> As a policy, we try to never resort to implementing things in C. This keeps us honest – we have to make Julia fast enough to allow us to do that. It's better to do everything in the language and be a bit slower until we can make the compiler better and then everything gets fast – system code and user code alike.
It painted itself as a technical computing language and environment at one point but now I'm not sure.
> Julia is a high-level, high-performance dynamic programming language for technical computing, with syntax that is familiar to users of other technical computing environments.
Mmmh that landing page suggests there have been some changes I haven't tested.
@Jefffrey They've been using that disclaimer for years. It was on the paper copy of the committee draft I got back in about 1996 or so, back in the bad old days before you could just download an electronic copy of every draft the day it came out.
@JerryCoffin It's funny for me. But I get it that it's redundant for people that have seen it from 1996. Doesn't they allow free download of drafts now?
@JerryCoffin Oh, woah. I read that last phrase as: "back in the badgood old days beforewhen you could just download an electronic copy of every draft the day it came out".
@Pawnguy7 I suppose it (sort of makes sense) that the rectangle wouldn't necessarily cover the entire texture (e.g., to support texture atlases), but it certainly seems like it would be the default...
We used to do that for enable_if/EnableIf before switching to non-type parameters, and it's spread across the community. E.g. libstdc++ uses that a lot nowadays.
@Rapptz With a function template, empty angle brackets are never needed. The only reason to include the angle brackets at all is if you need to explicitly specify a template parameter.
@R.MartinhoFernandes Something I've been meaning to ask, with the rule of zero you encapsulate ownership with the current ownership policies provided by the standard (i.e. std::unique_ptr and std::shared_ptr) but there's nothing there that allows for unique ownership with copy semantics. Currently the only solution for that is to have a form of value_ptr or something but that doesn't exactly help for the average user (or well, so I believe).
I guess there's no actual question, just sharing that there needs to be another form of smart pointer (that isn't auto_ptr).
@Rapptz Erm. "unique ownership with copy semantics" - wouldn't that just be value semantics? Maybe you meant "value semantics with runtime polymorphic behaviour"?
@DeadMG done considering, what did you want me to consider about that (other than that it's irrelevant because decidedly non-unique aaaand non-copying?)
@DeadMG I can store a raw pointer to any value, because it's not possible to prevent taking the address of a lvalue, so I don't see how a 'magic_ptr' with the supposed qualities change this?
@sehe Obviously, because if you do T f() { T t; store(&t); return t; } then &t is now useless to you. If you do value_ptr<T> f() { value_ptr<T> t; store(t.get()); return t; } then it's still valid.
BOOST_HAS_INT64_T is a red herring: it is only found inside one header, where it's unconditionally being defined immediately before being used. It is by definition always defined in all sources that "depend" on it. — sehe6 secs ago
Arguably you can't rely on that if you consider CopyConstructible the concept and not CopyConstructible the syntactical requirement. (I'm just quibbling about concepts beyond concept-lite, not making a point of anything.)
@Rapptz Oh, so he cleaned it right out of his repo then... I'm still getting confused why he keeps different versions on github/bitbucket (same for ogonek, a while back IIRC)
ergh... I wish leaving my work computer on overnight would no result in me coming in to a list of pings which I may or may not already read at home ¬_¬
@BartekBanachewicz that's quite common, really - you mean is there no history beyond the initial commit?
@DeadMG hrrrm? Non-owning pointers don't care where their target is. Conversely when you own a value, it doesn't matter how oft you move the storage around
I disagree. An automatic variable is implicitely owned, still owned. It's owned by the enclosing scope. Closures, anyone (yes, rather static ones, but still)
@sehe You don't need to own them. The point is the same- programmer ownership is only useful when the storage of the object might otherwise be destroyed whilst you still need it.
@DeadMG Still disagree. You still need to own them. You just don't have to write any code to do so. Gee, reminds me of RAII. Maybe, because it's exactly the same mechanism
I think it's very useful to not think of automatic variables (objects, really) as special. Because it blinds you for the ownership semantics that play a role there too
@DeadMG The compiler owns nothing. Your program summons contexts that own the resources.
Anyways, I'm happy to disagree. It's come down to a philosophical point. I can see how you wish to "not see behind the screen" as a matter of simplicity. Automatic stuff is just "arranged". I like to see it as "implicitely owned". Because, well, I prefer that.
It helps my mental model. I think it has merit. You don't. I'm okay with that.
> In many languages, oranges are, implicitly or explicitly, referred to as a type of apple, specifically a golden apple or a Chinese apple (confer hesperidium). For example, the Greek χρυσόμηλον (chrysomelon) and Latin pomum aurantium both literally describe oranges as golden apples.
In Short: Templates are evaluated at runtime (when the program is run), but anything starting with # is a pre- processor statement and is evaluated right before the code is compiled. I hope you see that these two can't mix the way you intended.
In your example you are comparing the string Signal...
@sehe I like C++03. I've just about never liked C++11.
@BartekBanachewicz yes
> I don't know where do you get your information from, but it should be burninated to the ground. I'd -100 if I could for spreading blatant disinformation.
I don't like that people have to learn about lvalues and rvalues and they should not have to care; the universal reference stuff just makes that worse because it means they have to care more
and auto is already popping up all over SO as "a type" according to newbies who are starting to use C++11; plus it turns C++ into more of a scripting language and this is harmful by default
C++11 simultaneously makes C++ less expert-friendly (with auto) and more expert-requisite (with knowledge required of lvalues/rvalues and their contextual rules, not to mention lambda capture rules). It's weird.
It's like she doesn't really know who to be anymore
