What if the real reason is that Microsoft has a dysfunctional corporate culture where new productive development ends up being prioritized over maintaining critical infrastructure? For example, instead of fixing problems in MSVC they're writing that bullshit Electron based IDE.
Curiously, they already rewrote their installer with much fanfare but fucked up the part where they decoupled the graphical IDE from version of CL.exe
Design a terrible language itself is understandable, but design a terrible language after hundreds better ones have been made is just ... slightly retarded ...
Is the Haskell meme loosing steam? Few developers I knew using it were working for sass startups, on boring projects that weren't technically challenging. Except they decided to use Haskell.
But I haven't spoken to anybody using Haskell since 2016
@Mikhail That is fixing problems (in VS, not MSVC). VS is so full of legacy COM crap it is unfixable.. they pretty much had to start VS Code to get anywhere.
@Puppy Except that COM isn't legacy. Very popular with hardware device manufactures. Also certain ways to communicate with the Windows shell require COM, for example drag and drop functionality.
BUT you might be right in the sense they probably could justify VS Code as a way to get new customers with the secret dream of fixing VS. I think we've heard many horror stories about MS work culture.
@Ven I’ve had issues where my grammar needs to make(…some data…) to propagate info around (e.g. zero-width lookarounds which can't capture anything, like <next-level> yesterday), which can interfere with the data I set in the actions; does that ring a bell? I can sketch a demo if you want
In the Perl doc, there is a section about .postfix/.postcircumfix, it says that
In most cases, a dot may be placed before a postfix or postcircumfix:
my @a;
@a[1, 2, 3];
@a.[1, 2, 3]; # Same
Technically, not a real operator; it's syntax special-cased in the compiler.
I tried myself:
>...
> An expression in Perl 6 is parsed as termish things with infixish things between them. A termish is in turn defined as zero or more prefixish things, followed by the term itself, followed by zero or more postfixish things. [...]
@Ven I dunno, a hash merging function is helpful one way or the other IME and once I have that remake comes for free; why not decorate the AST properly if using actions, isn't that the point?
@Ven Yes. You know why? Because there's a very specific reason Perl chooses the "-ish" vague-naming. They explicit like to make things ambiguous, interchangeable etc.
Of course this gives rise to exquisite poetry, but the flipside is that poetry is often cryptic.
@LucDanton Ah. I forgot that %(hello => 'world') as a hash literal. I've been doing too much javashit this morning
@LucDanton Oh yeah why the hell not :) It does tickle my fancy. Just know that I'll likely never invest the time to get critical mass with my Perl6 skillset
actually my fastest solution still indexes but unless there's been a fuckup somewhere it should only index dozens of elements max instead of millions of elements, which sounds reasonable
I properly dislike scalars (without having a strong opinion on sigils per se) and I’m worried I’ll start defensively de-containerising everywhere
right
there’s something about certain languages where they implement some of their features with what I call a compiler writer’s mindset, which I think is heavily harmful although sadly I find it very hard to formulate why---other than the fact that most users will not be compiler writers
e.g. I get that one might want to have their language support my $foo = "hello"; $foo = "world";, but the way Perl 6 goes about it has so many terrible knock-on consequences
I’ve seen that, but maybe I don't get it: I’m fine with putting a burden on the implementer, my concern is about surface (aka visible to the user) consequences
@Ven i.e. I get that the variable/object/value thing is complex in light of (im)mutability, but I still don’t like Perl 6 scalars
if you have to talk about environment pointers to explain why a given language feature cannot work the way the user thought it would, there’s a deep, deep problem in the way you conceived that language
@Ven does that one really stand out for you? what do you think of Rust :)
@Ven right now I write e.g. remake($/, my-info => 42); can I be cute and have the $/ be supplied under the covers aka just like make? it looks like make itself uses nqp magic, so I was wondering
@LucDanton this, basically. I mean, in c++ you get all these opportunities to shoot yourself in the foot, but rarely at the syntax level (inb4 Vexing and "uniform" initialization)
I don’t think (for now) that Perl 6 has worse syntax traps than C++ does; though I won’t comment on whether it has better or worse syntax cos that’s so opinionated
I didn't really read the proposal, too innovative, I'll wait to see whether it's rejected at its first committee meeting before delving in the details x)
now C evolution is mostly driven by stealing smallish features from C++, trying to tweak/fix floating point numbers and adding new ugly keywords to solve problems they can't solve with the library
I think C should have more people improving its functionalities, since so many languages have been written in C, those functionalities can be transferred into those languages
_Reduction_Type_Combiner_Initializer_Finalizer_Order_And_Or_Min_Max_Last_Commutative_Associative_Task_parallel_Block_Spawn_Sync_Call_Capture_Options and I might even have missed a few
@Morwenn ok so that proposal has. 1) type functions 2) ADL for type functions 3) overloading for type functions 4) switch type casing 5) Algebraic data types 6) meta-classes like stuff 7) compile-time reflection 8) type&type functions composition 9) newtypes (in the Haskell sense) 10) type attributes 11) type constructors 12) operator overloading for types 13) foreach for type packs 14) concept overloading
@Ven it's good that they think about it. As long as the conclusion is: Hell no. Even template Haskell doesn't get it right, and they have decades of the advantage
@BartekBanachewicz ah man. There's a bike store that has a Triumph Bornville America 800 that I was really tempted by, but when I looked up it's stats, it's only 45kw, so wouldn't be enough to use when I do my A test. I might get it yet though, if I can't find anything better
Worse case I ride it for a few months until I find a bike that'd be ok for riding during test
I'd like to ride my own bike during test so that I am comfortable with it
Searching for answers on stackoverflow is a lot like buying lottery tickets - you might get nothing from reading a lot of answers, but you might get an answer that solves your problem.
