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22:00
@BartekBanachewicz first time I heard that distinction. I must be a n00b.
@rubenvb I don’t know if one can argue that’s rapidly changing. Not without knowing what systems you care about, how rapid you want it to be or what capabilities you want (languages? cross-compiler?).
@Ell GCC sucks donkey balls.
Ell
Ell
Woah I never knew that. I thought noob was short for newbie
GCC is technically open source, but their codebase is so impenetrable and they have such a poor licence (GPL) that it's completely unusable as any kind of library.
22:00
@Ell so did I.
Ell
Ell
Meh I don't think gcc sucks. It compiles c++ and well
not that Clang is a paragon of library-ness but at least they try.
@BartekBanachewicz Not really, no
@DeadMG But it is specially made NOT to be a library!
@DeadMG lol no. There's a special clause in libstdc++.
22:00
@CatPlusPlus um yes?
@Griwes I don't have the time to properly learn, gotta use c++ for a time sensitive thing. im counting that
@Griwes Hence, it's specially made to suck.
I don't care why GCC sucks. I only care that it sucks.
Stallman said something along the lines "GCC should not be hijacked by closed source, so it will never be a library".
@G.Bach is the linker error "undefined external"?
@Rapptz libstdc++ != GCC.
22:01
GCC doesn't suck.
Which is about as retarded as it gets.
Ell
Ell
I don't think stallman is the authority on gcc anymore
@DeadMG Must have misread.
It just sucks to only have one compiler.
But as Stallman is as retarded as it gets, that isn't really any news.
22:01
@BartekBanachewicz it's "undefined reference", and I suspect it's to do with name mangling but i have no clue really
@rubenvb GCC sucks.
@Ell s/ on gcc/
@G.Bach then look at the post I've linked above
@rubenvb Even my vaporware compiler sucks less than GCC.
All this shitposting.
Ell
Ell
22:01
@Griwes can it compile c++? :P
well gcc generates pretty good code
@Griwes Which might have been a ‘feature’ (loosely speaking) in another era but is not above scrutiny nowadays. There are good reasons to play nice in the form of a library and it can still be possible to cultivate a strong copyleft ecosystem/culture.
@Griwes lol. We got a hater here. Question: are you on a Mac?
and it has arm target and shit
@rubenvb he's from Poland
@rubenvb I am on Linux and I hate it.
22:02
does GCC support compiling multiple .cpp files in a single command?
yes
@DeadMG uhm, yes?
(I also have Windows installed and I also hate it)
hmm.
lmfao, insult a compiler and there's an explosion of posts in lounge
22:02
I hate everything, because everything sucks.
Most problems with GCC are wrt cross-compiling
maybe I'll blame that one on make, then.
@CatPlusPlus This.
@CatPlusPlus This a hundred times.
@CatPlusPlus I agree. The whole multilib/cross-compiler setup is daft.
@CatPlusPlus What kind of problems, and who’s a contender in that area?
22:03
It only gets worse on Windows.
The fact it can't just -target is so silly one cannot simply explain how silly it is.
Retargettable toolchain (i.e. Clang here) is waaay simpler to use
@LucDanton Clang: you can add -target <triplet> and bang. Cross compiling.
@Griwes I hate you because you hate everything, and now I'm going to watch old stargate movies.
even Wide can do this.
22:04
Not to mention the compilation dance GCC cross-compiler requires
I'm working on getting *-*-mingw32 to work.
@Griwes "Contender" does not mean what you think it means
@Griwes What everyone? I’m only aware of GCC.
@SampoSarrala Random ping is random.
@CatPlusPlus Ugh, brainfart.
I should probably start doing this thing called "sleep for more than 5 hours" more often.
22:05
anyways. Good night.
mj y flatmat e s for medrunk er thanevr
16
Night.
I won't take mingw seriously until it can propagate exceptions correctly without setjmp
@doug65536 seh on x64 and dw2 on x86.
22:06
@R.MartinhoFernandes I want to come to Berlin and get drunk with you Robot
I'm sticking around until this is cleared up. Get your facts straight @doug65536
I'll bring Polish beer.
You mean Czech beer
Like, the real, regional one, instead of exported shit.
