I'm still sayin

it would be better to re-implement Lua

@ThePhD Sounds reasonable enough.

okey so power supplies

I need a lot of amperage, sadly

@DeadMG I was thinking the same

brings the price upfuck

but I wouldn't have the foggiest :P

yeah, I was about to say

@Ell I was wondering about that, so it's still an open field.

the difference between me and you is that I already implemented Wide so I have at least a good idea what would be involved.

well wide and new lua would be totally different beasts

Lua has an exceedingly simple grammar.

@DeadMG And I actually have an idea even without writing Wide

that being said, Lua is indeed simple

with totally different goals

plus, I already know how to code a parser.

@DeadMG are you offering your potential help now? ;)

and I already have a compiler-as-a-service compiler design.

@ThePhD That's secondary really.

of course.

@BartekBanachewicz Maybe. I've been spending too much time playing World of Warcraft recently.

@ThePhD Don't diss WoW

and eating too much stuff

I ate a whole cheese sandwich today

bad idea.

How do you survive? Milkshakes?

who says I'll survive?

@ThePhD Writing a parser for a new language is usually fairly quick and easy (as long as you design the grammar cleanly). It's writing a parser for an existing language with lots of warts and crap that gets ugly and nasty.

@JerryCoffin Just the parser? Or also semantic analysis and code generation?

@FredOverflow He only talked about the parser, so that's all I was discussing (at the moment). Semantic analysis and code generation mostly depend on the complexity of the semantics you choose, the code you generate, what optimization(s) you decide to incorporate, etc.

@DeadMG gosh

wat

Will this always get called with the proper size parameter, even from child classes?

gist.github.com/nightcracker/7897399

yes

that's fucking sweet!

not really.

@nightcracker Unless your compiler is utterly broken...

Do they actually even get called? I can't remember.

Make sure to provide operator new though.

the whole overloaded op new and op delete thing is shit.

@LucDanton yeah of course

I remember some operator version of new or delete that isn't really always called or something

I don't store that within my allocator

@nightcracker That sounds like, broken.

@DeadMG It's awesome when you are not in a hosted environment and want to do some memory management shenanigans.

@Griwes why? it requires another ~4 bytes per object allocated to store it's size, which is unnecessary because C++ always knows the size of the object it's destroying

@Griwes Better done through custom allocator rather than global replacement of new/delete.

@Griwes That's actually pretty typical for a small-object allocator (e.g., Loki's depends on the same).

@nightcracker So your allocator always allocates exact size chunks of memory? And is incapable of, say, doing a realloc()? Doh.

> not in a hosted environment

= in a freestanding environment.

what does hosted or not have to do with it?

My freestanding kernel environment asks: what is an allocator?

@Griwes yes, and it's also ~15 times as fast as malloc (not even including contention overhead), thread-safe without locking and a lot less memory overhead

How do I use it to get just a raw owning pointer?

eh

it doesn't have to be a Standard allocator.

but the basic concept of "A type responsible for allocating and deallocating other objects" is generic enough to survive in a freestanding environment.

@Griwes a.allocate(n)

> Make no mention of random idiots.

auto ptr = new thread{}; is simple enough, definitely better than auto ptr = allocator<thread>::allocate(); (tip: in my particular case, operator new basically calls allocator<thread>::allocate(), but new thread is so much simpler).

I quite disagree.

vOv

if you do new thread(), then you've failed exception safety, and secondly, if you have allocator<thread> then you can still do things like template on the allocator.

Exception safety? My kernelspace asks: what is an exception?

@Griwes a longjump

That's not even a hosted environment. Leave Scotsmen alone.

it's when you return early from a function.

Keep in mind I am giving specific examples of why I find overloading of operator new and operator delete handy.

Using just an allocator would not improve my "exception safety", in this specific environment there is no heap and every exceptional situation causes a kernel panic.

All of return, break, continue can cause the same issues.

agree.

Don't forget our beloved goto

exception safety is exacerbated as an issue by exceptions, but at the very core, it's not actually about exceptions at all.

But certainly there is no such thing in your beloved kernel.

@LucDanton Correction: I said "not in a hosted environment", so I am aware that it's not hosted. I didn't say "it's a freestanding environment", because it has no exceptions and no RTTI, and those are required for freestanding environments.

@nightcracker Why not? I was so happy having forgotten about it for months.

@R.MartinhoFernandes None of those happen before the memory is leaked.

exception safety is a problem because the world is not perfect and not everything can always fail

@Griwes I cannot decypher that.

I typo'd.

^ cf.

It's a microkernel, every fault is a critical fault.

so

@JerryCoffin goto fuck_you;

@LucDanton Oh, I did that? derp.

about plugging 24V PSU into 20V slot

don't

return, break, and continue are not about faults.

Ok, you clearly want to argue for the sake of argument.

@nightcracker I wish -- but my wife's at work, and I need to get some work done too.

I like to come down hard on freestanding vs hosted even though 1) almost nobody cares whether something is in fact a freestanding implementation 2) I don't either.

@JerryCoffin if (work_done) goto wife; wife: laid.get();

@Griwes I also have no idea what that means.

