@Mysticial Partly because the compiler is basically doing lots of proofs on what you've done, to ensure you haven't broken any of its memory usage rules and such. Some of it is probably also just lack of optimization--for most of its history they've been working much more at completing the language than optimizing the compiler.
@AlexM. If you start with an easy language, it's pretty easy to ensure a compiler never crashes (e.g., I've never crashed a Pascal compiler, and I have a hard time even imagining how one would get to a state that led to an ICE or anything similar).
@AlexM. I've had the displeasure of having to use Swift, and I have to say that the lack of decent tooling is only part of the problem; a big part is that the language they're tooling is shit.
@Mysticial Umm....not sure. I've never delved into it nearly that deeply, but my immediate guess is that if it's possible at all, you'd have to jump through a lot of hoops.
@Mysticial I'd tend to agree, but at least in the case of Rust it strikes me as being a little like a car that's putting immense amounts of effort into an AI to ensure that you don't back up across tire rippers and shred your tires. On one hand, it's absolutely true that getting your tires shredded isn't good. On the other hand, it also arises so rarely that effort on preventing it is almost certain to be wasted.
TBH, when I started this new job, I was quite amazed at the lack of idiot proofing in virtually the entire system. (except for basic fat-finger protection on manual trades and properly controlled production release system)
user1804599
@Xeo fireworks is so much better than bow for flying
There are no code reviews, you can do whatever you want.
IOW, you really have to know what the fuck you're doing.
Whereas while I was at Google, it was the complete opposite.
@JerryCoffin The other thing, is that no matter how idiot-proof you make something, there will always be bigger idiots. Something I still run into a lot for users of my pi program. Even when I put in technical protections to prevent the user from doing something stupid, they always find a way to do it. And they blame the program. It's almost hilarious.
I put a massive red warning that says, "YOU DO NOT HAVE ENOUGH FUCKING MEMORY TO DO THIS? DOING SO WILL FREEZE YOUR COMPUTER. ARE YOU SURE YOU WANT TO DO IT?" They always say yes and they complain why their computer freezes.
@Mysticial When you have a system that needs to run 24/7 and hire brand new graduates at a rate of thousands per year, that seems nearly inevitable.
@Mysticial Sounds oddly familiar. Years ago (pre-SO) I pointed out to somebody that under Windows NT a thread running at time critical priority took priority over everything else (even memory refresh). Was told that was impossible, so I wrote some code specifically to demonstrate exactly that--and was promptly told that I had no clue what I was doing because running the code crashed the computer (exactly like it warned them it would)...
@Mysticial More or less, anyway. Refresh was initiated in response to an interrupt, and the OS controls the interrupts.
@Mysticial Depends. If you're exploring unknown areas, there are certainly times you get unexpected results. But yeah, when the results are known and you've been told what to expect, then get upset when exactly that happens. In this case, I think it was pretty much just trying to distract from the fact that he'd been proven clearly wrong.
@Mikhail I'm not sure. This was 20 years ago or so. I'm pretty sure it won't work on modern hardware anyway (refresh now normally handled entirely by the memory controller--no CPU participation needed).
@JerryCoffin I've also played with Windows priorities a lot but never had anything crash on me... What did you do? Elevate the priority and then _sleep(10000)?
@Mikhail No--NT (3.5 or 3.51, if memory serves). The OS knows that a Sleep blocks the thread, so it lets other threads run. I just wrote an infinite spin loop.
To put the time frame in perspective, the conversation arose because somebody proudly proclaimed that with the wonderful new Windows NT, it was impossible to do anything in user-mode code that would crash the OS.
So, I frequently deal with DLL that do terrible shit like divide by zero, especially when the hardware that they control is removed. I'm wondering how one could implement a hypothetical language feature that solves this problem...
Maybe some kind of mechanism that does function calls in a different process space?
user406009
@Mikhail The programming language could require the programmer to prove that no such action will occur
user406009
Similar to Rust requiring lifetime annotations.
user406009
You could also use an interpreter to deal with these issuse.
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Cats bite their owners to demonstrate affection, colloquially known as a love bite, but also to warn that they are becoming over-stimulated and want to be left alone. Some cats are also more physically sensitive than others, becoming agitated from too much petting.
not sure first link on google results should always be trusted ...
