Lounge<C++>

1:36 AM

Ugh... Why is shared_ptr such a mess and why does it fail on an allocator that should technically work: coliru.stacked-crooked.com/a/f7580be2aa20c456

Mikhail

2:53 AM

should it be std::make_shared?

OneRaynyDay

allocate_shared is a feature that allows you to pass in an allocator for the shared_ptr to use to allocate its memory

std::make_shared in libstc++ v3 is a forwarding call to allocate_shared

note that there is no std::allocate_unique because it's fairly easy to implement meanwhile since shared_ptrs are such complicated beasts the std committee probably thought it fit to give us the impl for now

Mikhail

Unlike the std::shared_ptr constructors, std::allocate_shared does not accept a separate custom deleter: the supplied allocator is used for destruction of the control block and the T object, and for deallocation of their shared memory block.

also does the allocator go in the template?

OneRaynyDay

the allocator is inferred

you can, but it's unnecessary

this whole rebind metafunction shenanigan needs to end

Mikhail

Hmm, well this dude seems to have a working example: stackoverflow.com/a/22487540/314290

OneRaynyDay

Yeah but that is the bare minimum definition of an allocator - mine is a tiny bit more complicated but I guess that broke a lot of things

Here is the solution - stackoverflow.com/questions/62207280/…

Mikhail

3:06 AM

The real solution is to avoid inheritting from std::

I mean, I wrote a shared pointer allocator today and didn't shoot myself in the foot :-)

OneRaynyDay

that's true - but I was actually writing a test for a project of mine with allocators and I wanted to see if it would work for any allocators other than std::allocator<T> :-)

I think you're just much smarter and meticulous than me then

Mikhail

Well I've been personally battling a lot with fragmentation today, trying to figure out a good strategy for dealing with GPU allocation errors.

I might have to bite the bullet and areana allocate at the process level and chop off chunks with a custom allocator.

Somehow this strategy means that the underlying allocator (like malloc, or cudaMalloc) is fucked. (Because the underlying allocator should maintain a healthy arena...)

OneRaynyDay

I see - actually my pet project deals with something really similar - may I ask you a few questions?

What's the biggest problem with fragmentation in your use case? is it inability to allocate large blocks with limited memory? speed?

Mikhail

Its not speed. So an allactor that stalls until it succeeds would be good. That is actually what I've been experimenting with.

OneRaynyDay

What kind of tools do you use to quantify the fragmentation in your program or is it just a hunch?

@Mikhail so it's actually just so much frag that you can't even allocate large blocks anymore?

would that usually be a std::terminate call

Mikhail

3:16 AM

So, total memory is around 8 GB, and maybe 2 GB are free. But sometimes calls to the allocator start failing for ~40 megabyte blocks. The allocation failures are for GPU memory. The error code raised are related to cudaMalloc and are spurious.

Where it makes me sad is that sometimes the fragmentation happens when starting a new process. For example, old process had a bunch of memory allocated. Then launch new process and get spurious allocation failure. Look at memory free (which supposedly per process ) and see like 90% free.

But the recovery solution that seems to be working is just wait for a second, and then retry...

I don't recall experiencing memory fragmentation problems on Windows. And actually got in a bunch of trouble when moving python across platforms (when the interpreter started crashing).

Lapys

A base class `A` and derived class `B` are implemented as such:

```
class A; class B;
class A { private: int value; public:
constexpr inline A(int const value) : value{value} {}
constexpr inline A(A const& a) : value{a.value} {}
constexpr inline A(B const&);
};
class B : public A {
private: enum {off, on} whatever;
public: constexpr inline B(int const value) : A(value), whatever{on} {}
};
```

with class `A` specifying a multiple constructors including one that accepts a class `B` object.
I want the constructor that accepts the derived class (i.e.: `A(B const&)`) to explicitly call another…

OneRaynyDay

3:36 AM

@Mikhail this is super interesting - thank you for this!

I'm actually making a tool that visualizes the fragmentation from processes

40 MB allocation fails is pretty surprising. I'm guessing there are a lot of processes going on?

Mikhail

Maybe, but I think the underlying issue is that memory allocators for the GPU are less developed. At one point the devices didn't have hardware memory protection, etc.

Visualizing memory allocator pressure between processes seems to be getting into the OS's job. Although for Linux there may be some direct ways to assay it.

If I recall gitlab was the butt of a lot of jokes for restarting their server every few minutes due to memory allocation failure :-)

They called it unicorn-worker-killer or something, although we all know the real unicorn killer was gunicorn

One other thing that stands out in the log snippet above, taken from Gitlab.com, is that 'worker 4' was serving requests for only 23 seconds. This is a normal value for our current GitLab.com setup and traffic.

and other amusing fragments.

