@jaggedSpire haha I'm not from USA so I already learned some words... But, I prefer fall deeply in C++ instead use the other programming language that I used to work: delphi
I currently have this code that does bubble sort:
#include <iostream>
#include <vector>
using namespace std;
void bubbleSort(vector<int>& numbers){
bool notFin = true;
int temp = 0;
while(notFin){
notFin = false;
for (int i = 0; i< numbers.size(); i++) {
...
I would highly recommend reading a book to reading shitty questions right before bedtime - because shitty questions make you emotional and wanting to comment, both are distractions to sleeping ...
as I recall a paper brought up the fact that everybody and their mother were (re)implementing metaprogramming facilities and used that as an argument that they should be provided by the language
esp. for things like a selector for the n-th thing in a pack, which is easy to write naively but generates linear instantiations
did anything come off out of that? do some implementations actually have an efficient __nth<N, Pack...> ?
Awesome. I also saw a post in which one of the answers the author said that it should be used pretty much whenever that variable survives the end of the scope (he didn't use those exact words). I'm guessing static variables don't fall in this rule, am I wrong?
libstdc++’s tuple_element is still a naive impl, guess that’s my answer
> Lets not make the same mistake we made with std::optional by putting this library into a TS. We waited three years where no substantial feedback or discussion occurred, and then moved it into the IS virtually unchanged. Meanwhile, the C++ community suffered, and we continue to suffer from lack of this essential vocabulary type in interfaces.
I’m catching up on the variant proposal, interesting opening
reason being that someone is helpfully submitting an implementation to libstdc++
> // Use recursive unions to implement a trivially destructible variant.
@Cubbi You're right. I have never used new or delete in any of my C++ codes either, but I started to wonder if I should. Now I see that I better continue avoiding it.
@LucDanton Are you still talking about this matter? If so, you totally lost me. I'm noob in C++, remember.
@MatheusRocha new pushes data onto the heap and you have to worry about cleaning it up afterward. You almost never need the headache of cleaning up, so don't use it. When you avoid using new, most of your data goes onto stack and gets cleaned up automatically when it leaves scope
@hello You want to store global variables? Don't worry about making it a singleton; just instantiate it once. If the user decides they need two copies, it's their choice. It's surprising how often there's a good reason not to use a singleton, and threads come to mind as one.
so the spec calls for variant<int, void> v; to be valid for the sake of generic programming, but then e.g. get<1>(v) isn’t—which of course is annoying in a generic context
In C++ an empty class or struct has a sizeof at least 1 by definition. From the C++ standard, 9/3 "Classes": "Complete objects and member subobjects of class type shall have nonzero size."
In C an empty struct is not permitted, except by extension (or a flaw in the compiler).
This is a conseque...
This is why some people say GCC is free as in sizeof(struct)==0
btw, has anybody figured out the black magic to link a library to the compiler properly (I think I managed it, but the library might have dependencies)? And is there a way to figure out which dependencies the library requires?
// To hornor algebraic data type, variant<> should be a bottom type, which
// is 0 (as opposed to a void type, which is 1). Use incomplete type to model
// bottom type.
guess I’m not the only one reading it that way then
hm actually leaving it incomplete does not comply with the spec come to think of it
One place I worked at required that each function live in its own cpp file, and that each file have a paragraph documentation. This did not stop them from having a #define called isFortran 1 that would convert the code into a FORTRAN static analyzer rather than a c++ analyzer.
It is. I think point out the problem, explain that their implementation makes it easy to mess up, and then present the viable alternative for future reference.
Maybe? I guess you could call it a melony smell xD
...and the first reviewer of my edit says that I should've just copied and pasted the edit as an answer (I didn't answer anything), or told the asker to come again after they fix their own formatting O.o
I feel more naked on the internet than anywhere else on earth - everything on the internet is pretty spied on by various organizations: NSA, anonymous, various ISPs, other individual high capability hackers. It's like have multiple spy cameras installed all over your house!
Thick skin - your ultimate antidote to all set backs in real life, your most powerful & free tool to your success.
> While Hana has better compile-times than pre-C++11 metaprogramming libraries, modern libraries supporting only type-level computations (such as Brigand) can provide better compile-times, at the cost of generality.
