also its fucking bullshit how std::string::npos returns (-1) - aka std::string::npos- when nothing is found, despite std::string::npos being a unsigned size_t
@Mikhail It returns -1, converted to some unsigned type, which will yield the largest possible value of that type. I'm not sure it's a great choice, but the specification seems clear and unambiguous.
Although the definition uses -1, size_type is an unsigned integer type, and the value of npos is the largest positive value it can hold, due to signed-to-unsigned implicit conversion. This is a portable way to specify the largest value of any unsigned type.
or in MSVC 2015 xstring.h, 2293 (typename basic_string<_Elem, _Traits, _Alloc>::size_type)(-1);
@Mysticial what about "don't use sscanf" (it is weird that that trips it even though this is fine...)
Heh. My twitter mentions blew up. I figured I must have angered some brand of political bigot (again). Turns out it was people arguing about decltype(NULL) :|
It was really yawn-worthy. I mean, NULL is implementation defined. Case closed. Don't use it IMO.
@sehe ...and it's always a macro, so once it's expanded, you just end up with decltype(0) or decltype(0L) or something on that order, so after expansion the result is excruciatingly obvious.
@sehe NULL wasn't defined as a macro? I don't even want to know about a compiler so far from conforming that it gets this wrong. Back in the days of Microsoft C/C++ 7.0 and Turbo C++ 2.0, getting NULL correct might have been mildly interesting, but for anything less than a couple of decades old, getting this right should be easy to take for granted.
@JerryCoffin Is NULL defined to as a macro? Or is it defined to be defined as a macro? Or is this part of the defining feature of C++ which is to define as few things as possible unless it's named "un-defined behavior".
@sehe It's actually much more restricted than that. It has to be a "null pointer constant", which is defined as: "an integer literal (5.13.2) with value zero or a prvalue of type std::nullptr_t." So, it can be 0, 0L, 0LL, 0U, 0UL, 0ULL, or '\0', but not much of anything else. In C it can also be ((void *)0), or a constant expression like 5 * 0 or 7-7, but in C++ those aren't allowed.
There is some room for argument that (perhaps) a user-defined literal that yields 0 might qualify as well. Quite a few parts of the standard haven't really distinguished between "normal" and user-defined literals, even in cases where a UDL would have to be constexpr to have any hope of working.
The fun thing is when ohm's law was experimentally observed by ohm it was fiercely criticized as a "web of naked falsies". The contemporary theory held that the kind of collisions would have resistance increase super-linearly, as opposed to linearly with length.
@Mysticial nah, if you raise them for everybody, then you have to find a way to not make people with low income out of business. When you think about it, the amount they might get from Google might be more than Joe Bin will ever earn his whole life.
Anyway, sounds more like tax collector are getting greedy and want to find way suck milk from the big cow more than they initially planned/promised.
Imagine, they raises the taxes and then google says "well so long and thanks for the fish"
@LoïcFaure-Lacroix Then they can raise it for all the big companies. If they want to antagonize Google, they can do enough of those "Google Taxes" to put Google into the brink of simply pulling out the market. And leave it there to milk the company.
@Telkitty It's not immediately obvious that they need to do any such thing. From the country's perspective, it might be worth foregoing direct tax on the corporation itself, in order to get them to employ thousands of their local tax-payers, who will now pay tax on their income, instead of (for example) collecting dole because they're out of work.
@Telkitty "Fair" isn't a particularly meaningful or useful concept as a rule. Chances are pretty good that they actually benefit, because there are more customers with more money. A multinational building an office in a location tends to collect a lot of money from a wide area, and disperse a disproportionate share of it in the immediate area of the office, and some of that almost inevitably ends up being spent on the local business.
The losers are residents and businesses in other localities, who pay money to the multinational for its goods/services, but get a relatively small share of that money back.
@Telkitty Of course--and, in fact, they frequently buy from the multinational. If the multinational paid higher taxes, they'd pay higher prices to compensate.
@Mysticial So far, not a whole lot. Gonna continue with Apocrypha, and started watching Shoujo Shuumatsu Ryouku which is comfy SoL in a post-apocalyptic world, about 2 girls and their journey on their Kettenkrad
@DiegoPereira Scourge mechanics were buggy enough to make the spec look like it had good DPS. (specifically it could output up to 4× times the intended amount of conditions.) that’s now been fixed, so players are back to wondering what’s the whole point of playing necromancer
I always get confused by the lambda capture and I don't know if a variable is captured by reference or by value. For instance if I have [a] I don't know if a is captured by value or by ref.
I think a simple way to get it would be by examples. So let's have one for each of the cases (more if ther...
@Xeo I watched eps 1+2 for: Code Realize, Dies Irae, Just Because, Juuni Taisen, Love Live 2, Net-juu no Susume, Ousama Game and a few others. But those are the ones I'm gonna continue into at least another couple episodes.