Lapys

4:02 AM

...

OneRaynyDay

4:13 AM

@Mikhail I'm actually not too familiar with cudaMalloc - is there a C++11+ allocator that can do this for you?

And yes memory allocator pressure between processes isn't something I'm making :/ unfortunately it'll have to be within a single C++ program.

(but if you observe memory frag in the beginning of a process, then it's indicative of other processes causing it to choke I guess)

Lapys

5:53 AM

What's so special about WinMain@16, anyways?

Also, there any chat rooms on StackOverflow for Assembly (any variation i.e.: FASM, GAS, NASM e.t.c.)?

PeterT

WinMain is just the default entry-point that some win32 linkers use

Mikhail

FASM had a nice webboard

Lapys

6:33 AM

You mean this board.flatassembler.net/topic.php?p=43666?

AAB

6:58 AM

Hi all,

I am writing a simple c++ binary to detele files

I have tow rite in C++ 11

so far using struct *dirent seems like the way to parse

Should I display to the user the number of files found for delete or just delete the files and return if the operation succeeded or failed?

the number of files can be very large

PeterT

I don't think there's a right or wrong, depends on what you want to do.

also dirent sounds more like C than C++11 :P ,

AAB

@PeterT yes dirent is C

Mikhail

Just use C++17 and std::filesystem

or boost::filesystem

AAB

@Mikhail boost was my option to but I have been asked to not use boost

and I have to do it C++ 11

so using dirent C seemed like an easy way

I am actually concerned about how I should make it for end user

As in should I ask the user for confirmation before delete and display the number of files found or go ahead with the process.

Mikhail

steal the man page from rm

Rm (Unix)

In computing, rm (short for remove) is a basic command on Unix and Unix-like operating systems used to remove objects such as computer files, directories and symbolic links from file systems and also special files such as device nodes, pipes and sockets, similar to the del command in MS-DOS, OS/2, and Microsoft Windows. The command is also available in the EFI shell. == Overview == The rm command removes references to objects from the filesystem using the unlink system call, where those objects might have had multiple references (for example, a file with two different names), and the obje...

AAB

7:09 AM

:P

Guess will have to do something similar or ask if it fine to go this way..

asking user confirmation and displaying file count seems like a bad idea especially if file count can be high

:P

thanks @Mikhail @PeterT

Mgetz

4:40 PM

@Mysticial youtu.be/u909_O6CqYc

Feeds

7:10 PM

Hourly haircuts would be annoying, but they'd be easier to do yourself, since you'd have adjacent hairs as a guide. Growing it out would be a huge pain, though.

Mikhail

8:51 PM

What do you guys think of this guideline?

docs.microsoft.com/en-us/cpp/code-quality/c26434?view=vs-2019

So, in my case I have a lot of struct A{bool is_valid();} and struct AA: A {bool is_valid();} which would all need to become virtual for some reason to meet this guideline.

OneRaynyDay

Are you not marking them virtual because you're afraid of the overhead of vtable lookup?

I think the guideline makes sense for a large scale project where code readability becomes more important

Mikhail

Yes, that is one of the reasons.

But I don't also see how it improves readability.

I mean, you can verify that your function names match with override...

But in my case the "is_valid()" isnt' a contract.

Also some cases include an "approximately_equals" which is only implemented by classes that have floating point members.

Its basically saying all overrides should be virtual.

Mikhail

9:24 PM

Also static analysis tools seem to be lighting up a lot of false positives related to noexcept. When you mark a function that throws as noexcept these tools claim this is an error. But the intention was to call std::terminate because the code won't handle that error.

OneRaynyDay

10:10 PM

If I'm not mistaken one of the things it's saying about "all overrides should be virtual" is the fact that it's masking the base class's function if not marked virtual. If you're not using virtual in this case why not just use SFINAE and check for existence of is_valid() in structs that don't inherit from each other rather than using inheritance and hiding the base class function?

Mikhail

Well, in my case I don't care if some structures don't implement the is_valid() check, and this is especially true of the approximately_equals() check. Somehow the argument that all overriding must be virtual is kinda wacky.

OneRaynyDay

10:26 PM

Ah.. it sounds like a very complex scenario and probably has something to do with the design. I don't have enough context to really play devils advocate in this case but I think in general the style guide shouldn't be applied universally

sometimes you have no choice :/

Mikhail

That is a very political answer :-)

OneRaynyDay

10:40 PM

Making sweeping judgements is not my forte

Mikhail

Another one that keeps pissing me off is this: docs.microsoft.com/en-us/cpp/code-quality/c26447?view=vs-2019

A big part of why its a problem is that its impossible to use dynamic memory and have your stuff marked as noexcept.