@Ven by definition, but in a setting that handles 0/Void and e.g. non-termination as the same
which is not a given, of course
I’m not sure if I understood your question though
you have to be choosy when it comes to bottoms
sorry I can’t help being cheeky
@Dmitri pls stop being banned I need more audience
sheesh I completely missed that Boost.Test added a dataset feature a few versions back, I wrote complete garbage to work around the lack of that feature
lmao the Boost.Test datasets support joining, zipping, and product, add a flat_map and it beats Boost.Range 2.0 cc @R.MartinhoFernandes
Say, hypothetically, that some dimwit (call him Mr. Mee) writes a sudoku-solver and names it, by an act of dizzying thoughtlessness, "sudo.cpp." What exactly happens if one compiles ("g++ sudo.cpp -o sudo") and runs it ("./sudo")? Does this irreparably erase the hard-drive? How does the terminal ...
well sure, but in reality a CPU can do a neg and the answer is usually just the input, unmodified. but yeah, the compiler isn't required to care what happens, sure
because neg is usually (~input)+1 in hardware
and (~1000...) is (0111...), and (0111... + 1) equals (1000...)
CPUs are free to throw really bad crashy exceptions or whatever, if they feel like it
x86 had an instruction for it even, INTO
raised an exception if OF bit of flags is set, one byte opcode. saved bytes over jno / INT 4
@sehe I've reached a problem scenario with my PEG parser written in Python (although it's more to do with the fact that it's scannerless rather than PEG)
in the grammar for a toy programming language I'm writing statements are separated by newlines
@Rapptz for docs, is your landing page simply a big ToC or do you do something else? I have a feeling that not doing it that way is going against the grain for no good reason, but I may have overlooked something
In general the following directives are helpful for inhibiting/switching skippers mid-grammar:
qi::lexeme [ p ]which inhibits a skipper, e.g. if you want to be sure you parse an identifier without internal skips)
qi::raw [ p ]which parses like always, including skips, but returns the raw iterat...
The point is all primitive parsers have optional pre-skip/post-skip
What is there to "clarify"? They don't want you in there. You wouldn't want your burglars to "clarify" to you on github when you changed the lock on your door
@orlp Nothing, presumably. It's something in parsing
A question like that cannot be usefully answered IYAM. You're solliciting definitions that don't exist, won't add much and at best will (again) clash with your preconceived parser lingo.
I'd say just choose a consistent scheme. That's tricky enough, but not too complicated. You could always reassure yourself looking at Spirit's | operator with skippers :)
@orlp For example. When char_ is asked to match any single character, it first skips all input while skipper matches. Some parsers will also skip after the match (I'm not sure whether Spirit does this and when)
@sehe I mean, I have trolled 'em for a few days unintentionally. But some sneaky tard revoked my write access when I was on holidays without any explanations ...
@Morwenn I build all C++ projects I work on with the same ease: by issuing a single command (be that on the command-line or a keyboard shortcut or a mouse click).
That actually extends to all programs, regardless of language.
@Morwenn Those minutes are to imbue the build system with rules for moc files. Should be trivial with any sane build system (and it's out-of-the-box with any of the typical ones used with Qt)
Actually, it's trivial even in the popular insane ones.
The friction added by moc is really low. Yes, you have to learn a bit more of syntax, but the same applies to Verdigris since you have to learn their macros. It's the same.
Most arguments against moc are either OCD over some perceived purity of the build system or of the language, or that it is obsolete and the same can be done with macros and TMP.
Honestly, I'm not sure macros and TMP provide a better experience (error messages, anyone?)
Oh, and since there's a stable meta-object ABI, moc hasn't been a requirement for a (long) while. You can use any introspection mechanism you can devise for C++; you just have to make it produce meta-objects that follow the ABI.
yeah, they didn't push their luck in the slightest back then. the cpu isn't even pipelined!
a modern EE student makes more complex cpus as projects
hilariously, they added cycles to make sure that a store from the previous instruction won't be missed by a load in the following instruction. even if they are totally unrelated
even if neither has inputs, indicating that a few 10 input gates and a couple of mux units was too much to add
more aggressive designs from today would detect the hazard and insert a nop or something (pipeline bubble) and really modern ones have deep queues
@Telkitty if the IO-error happened while writing the log then you need to get around that somehow (clear the error or open a different log and try again), otherwise the logging should be unaffected
@R.MartinhoFernandes Its probably one of those old settings that never got updated. Remember when you ran into MSVC's string literal length limit while working on nonius? Also, your fault for using Eclipse :P
Under what circumstances will an std::ostream flush? Can it happen if .flush(), << std::flush or << std::endl are not used? I'm implementing an underlying streambuf and I want to have a good idea of when its .sync() might get called.
I have an output device, which can only output in visually distinct units. The output is meant to be read by humans. Imagine that it prints separate sheets of paper.
At the streambuf level I control things, so I can ensure that an overflow won't flush. But I don't know if std::ostream does anything on its own that would trigger flushing in a way that would be surprising to the user.
In practice things seem to be working well ... but that doesn't guarantee that it won't get derailed at some point.
@R.MartinhoFernandes I was trying to explain above why I am doing this and what I want to achieve .... I know which stream will use it. It's an ostream initialized as ostream something(&mystreambuf).