@CaptainGiraffe I believe they'd give you a choice: 1) you're fired, and we're pressing charges, or 2) we're pressing charges, and oh by the way, you're fired.
@curiousguy I feel quite free to express opinions that are topical. But one big intent of Stack Overflow in general is to concentrate primarily on facts, with opinions a distant second (at best), so most opinions are barely topical at best.
The C++ std has a accomplished a lot. The standard itself represents the closet any language has come to being both expressive and tied to the metal.
I'd also say the C++ standard is more complicated than other accomplishments or popular endeavors, such as the human genome project (which turned out to be much easier).
So close to the metal, the compiler can replace an object type w/ another, replace a sequence of operations w/ another, and you have zero control on that.
You can't even control that a given math expression has the same result every time it's run.
That makes C/C++ abjectly user hostile and far from any concept of portable asm.
Holistically dismissing a tool that has enabled the modern world, while appearing to propose an even more complicated, harder to manage alternative (Not close enough to ASM!)
@curiousguy The standard has issues, but more importantly, essentially anything trying to do roughly the same thing will inevitably have issues. When you have two pieces of common hardware that disagree about what will happen in situation X, the standard really has only three choices: mandate A, or B, or neither. There's a reason that "neither" corresponds to "option C"...
@Mikhail Let's be more accurate: writing anything more than utterly trivial software in C or ASM.
@Mikhail Python is pretty close to the ultimate in terms of: "I know exactly what that does. Well, I mean, sort of. Well, you know, at least under some circumstances. Probably...assuming the input is exactly what I tested with...then maybe."
@JerryCoffin Idk, more like "Fuck we can't deploy our solution because its plain text"
But seriously though there are few things that make me feel so good as reading the debate between VHDL and Verilog, and the salty tears of VHDL "developers".
@Mikhail I dunno. I've done a few bits and pieces of hardware design, but never tried to compare productivity when doing identical designs between them, or anything on that order so I have no opinion on their relative merits. For the most part, it hardly matters--VHDL has a small enough market share that it would need massive advantages to justify itself, and even the most optimistic won't claim that.
On average, each Verilog designer managed to get two to five synthesis runs completed before running out of time. Only two VHDL designers, Jeff Solomon and Jan Decaluwe, managed to start (but not complete) one synthesis run.
@Mikhail Yeah, I read it. I don't think it's a very meaningful comparison though. It's a bit like deciding on the best programming language based solely on implementing FizzBuzz.
@Mikhail Well, I'm certainly not going to try to get into a position of defending VHDL. I still don't think it's very meaningful to just a language (any language) based solely on one fairly trivial test. I've seen (and written) enough working designs in VHDL to know full well that it can be done, and haven't ever noticed any massive differences in productivity between the two either. But as I already said, I don't think it's really relevant either.
I've noticed a ~2x improvement in productivity with Verilog
The story with undergrads is more interesting. VHDL provided a better education experience because it forced students to think more, on the other hand, Verilog proved faster to write so we could ask kids to do more work.
Please don't send me "VHDL sucks." or "Verilog must die!!!"
Notice the criticism of VHDL is technical (because it "sucks"), while Verilog is more gate keeping (why must it die?)
Why would someone message me every month or two for many years, but when I asked whether the person would like to meet up when I happened to travel nearby, the person made all kinds of excuses to not meet up. Then when I returned, messaging is resumed. Like the person expect me to reply without me making sure it's not a bot who are sending those messages. Nope, not seeing the physical being and I am not replying! You can't be too careful with the bots nowadays ..
right right, maybe ask them if they know anything about project 2501, you'll never know when consciousness will arrive out of shitposts on the internet
@PeterT It's more likely for a chatbot to gain consciousness. Albeit only slightly. Kind of similar to that you are more likely to be slapped by a powered robot than a pile of shit laying randomly on the ground.
@Mgetz I'm not sure how much of the all-but-lying part is really from Intel. The actual quotes from Bob Swan seem to be at least semi-honest. The really exaggerated parts seem to be from the writer. If you're trying to turn an Intel earnings call into something interesting enough for anybody to bother reading it at all, then nearly lying is probably pretty close to your only choice.
@DexterLiu A string literal is not an rvalue.