Did I spell that correctly I dunno
22:07
@CatPlusPlus yep
@CatPlusPlus Chechen?
Yeah, regional beers are the best.
@rubenvb have you looked at the code generated by "seh". it's ridiculous, it constantly does setjmp/longjmp
I'm consuming my payment for the doghouse model
which was 6-pack
so I might be tipsy already
@R.MartinhoFernandes You okay dude?
22:08
Never not drunkpost
@doug65536 That is the relevant Windows ABI.
@CatPlusPlus Am I wrong in saying that’s in fact the same dance when you build it for same host, same target? I think only the so-called Canadian cross setups require additional steps… unless you disable bootstrapping at configuration time.
@LucDanton Building native is far less complicated
@DeadMG no it isn't. native compilers use fs:[0] to setup exceptions, they don't write the whole cpu context to the stack millions of times per second
@AndyProwl do you also always use using over typedef?
22:09
@doug65536 No, only x64 Windows uses table-driven exceptions.
@TemplateRex Yes
Xeo
Xeo
@TemplateRex fuck typedef
2
@TemplateRex yes
@DeadMG yeah, native compilers have zero overhead exceptions
not on x86.
22:10
yeah, sorry, been a while. I was referring only to x64 with my comments
well I've gotta admit
I think the whole exception situation is dumb.
the fault really lies with Microsoft.
they have failed to create an appropriate specification for C++ ABI on Windows.
@BartekBanachewicz I'm afraid that answer doesn't help me; maybe I just don't see how it would, though.
I was referring to x64 GCC seh since 4.8. No more setjmp/longjmp.
22:11
@rubenvb that's 32-bit. I was talking about 64-bit
@doug65536 my code is compiled by 64-bit gcc.
@rubenvb yeah, but it can't unwind through native compiled code with dw2
@doug65536 dw2 can't. Yes. Please, tell me all about the patent MS has on its x86 exception handling.
FFS. You can't expect the impossible.
Anyways, you agree that x64 GCC is fine wrt exception handling?
didn't know about the patent
0
A: R computing: AMD or Intel?

Hans RoggemanAccording to CPU benchmarks you are better of with the AMD between the two, independent of whether you use the parallel computing packages in R such as parallel or not.

^^ wut
anyways
@rubenvb By Borland?
@Griwes Yup.
any problems with EH on Windows are almost entirely Microsoft's fault, not the fault of any third party trying to implement EH on Windows.
Huh.
22:15
or Borland's fault, anyway
@Rapptz the ensueing thread is very interesting, though, stallman's bullshit aside
AFAIK, it disappears somewhere 2014 or something.
@rubenvb last time I used mingw was a while back, just before dw2. I was disgusted by the endless spew of sjlj code generator. apparently it is way better now
@CatPlusPlus Sort of. I was wondering about the number of stages. Not the complexity stemming from e.g. hooking up the libraries.
@doug65536 Yeah, it got x64 seh in 4.8, and still uses sjlj on x86 by default (because of the unwinding problem you know), but dw2 works fine in many scenarios. I hope you don't write C++ and always look at the assembly?
That would give me nightmares.
Basic stuff, sure, but not a complete throw-catch riddled program. <shudders>
22:19
@rubenvb lol, no, I rarely look at it. I do, on rare occasions look though. that's how I noticed it
@LucDanton There are more. Libraries/binutils etc is a big part of getting cross-compiler to run
And for extra fun it's different for each target
Anyways. I was on my way out the door. Glad I could help some confusion out of the world. C yall later.
@Rapptz im finde.folks are cool.
@rubenvb I always look when using SSE intrinsics (became accustomed to bad code generation in VS2010)
auto numbered_part::get_parent_part() const -> numbered_part* looks so ugly
I think I will fuck a bit of consistency
22:22
yay movss [eax],xmm0 movss xmm0,[eax]
I always put the trailing return type on its own line.
@AndyProwl Just leave the -> numbered_part * part away.
-std=c++1y for the win.
@Griwes I cannot (VS2013)
user1804599
@doug65536 y u no high-level programming language.
@LucDanton Let me try that.
