can I pass a bitfield as a template parameter?

Kinda sorta not really. Bitfields are not objects, you can't do much with them. But you can pass the value using the underlying type.

I don't understand this answer.

What would be different if the compiler doesn't inline doSomthing() ?

Then the memory would be released at the end of doSomething so it doesn't eat stack.

And I agree with the comment and consider this a compiler bug.

Ah!!! I see

usually it wouldn't matter if it's inlined, but alloca treats the stack-pointer popping as if it was the destructor

in that implementation apparently

There is nothing wrong with inlining the function, the compiler just has to still run the "destructors" just like for any other function.

well it's kind of understandable how this happened though, because C doesn't have desctructors, so the compiler added it to the "stack cleanup"-part

OK thanks

By running getrlimit(RLIMIT_STACK, &rm); getrlimit(RLIMIT_DATA, &rm2), I found that it only gives 8388608 bytes (8MB) stack size by default, while 2^64 - 1 bytes for heap + bss + initalized data segment

No wonder stackoverflow is more likely to be a problem

I think that's Linux default for the main thread. I think Windows uses 1MB by default. Or did at some point.

Inb4 "There is no such thing as a main thread!!!11"

yeah, pretty sure windows/Visual Studio default is still 1MB.

reduces considerably compared to what? While doing what?

yeah for most operations I would consider a red-black tree map to have more cache misses than a hash-map

std::unordered_map is a hash map. Not a particularly good one, but a hash map nonetheless

Mostly historical as far as I know, like I said a hash-map type was added later

@d03 also reduces the requirements on the key type to be just weakly ordered

return nullptr

@d03 while for a hash table you need to define a hashing function

Why do you even care about cache misses? Are you so starved for performance that you need to benchmark and profile and torture the code to maximize performance?

if people don't care about performance why would they write C++

I have never cared for performance and still write C++. It's being able to express what I want fairly precisely that does it for me.

for precision you chose a language with a lot of implicit behavior

How are those related?

I don't think I've used std::unordered_map for anything outside of simple test projects either.

If you want to go the hardcore performance route you really need to learn to do benchmarking and profiling correctly. You can't just choose the one that is most cache-friendly.

@d03 there's some pretty good hash-table implementations out there

I partially do embedded systems development. It just doesn't matter. You buy an atmega or whatever and it's fine. Performance is rarely an issue and if it is you just use a bigger processor. Developing more efficient code is just not worth it.

There are some areas where performance matters. High frequency trading and some AAA games.

in other areas you still don't want to be a 10 minute wait to add 2 numbers

hyperbolically speaking

Maybe it's just that using C++ and not being overly dumb and copying huge vectors everywhere is already good enough.

@d03 That was for embedded devices that run at 1MHz or something where you can indeed just throw performance (and battery power) at the problem. For desktop it's different, but I can hardly imagine an application that needs more performance. It feels like when things are laggy someone did some horrendously inefficient crap and it's not because the cache efficiency isn't perfect.

Then again I shouldn't be talking about performance since I basically have no experience in it besides that it never mattered in my area.

Which is desktop applications and embedded devices.

What actually matters is being able to develop complex applications without drowning in complexity and bugs. I'm ... working on becoming better at that.

Are bad_alloc exceptions reported in release mode?

if you allocate absolutely obscene amounts maybe, but on many OSs you can overcommit with allocs and then just get a segmentation fault when accessing the allocated pages for the first time

Hmm, thing is, I seem to have memory fragmentation issues, but only in debug mode... so I wonder if I have them in release too, but I don't get them reported..

memory fragmentation? how long is your program running for?

It does not start ;)

Well, it does, but not to a point I can use it.

(It's a 32 bit app)

We load a lot of images and upload them to the VRAM, but create 3d models with them.

oh,ok. With 32 bit that makes a lot more sense

Yeah, at some point, I try to load a texture that takes 64 mb, and get a bad_alloc, although I use only ~1gb of memory.

(I know I should upgrade to 64 bits, for multiple reasons.)

I can imagine if you're uploading to the GPU then the driver would also take up a bunch of pages, so that might exacerbate your issue

You could use something like vmmap to see how your memory-space looks

A couple more models here and I get bad_alloc

well, might be time for some custom allocators then

Yeah ;/

Either that or we go to 64bit.

or just go 64bit?

In both cases, we have risks :/

I mean if you need clean and non-overlapping address space 64bit slab allocators are hard to beat

you could also open a new process to load the models and try to use shared GPU contexts to load the models into :P

tbf fair it doesn't look like you've marked your process LARGE_ADDRESS_AWARE as is

so you only have 2GB of ram

even on a 64bit system

Hmm, would that let me go to ~3gb?

3.2 or 3.5 or something like that

That's useful, I think. I'll try that tomorrow or Friday!

(That will not make my issue go away, it'll just allow me to tackle it later :P)

Thanks for the info!

in VMmap, I get some memory that is marked as "unusable", and is always attached to an "image"; can I assume that it is not usable because it is the "padding" for the slot reserved before?

Errr

@Vaillancourt 4gb on x64 systems

and 3gb on x86-32

@Vaillancourt either that or the kernel is using it for something