Raté mon RER à ~20 secondes prêt. Quelques minutes plus tard, annonce : "suite à un mouvement social, les trains sur la ligne B sont retardés de 20 minutes". /cc @Rerito
On a Microsoft Windows computer, DOS Mode is a true MS-DOS environment. For example, early versions of Windows, such as Windows 95 allowed the user to exit from Windows and run the computer from MS-DOS. Doing this allowed older programs written before Windows or computers with limited resources to run a program.
I have a function:
bool basicArithmetic(std::function<int(int, int)> func) {
}
It should return true if func is an instance of std::plus or std::minus but I have no idea how to check. I can't use dynamic_cast because it's not a pointer.
I'm debugging some code at the moment and I've come across this line
for (std::size_t j = M; j <= M; --j)
(Written by my boss, who's on holiday).
It looks really odd to me.
Can anyone shed any light on what does? To me it looks like an infinite loop.
I don’t know if there’s still time for inclusion or if it’s even on the agenda, but as usual the standard library will lag behind with respect to some language features: no guide for std::array (cc @MarkGarcia you asked for cool things to do with guides, here’s not one of them)
Alright here we go: a first peek at annex-range documentation. I may or may not be considering a 0.1.0 release targeting GCC 7.1 depending on things, some of which I haven’t even begun to think about. So no promises.
I’m mostly interested in knowing whether the reference is readable at all. The rest is a long-winded WIP.
I wish I could showcase the rtd theme but it borks up, bad. I can generate other themes (+ google for third parties) on request.
cc @Rapptz come see my Sphinx skills
oh yeah and don’t go around sharing URLs, I haven’t decided on a proper home for these so it’s all in a /tmp black hole
Snowclone is a cliché and phrasal template originally defined as "a multi-use, customizable, instantly recognizable, time-worn, quoted or misquoted phrase or sentence that can be used in an entirely open array of different variants". It is a neologism suggested in 2004.
A typical example snowclone is the phrase "grey is the new black" (a form of the template "X is the new Y", in which "X" and "Y" may be replaced with different words or phrases—for example, "Orange is the New Black" or even "comedy is the new rock 'n' roll").
== History ==
The term snowclone was coined by Glen Whitman on January...
@Puppy yesh, I wish I could use it but right now it doesn’t quite work out :( on other pages there are tables that simply don’t work. not to mention all the wasted screen estate
because I decided to keep the scope narrow (i.e. no containers), in this context the only thing that really make sense is mutable assignment through a range
it’s not a reordering of positions, think std::iter_swap instead
T needs to be movable which it pretty much must be anyway, the only things lost are some performance and maybe stable references but you probably don't want to guarantee that anyway
I have a struct with a lot of fields and the writing the serialization manually is burdensome. So I was hoping I could make it a POD and use memcpy. I can even automate the endianness conversion for integers.
But one of the fields that represents "jitter" is a double. Maybe I should just somehow find a way to represent it as an integer. Or perhaps even a fixed-width string.
when I say I’m focusing on ranges, that means you can’t reorder the buckets. what’s at logical offset 0 stay at logical offset 0
in that meaning 'sorting' really means emptying buckets and filling them up again. which can go horribly wrong in more ways than one, but what can you do? the buckets can’t be moved
if you have a range of references (e.g. element_t<ctx> is int&), the reference at position 0 is not going to change identity no matter what
that’s essentially it
@Puppy another way to put it (but not a very fair or complete one) is that the value_type/reference dichotomy of iterators is a carry-over from containers I’d rather not have
@Puppy keep in mind that’s a consequence of the API (i.e. how I have drawn up the concepts). I came to that design by starting from essentially 0, and only adding things which I could justify (well, broadly speaking). there are no things that are 'there' because I felt like they would have to out of principle.
@Puppy they’re all 'ranges of elements', abstracting over the fact whether those elements happen to be references or not
and just to be sure: std::sort works like that, too, since it operates on iterators and not containers
@Puppy they arise naturally from bidi and up so they are justified by e.g. bidi and random-access algorithms/use-cases, they are not needed for single-pass, forward-only
or more generally, since the implementer materializes into a container, he only needs to write an algorithm that works on that one container, not a super-generic one
@Puppy just to be clear: I’m not saying you’re wrong. these are thoughts I’ve thought. but I’m after something particular with respect to composition and complexity, and wedging in a container right in the middle does not play with the rest