So the last final time: even if I was using something arguably better in this specific environment than a raw owning pointer, I'd still prefer writing new thread over allocator<thread>::allocate().

I want to show you that being a kernel doesn't get rid of the issue.

I want to tell you that in this case it is not an issue.

What is "this case"?

In case you didn't notice it anywhere, I am always saying "don't use raw pointers".

@DeadMG so the device itself says on the back it needs 1.5A@20V

OTOH internets say it needs 0.75A@24V

And rarely make any exceptions of that rule.

@BartekBanachewicz believe the device

@BartekBanachewicz Then don't ever provide anything that is not 1.5A 20V.

The whole discussion started when I was telling @DeadMG why I find the fact you can overload operator new and operator delete useful.

Yes, and IIRC it involved the mention of "shenanigans".

@nightcracker Sometimes it would be nice if it worked like that, although in the big-picture scheme of things that would rob it of at least some of its humanity.

"Memory management shenanigans".

Like in, "shenanigans in code that manages memory allocation".

@DeadMG yeah I hope my tryouts with the 12V one (which was supposed to be the original one) didn't break anything

And not like in, "in code checking for object lifetime".

not currently.

@Griwes It is useful (or it wouldn't exist), but that doesn't mean it's particularly beautiful, clean, or the best possible design.

Basically, for this particular memory manager, deallocation puts objects into a free object pool instead of actually deallocating memory, which will be implemented later.

@JerryCoffin I still claim new thread{} is very, very prettier than allocator<thread>::allocate().

That still assumes deallocation happens :S

@R.MartinhoFernandes Which is totally outside of the scope of the discussion.

The discussion included exception safety so whatever.

humblebundle.com

they added more stuff

@Griwes Upon matters of taste there can be no meaningful argument.

True dat, de gustibus non est disputandum.

Exception safety was offtopic in this discussion, since it has nothing to do with new thread{} vs allocator<thread>::allocate().

well, actually, it does.

since you could code allocator<thread>::allocate to return unique_ptr<thread>.

@Griwes Call it a separate discussion if you want.

A spin-off.

of course you can't do that for new thread{}.

@R.MartinhoFernandes I call it an irrelevant discussion I do not wish to participate in.

unique_ptr<thread> ptr = new thread{}; yay!

well, it'd have to be unique_ptr<thread> ptr(new thread{});.

unless you were dumb enough to code not_std::unique_ptr to be implicitly constructible from a T*, which would be bad.

and also you're looking at make_unique<thread> thanks to the order of operations/sequence point issues.

Thank God there is no non_std::unique_ptr in my kernel so I can't make that mistake.

and now you're basically just back to allocator<thread>()

@DeadMG Those don't exist without exceptions, though.

hmm

auto x = make_unique<thread>(...) is still better than unique_ptr<thread> x(new thread(...)); though IYAM.

Agree.

It's a much better primitive.

which doesn't exist YET in the standard

(not that it's a problem to write it)

I know.

Everyone wrote one.

hmmm.

I thought TeamCity was supposed to automatically build when I push changes to Wide?

It's a much better primitive, I agree. Usually. Except when I am coding something specific.

@ThePhD I didn't write one :'(

@ScarletAmaranth As grumpy_banana put it: reddit.com/r/cpp/comments/1oi85g/…

@Griwes vOv

"It's not better when I want to write code that isn't as good".

Ok, go rewrite my kernel code in your far superior way.

@Ell Clearly you're nobody (and so am I).

@R.MartinhoFernandes yeah, naturally, it's a perfect forwarding one liner, I was just mocking the standard really

Then get off your high horse.

I sometimes feel like some folks come to this lounge just to be annoying and / or pick fights.

how could it possibly be polymorphic.

@CatPlusPlus: is you here bruv, I has question about teamcity

@ScarletAmaranth People being people, that's undoubtedly true (at least once in a while).

@ThePhD You have all the explicicity you could want.

@Griwes why can't you use make_unique again? (Disclaimer: not following the DQ)

gah I so badly wanted to say "explicicity" but it took my fingers quite some prodding to type that instead of "explicitness".

@JerryCoffin Sadly, you're right.

@BartekBanachewicz Because I usually want raw pointers in kernelspace.

@ThePhD Er, yep.

@Griwes how do you destroy them later?

there's nothing preventing you from doing std::unique_ptr<Base> p = make_unique<Derived>(derivedargs);.

@BartekBanachewicz By calling delete. Sometimes at a different time than unique_ptr would do, I think.

@Griwes Your kernel has one instance of delete, so it wouldn't be hard.

Well, gotta go for a while. See y'all later.

@Griwes you... think. You know, unique_ptr calls the delete when the object can no longer be accessed. Do you intend to call it earlier? Or later?

@JerryCoffin cya

@ThePhD coliru.stacked-crooked.com/a/03069935e51c59c5

@BartekBanachewicz Obviously

@Griwes isn't stupid.

derived-to-base conversions are a feature of unique_ptr, and have absolutely nothing at all to do with make_unique.