22:23
@doug65536 lol
Right after the other?
so, ironically
auto numbered_part::get_parent_part() const
    -> numbered_part*
my haskell implementation of palette generation is long because I have to explictly convert floats
hm, slightly better. Perhaps it's just a matter of getting used to it.
@Mysticial yes
22:24
aha
They aren't exactly noops though. It does clear the upper half of xmm0. But there are better ways to do that. :)
auto f() -> int looks silly to me
@LucDanton Even in class definitions that just declare member functions? (without defining them)
user1804599
Hmm.
user1804599
Would throws Throwable make any sense as opposed to throws Exception?
22:28
Actually I'm kind of liking it even with -> ... on the same line, especially in class definitions
All member function names start at the same column, which is more readable
@AndyProwl Oh, in some instances I declare foo& operator=(foo const& other); but define auto foo<T>::operator=(foo const& other) -> foo& {….
at worst I sometimes do auto f() -> decltype(*this)
@rightfold They're both stupid.
I'll try using the auto foo(...) -> ... style everywhere. Just to see how I feel at the end of the project.
user1804599
22:30
It’s stupid to overrestrict a function in an interface.
proper exception specs aren't overrestricting.
user1804599
Implementations of the interface in question could throw anything.
then your interface is poorly specified.
might as well say "Could return anything!"
user1804599
Not really.
22:35
what could be the reason for
Could not find module `Control.Applicative'
It is a member of the hidden package `base'.
Aren't "may throw" and "shall not throw" the only meaningful exception specifications? I mean, dynamic exception specifications have been deprecated in C++ (also) because they were a hell for maintenance, no?
Ell
Ell
@DeadMG well, if you have a virtual function for example, you can't know what it will throw?
Here comes variance.
user1804599
Well.
@AndyProwl Not really. If I do something like, try { f(); } catch(ExceptionType& e) { ...} then is my function nothrow or not?
22:37
headdesk
Variance?
apparently no monads and no applicatives
@Ell You can restrict it, just like you restrict the inputs/outputs and the semantics.
user1804599
I could create a base class ReportParsingException and specify IOException, ReportParsingException.
i am now going to curl and cry
22:38
@DeadMG not I would say
@rightfold Er, parsing and IO should know absolutely nothing about each other, ever.
@AndyProwl More type theory!
@AndyProwl But if f() only throws ExceptionType, then it is nothrow.
user1804599
The parser reads from an InputStream.
right
Ell
Ell
22:38
@DeadMG What happens if an exception occurs inside the virtual function which is restricted?
Xeo
Xeo
@AndyProwl Co- and contra-variance, I imagine
@DeadMG Yes, but you must be able to guarantee that f() will always throw only ExceptionType
user1804599
The stream can throw IOException.
@AndyProwl Which is just fine.
but
@Xeo I know that part. Not sure how it relates to exceptions. Oh wait perhaps it doesn't
user1804599
22:39
Oh wait, it should be ParseException, not ParsingException for consistency.
what you're describing has nothing to do with exception specs in general
Xeo
Xeo
@AndyProwl Derived exceptions are covariant to their base exceptions
you're talking about one specific implementation of it- Java, I'm guessing?
@Xeo Ah, I see now
in which case I'd just write them off as "Too poorly implemented to be useful", mark every method as "throws Exception" and move on.
22:40
@DeadMG So you think C++ should not have deprecated DES?
er
there's nothing dynamic about C++'s exception specifications.
they are not and never were dynamic in any way.
that's how they're called, "dynamic exception specifications"
also, like many other features, C++'s compilation model prevents a more useful implementation of exception specs in the general case.
or am I missing something?
so for C++ it would certainly be impossible to define a useful implementation.
user1804599
22:41
I think C++ exception specs would be horrible with templates.
Goodbye. Try on Stack Overflow.
user1804599
You’d need throw(auto) or something like that.
which is what I had in mind, give or take.
user1804599
Which could be useful, but not if you cannot add the specs explicitly.
the types of exceptions thrown is exactly the same problem as the types of function return values.
and the problems of poor maintenance and poor scalability is exactly the same- with the same solutions.