Ousame Game is really fucked up. But really good voice acting from Yui Horie. It's been a while since I've seen a show where she uses both her voices.
Failing either of those conditions (especially that 2nd one) will easily make the second version slower if the branches in the first version are all predicted correctly.
If you write to a memory location using smaller writes and immediately (within the OOO window) read from both of them using a larger read, then it stalls.
So if you write the pair as two separate 4-byte stores. Then the compare tries to read them together as a single 8-byte load, then it stalls.
I don't understand this benchmarking tool. I get that clang-3.8 produces the same assembler code which makes the benchmark moot and that my volatile hack is probably bad, but why does it outperform the noop benchmark?
@Morwenn This store-forwarding stall thing is quite an annoying problem for vectorizers - especially for small loops of BB vectorization.
If you see a small loop that's trivially vectorizable, doing so can easily backfire if the data was previously written as scalars within the OOE window (easily 200+ cycles).
Basically, a store (internally) takes 20+ cycles before it makes it to the L1 cache. But a store-to-load latency is only like 5 cycles. That's because the MMU tries to match loads with preceding stores. And if anything matches, it forwards the pending store to the load so the load finishes quicker.
But in the pathological case of load/store pairs of different sizes or are partially overlapping, this forwarding logic completely falls apart. Given that it's relatively rare, the designers simply don't do the forwarding and stall the load until it round-trips to L1.
This has improved a bit in recent generations. If a load is "fully contained" inside a single previous store, then the forwarding still works (with a small penalty to do the realignment). But there's still no way for the LSU to combine multiple stores together so that it can be forwarded to a larger load.
To my dear co-users,
when you quote the standard of a language, we know1 the emphasis is yours, added to pinpoint the few words replying to the question. No need to make it explicit.
1) emphasis mine
Exemple
Question
What is Stack Overflow?
Answer
According to Stack Overflow's about pa...
I have following issue: save time to std::array for int8, int16, int32 and int64 is doubling with each bit-width increase. I can understand such behavior for 8-bit CPU, but not 32/64-bit. Can anyone give me a hint why 32-bit system needs 4 times more time to save 32 bit value than to save 8 bit v...
I also had your use coliru as the benchmark framework itself since the internet at work is firewalled off from the internal network where I can compile stuff.
@nwp feelings aside, it's a pretty simple example, but yes, I do believe that proper attribution implies that one will say to the reader that emphasis somewhere in the quote is from them, or part of the original text by not saying anything
really, it seems you miss the point though, I don't really care about that example, and if you really believe it's about my feelings you look the finger of the one who points the moon
that's a shared thing, I don't want to annoy you, but my general intent is not about me being hurt by you misquoting something, it's about the something like respect for the reader?
@Mysticial Doesn't do it very well, or at all. Literally the only time I've had to break out the `old intrinsics. Scientific camera are typically 12/16 bit...
But, say, quoting the C++ standard and adding boldness to it to emphasize a point seems reasonable and I'm having trouble seeing who is getting hurt there.
@Mikhail Can't say I've ever seen it since I usually manually vectorize and I rarely use word sizes smaller than int32. And when I do, it's on bytes for strings.
@Morwenn Also my dream was to have things like llvm's small vector where the underlying container element count would be something like a short. Reminds how some people claimed Java script 32bit was faster than 64bit due to pointer sizes. Also the brief, 32 bit pointer but all x64 feature linux target.
@nwp I think "mislead" would be more appropriate, and say, for a complete c++ beginner like me, it's possible if I were to read a quote from some source of authority, I'd just assume the writer of the book find it really important that I understand a specific part, whereas it was originally just a smaller part of a bigger scheme
I'll agree this is a somewhat small impact on anybody's life
that being said... omg beer o'clock is just about the corner. thanks for the discussion o/
For what it's worth, a large number of idownvotedbecau.se comments get flagged as rude/abusive (often by the original poster) and deleted by moderators. Clearly people do not find these to be useful or helpful, suggesting that many of the people who complain about downvotes aren't really looking for an explanation. (cc @EJoshuaS) — Cody Gray ♦Oct 8 at 5:50
And what's the replacement for Cilk Plus in GCC now that it's deprecated. It doesn't look TBB is integrated into GCC like Cilk is. At least not that I can tell.
@JerryCoffin I think the issue is that TBB doesn't seem to handle non-power-of-two core machines as well as Cilk Plus. TBB performs the same as Cilk on all my other boxes. And in some cases, slightly better.
Using auto is like accepting a blind date. It can be difficult to know what you get. And that can have consequences. Personally, I'd prefer to see who I'm getting so I know what I'm getting myself into. Other people may have other views.
@Borgleader IIRC, it took me close to a month get my Pi program fully working on GCC. So unless clang has full compatibility with GCC, I'm probably not gonna bother.
As in same flags, same C++ support. Same SIMD support, same GCC bugs and workarounds, etc...