godbolt

The stacked version I can absolutely say I'd expect to be slower, and say why, and how I'd avoid it if I had to use that

What I can't say without seeing the assembly is why the returned version is not amenable to tail call optimization

@Useless the reason we say to use an optimizer is because the experts in the topic usually guess wrong when trying to guess why code is slow. The experts have learned to always start with a proper profiling tool, because then we don't waste time optimizing the wrong things.

Sure, I'd love to hear it? I'm working on various binary tree implementations and everyone always says recursion is slower than even using a stacked while loop- but my implementation didn't show that. So I assumed I had implemented it wrong and made these tests to test that.

the call stack is just another dynamically allocated memory region, it's just often pre-warmed

There's no intrinsic reason for it to be faster than a vector once you're outside the extents that have been helpfully warmed up by some other functions

And, if it might be a deep recursion, it's impossible to recover from a stack overflow the way you can (more or less) from a vector's bad_alloc

@MooingDuck I've spent plenty of time carefully optimizing benchmarks and micro-benchmarks that ended up making the real code path slower under real conditions 😅

I had figured that it makes no sense to prefer allocating yourself, other than maybe for contiguous memory. But I'm pretty sure I read various things, that I of course can't find now that I'm referencing them, saying that essentially a part of the cost of recursion is allocating the "scope" although I don't really know what that would mean other than just the variables I would pass through the vector anyways.

So that "scope" is "where the parameters and local variables are stored in memory". In practice, although it's an implementation detail, it's a stack frame on the call stack.

So maintaining your own stack explicitly, and having the call stack do it for you, are in principle equivalent

Yeah, I know scope in general XD. Just meant how that's functionally different

Like in the comment I quoted, and many others. I guess are they just wrong?

Now in practice the call stack is highly optimized because it's used for all non-inlined function calls, and it's also simpler than a vector in some key ways, and as I mentioned it's more likely to be already resident in cache because it's contiguous with the current function frame and/or has been recently used by other functions

That makes a lot of sense but would imply something ridiculous which is that what people repeated on the internet is wrong

But a flat loop is typically even faster because it uses a constant amount of memory, that probably stays in cache for the whole iteration

Which is why tail call optimization is so well-known (well, that and it's the only way to make functional languages perform reasonably)

Anyway, I expect the for and passed variants to be similar, because passed is easy for the compiler to detect as tail-call recursion

But then I expected the change to returned to make that similarly easy to optimise, and apparently the compiler disagreed

Stacked was always going to be slower because the call stack is already there and doesn't need to be dynamically (de)allocated

@Useless Yeah and also can look ahead optimize

If you move the vector outside the call (just make it a global for argument's sake) so the allocation can be re-used and isn't timed, it should be more comparable to returned

@Useless It may be, but testing it briefly doesn't make much of a difference

@Useless Do you know why there could be so much online saying the opposite?

Like is there any scenario you can image where allocating your own stack is quicker

I can think of scenarios where it's better (error handling, direct manipulation other than via returning), and I can think of situations where it might not be slower (such as keeping the pre-sized vector around for reuse), but faster is a stretch

A call stack is almost literally a single-threaded arena. Dynamic allocation has to be thread safe in a multithreaded program, and any general purpose heap is more complex than an arena

Typically the most expensive things you can do are synchronisation and system calls, and dynamic allocation requires at least one of them

While the call stack requires neither (well, maybe a page fault while it's growing)

@Useless I see, so do you think a recursive function with no parameters and no return, that just mutates a higher scope would be the exact same as a while loop?

@Useless I see, than I guess my only other question is, assuming tail-call optimization works correctly for both, would you expect return by reference to have the same performance as return a value?

Sticking to my theme, the only way to be 100% sure is to try it and see 😂

@Useless Okay, fair I guess. Thanks! You have been more helpful than just telling me to disassemble XD