Xeo
Xeo
22:45
I'm kinda wondering what use 'throw(auto)' would have - if it deduces all thrown exceptions, isn't it really the same as no exception spec?
user1804599
No.
how can it deduce thrown exceptions?
user1804599
struct S { void bar() throw(std::io_error) {} };
template<typename T> void foo() throw(auto) { T::bar(); }
void bar() { foo<S>(); } // boom!
@Xeo Not really.
knowing all the thrown exceptions permits you and/or the compiler to prove more things.
for example, the example I used above where try { foo() } catch(exception& e) { ... } can be proved to be noexcept (or not)
@DeadMG I disagree they’re the same challenges. You can ‘reify’ that ‘double path, hence double return type’ in Haskell via Either/ErrorT but it’s not always helpful. (It is nice that’s it’s available when you want to use it but that’s another story.) Keeping in mind that’s with lots of deduction available.
Ell
Ell
22:49
@DeadMG I still don't understand how you solve the virtual function issue
@Ell Well, you force a pre-set exception specification that all implementations must meet.
Ell
Ell
So what if an implementation detail exception occurs?
Xeo
Xeo
as the author of the virtual function, you decide its interface
@LucDanton Yes, but that's mostly an artifact of the fact that a function can only return one type, whereas it can throw multiple types.
@Ell Then the implementation should keep it as a hidden detail.
Xeo
Xeo
and the exceptions are part of the interface
22:50
and if it fails, then it's failed to keep to the interface.
Ell
Ell
@DeadMG and swallow it silently?
implementation's problem.
@DeadMG No.
Ell
Ell
Hmm
they should not call code that throws exceptions they can't handle, either by allowing it to propagate as part of the interface they implement, or otherwise.
22:51
@DeadMG They're a specification of exceptions that can be thrown, and checking of thrown exceptions is dynamic (i.e., takes place at run time).
I'm not sure what syntax to use for my meta build system.
user1804599
Use a real programming language.
I am.
@Rapptz meta-syntax, of course.
user1804599
Then you already have the syntax.
22:52
I meant the API.
Hm.
If I have foo :: a -> Either b c it’s true I could throw whatever but that’s either a bug or braindead design. My point is that even if you ignore those options (i.e. pretend there are more rules in place) the result is still somewhat lacking.
yes, but I don't see how exception specifications suffer from the same problem, since inherently they are a list of multiple types that could be thrown, rather than a single type that will be returned.
@Rapptz Declarative
@rightfold They are.
@DeadMG My line of enquiry did not start at exception specifications.
22:56
in that case
allow me to cut to the chase and say that I have no real idea what problem you are attempting to discuss, since I was pretty sure that the discussion was about exception specs.
user1804599
There is no difference between returning algebraic data types and checked exceptions when you can parameterise both.
To your claim that the problem of the types of thrown exceptions is the same problem as the types of the returned values I present a language (or subset thereof) where you can, in fact, have two types ‘to return’ — as well as facilities that ensure that it’s more than returning pairs everywhere.
Why do you say anything if you can’t keep track of your own words? Do you click on the arrows when I link my messages to yours?
@DeadMG Do you not want me to comment, react, refute or discuss anything you say?
no, I just don't understand how the proposed language (subset) actually relates to my claim.
unless you merely wanted to point out that for exceptions, it would simply be a list of A and B, rather than Either A B.
user1804599
23:01
@TemplateRex lol
user1804599
“write”
Why would it be a list
@DeadMG Haskell can deal very well with Either e a in the return type. It typically does not hinder inference or the like. So it’s somewhat close to having two ‘return’ types that are independent from one another.
user1804599
I also write my breakfast and I write my way to work.
E.g. you can call a function that’s polymorphic in either type, rethrow or return and you won’t lose the polymorphism. That’s not a common feature.
user1804599
23:03
You can do the same with checked exceptions if the language supports it.
> One thing abundantly clear is that syntax matters. It matters an awful lot.
Yeah I'll pass on that article
user1804599
Either vs. checked exceptions is just moving a library feature into the language because Either is annoying in imperative programming languages without pattern matching or do-notation.
@LucDanton As far as I can see, correctly inferred exception specifications would offer the same functionality (give or take)
I’m offering my experience that the result is not very useful. It’s not about feasibility.
hmm.
knowing the exception types in advance is most useful for ABI interoperation.
not to mention the vast numbers of functions that are noexcept but are never marked as such because the programmer couldn't be bothered to go back and check (even in the Standard).