§[expr.prim.literal]: "A literal is a primary expression. Its type depends on its form (5.13). A string literal is an lvalue; all other literals are prvalues."
@Mgetz I suppose I should add that I haven't read through the full transcript of the call, so it's unclear (to me, right now) how much of the least honest parts are really Intel being dishonest, and how much came from the author of the article. I'm sure Intel did their best to paint their current situation in the most positive light they could, but they're also undoubtedly aware that actual dishonesty can lead to pretty severe punishment.
@ViníciusMagalhãesHorta Can any sort of container<T> have a noexcept copy constructor if the underlying T's copy constructor may throw?
[The answer is yes, it is possible--but usually when container does things like reference counting to avoid copying the underlying T when you copy the container.]
@Mgetz Well, that undoubtedly happened--but probably so widespread that prosecuting it as a lie would be next to impossible.
@nwp In fairness to Intel, what they rate as "10 nm" is pretty close to equivalent to what TSMC/AMD call "7 nm". So, if virtually all their CPUs were produced on their 10 nm process, they'd probably be fairly competitive. The problem is that most of what they're currently selling is still on their 14 nm process.
@Dexter If I try to allocate 100TB of memory on a system with only 4 GB, it's going to keep on failing over and over. Doesn't really matter how many times I retry.
And if you're on Linux, even worse. It may allow the allocation. But will crash when you actually try to use the memory.
So what happens when you hit the retry limit? The point is, you cannot guarantee that a memory allocation will eventually succeed no matter the size.
Thus if you want a copy-constructor for an RAII object to never throw, you either need to introduce an infinite loop of retries or terminate the application completely.
Or accept the fact that copy-constructors can throw.
@Mysticial I can and do guarantee it. If any program on your machine fails to allocate memory at any time, send me the machine, and I'll refund every cent you paid me for it (with interest).
Back in like 2006-ish, I had some code that had 2 algorithms to do a certain task. One is faster, but requires a lot of memory, the other slower but less memory. So it would try the fast one first, and if it OOMs, it uses the slow one.
@Mgetz It basically randomly kills processes if you overrun the memory usage.
So as opposed to OOM'ing allocations in applications when you run out of memory, it makes them succeed anyway, but when the program try to actually use it, it will either crash or trigger the OOM killer to kill processes.
IMO, it's an amazingly stupid solution to shitty programming.
@JerryCoffin since its default, move and convert ctors are noexcept and make use of std::is_nothrow_copy_constructible I wondered what's the reason why copy ctor wouldn't
By default it try large pages which are automatically locked on Windows. But that requires privs which are disabled by default. So then it falls back to page locking which seems to work most of the time on out-of-box Windows.
But in all cases, I usually don't fuck around. As soon as the memory allocation succeeds, the first thing I do a multi-threaded random-fill of all the data to force it to commit.
Thus any over/lazy commit or compression that the OS tries to pull which would crash the program later on will crash at this stage rather than later.
@Mgetz Most people don't seem to realize what they're missing by using laptops instead of desktops in general. The CPU is just the tip of the iceberg. Even if all of Intel's current laptop CPUs were 10 nm, laptops would still be a crappy investment compared to a desktop in most cases.
@Mgetz Not much, as long as you kept is cool enough. Most of Intel's "desktop" CPUs have been pretty much re-labeled laptop parts for years now (though there were also HEDT parts that were basically re-labeled server parts instead).
@JerryCoffin Other way around. All those quad-cores prior to Zen were laptops chips stuffed into desktops. They really only had two lines, laptop and server. Mainstream desktop was just a laptop chip with higher or unlocked TDP/clocks. HEDT were server parts.
That hasn't changed now, but they've added the low-power dies for U/Y series chips.
@Mysticial Rereading it, I guess I didn't state things quite as specifically as you did--I'd intended to say something like "the rest were re-labeled server parts instead", but I said it in a way that leaves room for interpretation that there were also a few desktop parts that were actually designed as desktop parts, so you said it better.
@LucDanton Yeah, internally, its normally a union, but the basic idea (except, perhaps for moving) works out essentially the same. You still have things you can pretty easily guarantee are noexcept, and others that aren't--and copying is in the latter group.
I’m sympathetic because recapitulating and explaining (and also remembering, for my part) the noexcept debate and the trade-offs it involves is a tough nut to crack