@BartekBanachewicz I am not sure if I am doing that already; I am pretty sure there are some pieces of code when I will want to do that.

@Griwes I am particularly interested on the reason why.

I am not trying to convert you now or something.

I guess freestanding stuff has its own rights.

like, I can imagine raw pointers to registers or cache or someshit like that

What.

Can't point to registers.

Sure you can.

@R.MartinhoFernandes yeah well I was referring to stuff that's commonly present in embedded C

Just other kind of registers than you think about right now.

@R.MartinhoFernandes Some architectures permit it.

MMIO registers are still called registers.

Those are memory-mapped.

@DeadMG Not the ones he's targetting.

anyway, since you are calling delete manually, I can't really imagine why can't it be called by the class destructor

@BartekBanachewicz Sometimes you won't want to free some things at all!

@Griwes yeah, I know.

but you said you are freeing them.

@R.MartinhoFernandes Still registers.

@BartekBanachewicz He isn't. There's only one delete expression in his repo.

> I am not sure if I am doing that already; I am pretty sure there are some pieces of code when I will want to do that.

@BartekBanachewicz It is difficult to keep track of one delete.

it's not about the count imho.

I can see three, one of which will die soon.

if it belongs in a destructor, you might as well use a primitive that's been designed for it

grep can't find them.

well here's an interesting question.

Unless there's a different branch.

if I have a T*, can I reference it as a const T*?

well yes?

@DeadMG absolutely

@R.MartinhoFernandes, kernel/utils/priority_list.h. To be honest, it isn't delete call, it's operator delete call.

@ScarletAmaranth GCC 4.8 says no.

@Griwes Yeah, I'm not counting those.

@DeadMG o_O what reason does it have?

doesn't give one.

just says that I can't do that.

int main() {
    int* p = new int(5);
    const int*& ref = p;
    std::cout << *ref;
    p = new int(10);
    std::cout << *ref;
}

alright, I have no clue, it seems like a perfectly safe thing to do

int const* const&

wonder if Clang accepts.

@R.MartinhoFernandes That shouldn't be necessary (and also doesn't work).

@R.MartinhoFernandes I totally noticed you pointedly said 'delete expressions' btw.

@R.MartinhoFernandes that's a different thing

the compiler produces a temporary copy and binds it.

@BartekBanachewicz It's the one that can work.

int main() {
    int* p = new int(5);
    const int* const& ref = p;
    std::cout << *ref;
    p = new int(10);
    std::cout << *ref;
}

produces 5 5, not 5 10.

There's no other way to do it. The other one is broken.

why is the other one broken?

Plus, some of those pointers cannot really be unique (who owns a node in a linked list? Predecessor or successor?), some will live in different scheduler queues at the same time (who is an owner? One of the queues? All of them? Oh wait, here we go, a shared_ptr which uses small chunks of memory for reference counts, and since I do not have a heap, they would be tricky to write in a sane manner not taking more memory than really needed).

^

@DeadMG Because you can now assign a const* through your new reference, and write to it through the old one.

@Griwes why are you writing your own linked list again?

Breaks const-correctness.

@BartekBanachewicz He's in the kernel?

@R.MartinhoFernandes You said "one delete expression" - the only delete expression in the repo in kernel/ will die soon, and there are two calls to operator delete you clearly didn't count.

@BartekBanachewicz I am the kernel?

@BartekBanachewicz freestanding doesn't have stdlib

@R.MartinhoFernandes soo... can't you just implement the allocator for std::list?

I could obviously port libc++, but that isn't as simple as you think.

I mean, uh a list is a primitive

@BartekBanachewicz Porting a stdlib is not simple.

so is unique_ptr

@Griwes They didn't count because they are not delete expressions.

@R.MartinhoFernandes So

int main() {
    const int x = 5;
    int* p = nullptr;
    const int*& ref = p;
    ref = &x;
    *p = 10;
}

I am not sure why linked list using raw pointers would be an argument against unique_ptr

@LucDanton ...and then he said "yes, I am counting those".

@BartekBanachewicz because you're not hardcore enough to xor them into one pointer

@BartekBanachewicz Right now that's the only place where raw pointers to something that is to be deallocated are used.

@BartekBanachewicz Yeah. I tend to be distracted by this room so I cut it off when I'm working

@DeadMG Right.

@Griwes Typo.

well, OK.

Ohai

@Griwes alright then

@Griwes Sorry, that was a typo. It is fixed if you look back.

Soon the second place will be a binary tree implementation, once I finally get RB-Trees right.

> “He said, ‘I’m not kidding. There’s gunshots and people screaming and we were locked in a storage closet,’ ” Belcher told KFOX-TV. “These kids thought that their classmates were being killed and that they could be next. There’s no excuse for that.”

But the district’s assistant superintendent defended the practice

ah, it's basically the same as the T** -> const T** thing.

if that's a primitive then fuck it.

@R.MartinhoFernandes Oh, ok.

But I'm generally available tuesdays, thursdays nights and the weekend

@BartekBanachewicz unique_ptr for linked lists is not great.

obtw

@R.MartinhoFernandes sigh. I know.

I was thinking about that for Wide.