23:07
I’m more interested in languages.
it's also useful to know them in advance if you intend to match catch blocks with the exception types in more involved ways than just dynamic_cast.
for example
let's suggest that I want to have a rule in Wide where if T is implicitly convertible to U, then you can throw T and catch U.
this would be impossible if I didn't know T in advance (unless I want to migrate my whole type system to runtime)
That’s covariance with coercion semantics, to keep track of language-agnostic features.
@DeadMG You can allow the function type to follow the variance. Then whichever module that is not aware of T can still receive a function throwing U and catch those.
A restriction of the original function throwing T I mean.
7 Stars? You Bastards.
@R.MartinhoFernandes we're not charities
@LucDanton Is that still going to function if U is, for example, a concept, rather than a concrete type?
@R.MartinhoFernandes did you sniff beer again?
user1804599
23:12
@DeadMG when would you add non-inferred exception specs as opposed to inferred ones?
personally I'd roll with inferred exception specs in most functions.
but the non-inferred ones should be at interface boundaries.
for example, given a hypothetical future Wide Standard, I'd like every function in it to have a non-inferred specification.
user1804599
Yeah, but the implementation could still have it inferred.
user1804599
Only the reference documentation would list it explicitly.
user1804599
And they have to be equal.
yes, but they lose the benefit of having the compiler check whether they correctly followed the interface or not.
this would be the same as a non-inferred return type, incidentally.
23:14
@DeadMG That’s about as much as I know because Haskell does not have subtyping.
user1804599
But at least you don’t have to add the exception specs for all the implementation details!
the implementation details aren't allowed to have specs.
that's the point.
user1804599
So I cannot have a private function with an explicit exception spec?
sure you could, but that's not an interface boundary function.
what I mean is
the implementation is not allowed to go around throwing random exceptions of random types that mean nothing to the user.
that's the point of having exception specs on interface boundaries.
user1804599
Hmm. Is Perl or Python more widely deployed on Linux boxen?
user1804599
23:18
I guess Perl.
> Firefox is the most customisable web browser there is. But its open source nature means that this customisation can lead to bloat.
what the hell
"bloat" is the most useless, retarded term in use
See, @StackedCrooked I'm even compiling programs with 3 TUs, 2 header files, compiling into two shared libs and a main program, which find themselves at runtime. And it uses boost serialization:
@rightfold yup
That's pretty awesome :D
Took me a while to figure out the -Wl,rpath incantation
23:26
You seem to prefer the unpack-archive approach over the commit-files-to-archive-and-reuse-them approach?
@sehe I could have told you that one! :)
Somehow I manage to stick to LD_LIBRARY_PATH rather than use the rpath.
@LucDanton Me too. Actually, I did. However, I was first using LD_LIBRARY_PATH (but it caused boost_serialization to not be loaded :))
@LucDanton Ahahaha. I was typing exactly that ^
23:44
Dat awkward moment when you realize that your answer from a week ago wasn't actually safe
1
A: boost::serialisation for inherited template class

seheWell, the problem is quite obvious: <> don't go well inside XML element tags. So, here's what you I naively thought of to fix it. ar & boost::serialization::make_nvp( "base", static_cast<classOne<T>&>(*this)); IMPORTANT UPDATE However, just today, I stumbled across the documentatio...

Of course I notified the OP :|
<foot-in-mouth/>
@tweetsbi Nope; after beer and a concert I went back to work on it...until 4am. :-)
^ Confirmation that more people actually do this :|
@sehe Everything will be fine.
yeah. I just hate when this happens. Not because of the bad influence I might have. But simply because it confronts me with the fact that despite due diligence, I'm likely to make solid blunders :/
ar & BOOST_SERIALIZATION_BASE_OBJECT_NVP(baseClass);
Time for bed. Night owl!
@StackedCrooked beautiful, innit?
Yea, I never thought of calling functions using operators (as a single statement)
23:58
@StackedCrooked That's not what happens, AFAICT. Look at the old answer and you'll see more nicely what the NVP is about. I had 'discarded' the [BASE_OBJECT] part in my initial recommendation, though

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