Coder123

Hello, can someone help me about a very short question. İt is very important

int add (int i)
{
return i + d;
}

void p ()
{
const int d = 1;
print(add(20)); // (1)
}

void q ()
{
const int d = 2;
print(add(20)); // (2)
}

a) If the language is dynamically scoped, what would be printed at points (1) and (2)?
b) If the language is statically scoped, what would happen?

OneRaynyDay

10:56 PM

@Coder123 we're not here to do your programming languages theory course homework

Coder123

this is not my homework. I am trying to understand static and dynamic scoping. I found it from google. İf you want I can send link

OneRaynyDay

btw, this doesn't even work for statically scoped languages

Because you don't have a top level definition for d in this scope

Coder123

pages.di.unipi.it/corradini/Didattica/PLP-16/EXER/… here the link from year 2016

OneRaynyDay

I think there are ample resources online for static/dynamic scoping. How does us giving you the answer help?

Coder123

Okey, thank you

Mikhail

11:02 PM

Also we need a Qt version of this : smore.com/clippy-js

I wonder how much trouble I'll get into if I include this in commercial software :-)

Does MS have a patent on digital assistants or something?

Would be fun to include on an endoscope I worked on; "Looks like you're trying to perform a colonoscopy!".

OneRaynyDay

oh god I'm stuck in a chicken-or-the-egg problem

If I decide to hack GCC's allocator implementation and make it do fancy things, I'm not allowed to use stl containers (because they use the allocator implementation) in the implementation of the allocator

So therefore I have to roll my own stack, map and vector...

Mikhail

Can you instead make the changes in libc?

OneRaynyDay

well actually that's what I mean - libstdc++-v3

out of the entire toolchain for gcc, the only part I'm changing is the allocator implementation and there's no way to move allocators out of the dependencies of the stl containers that I'd be using

Mikhail

Doesn't libstdc++ call some C library shim before hitting the actual linux system allocator? (I might be wrong)

OneRaynyDay

@Mikhail you must be thinking of the actual implementations of malloc(jemalloc/tcmalloc), new, etc

Mikhail

11:17 PM

Yeah

OneRaynyDay

I mean the std::allocator which dispatches either of those two or others (i.e. on-stack arena memory for example)

i.e. it's a level higher than new, malloc, etc

Mikhail

I know that. But I think the implementation of new calls some shim that then calls the system allocator.

OneRaynyDay

yes but that's not the level I'm dealing with. I'm providing an alternative implementation of std::allocator which is the source of the chicken-or-the-egg problem

FWIW IIRC new in gcc is by default jemalloc

Mikhail

Yeah, I know. But maybe you shouldn't have the "chicken-or-egg" problem by for example, avoiding it and working on the right level of abstraction?

Or just fuck it and write your own containers :-)

or maybe use boost :-)

OneRaynyDay

@Mikhail unfortunately I want to capture more than just new use cases. Imagine someone wrote a cudaMallocator (that you might want to use in particular), and they don't call new and just calls cudaMalloc in the allocate(size_t n, size_t align) function for the allocator API. What happens then? I'd be leaking allocation information. In fact, I'd say most people using custom allocators are the ones who might find some use with my custom allocator code :-)

So... unless I'm missing something, this is the right level of abstraction, it's just the most PITA level as well

Mikhail

11:23 PM

Yeah, depends on what you're trying to do.

But writing your own allocator that doesn't rely on the std is pretty easy

OneRaynyDay

@Mikhail that's a carrot or a stick situation. I don't think many people would opt in when I bash them w/ a stick and say "use my containers or else"

but that is in fact what I did here: github.com/OneRaynyDay/Erata so far.

yes. I'm gonna have to just reimplement a few containers and we can probably avoid this issue

Mikhail

Or just write an allocator

OneRaynyDay

- by making a pseudo-inferior chicken to lay the eggs so the eggs can hatch the standard library chicken

Mikhail

pastebin.com/y1Nt0FPE

pastebin.com/EEGn7DXN

OneRaynyDay

but I am writing an allocator: github.com/OneRaynyDay/Erata/blob/master/include/alloc.hpp

there might be some misunderstanding here

Mikhail

11:27 PM

pastebin.com/xDhb0vBK

Sorry the other one was duplciated

I mean, just write an allocate that relies on the near native OS calls.

Like the thing I showed you for page locked memory

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