Is there a term for an object giving out other objects (of a different type), but those other objects are only valid for the lifetime of the first object? Iterator invalidation would be a specific case of this.
Is that shared_ptr thing a common pattern for solving this issue? Any examples in the wild? I've been trying to see how other libraries do it, but it's kinda hard to Google.
@Maxpm That's how lifetime of nested objects works by default
When I was new at my job my colleagues called it "having parent-child relation". Took me a while before I realized they were talking about an ownership model.
@StackedCrooked Sorry, let me clarify. It's not a nested object in the composition sense. The children are created dynamically.
"Creator" might be a better word than "parent."
Again, like how an iterator can (incorrectly) outlive the container that it came from.
I'm wondering if I should just document that you can't use something after its creator dies, or if I should take measures to prevent that from even being possible...and if so, what those measures should be.
@Maxpm I think somebody mentioned what you need is a pointer in each child to whatever parent these objects share. The only way to shoot yourself in the foot is if the children own the parent. So, don't use any god damn smart pointers.
@Maxpm You don't defend against that in C++. People can create pointers of your object, let the object go out of scope and dereference the pointer and there is nothing you can do about it.
In the rare situations when you can do something about it, because you happen to store subobjects in a shared_ptr anyway then you can advertise that as a special feature.
@Mikhail I want a trigger warning for people mentioning trigger warnings. It triggers me.
I think what's tripping me up is that the children don't represent "parts" of the parent, exactly. In my case, the parent is a hardware device and the children are DMA channels.
Frankly, that seems like a non-problem. I'm programming in C++ over C for a reason. Why do I need to know and control the exact point the destructor is called?
Because in C++ that knowledge and control comes automatically. You mostly bind the life time of stuff to other stuff which gives you precise control and knowledge with zero effort.
And yes, you can screw that up with shared_ptr, but that doesn't give you any advantage.
Perhaps the more important point, from writing dozens of these kind of hardware adapters, is that life cycle management needs to deal with possible hardware faults as well as prevent the rapid creation destruction of handles. See Bjarne's frustration with destroying sockets.
Okay, but if someone needs a reference to something, presumably they need that reference. It sounds like you're proposing I yank it out from under them anyway.
@Mikhail Got a link? Fortunately, I think it's acceptable in my case to just panic on any hardware problem.
They have to know that if there is a Resource_provider and they use .get_resource() on it and then let the Resource_provider go out of scope that their resource is invalid. If you are nice you can try to assert that somehow. If you are evil you do shared_ptr shenanigans that hide the bug.
It's a bug in the core language. That's how dangling pointers and references work. You are proposing that in a select few cases you might be able to make it not have bad consequences and for the rest the same rules as always apply.
Since you must deal with dangling references anyway there is no point in going out of your way to make dangling references impossible, because you cannot in C++. You just force the user to pay for features that they don't use anyway.
If you think that is dumb I can understand. Use rust where that problem doesn't happen.
I think there are funny names for that. "Principle of least surprise", "KISS" and something about failing early making better systems.
But it's not a pointer, or a reference. It's a user defined type. Why should you expect an apparent value object to have the same lifetime concerns as a pointer or reference?
I haven't given you a reference to a part of me; I've given you something else, that happens to need to talk to me sometimes.
You should tell the user that that reference needs to talk to something else that better be alive when it does if there is a chance they can screw it up.
@Maxpm I suspect you can pull it off because you're hiding the resource manager from the end user (or at least prevent its access without a connection object), although I'd personally had trouble implementing these kind of designs because the underlying handles would often need to be substituted, and the rapid creation of resource managers was really undesirable. Also take a look at the thread safety of a shared_pointer. Good luck.
@nwp In practice it's worse than that though. shared_ptr makes it much easier to accidentally pass a shared pointer across thread boundaries, and end up with two threads manipulating the same object.
@nwp When you're using it directly there probably isn't any. The big problem arises when you're using it internally, to create something that looks like a value, but actually has COW semantics (or similar). Of course, you could also do that without a shared_ptr, but shared_ptr makes it seductively easy to do.