@Nils The standard library and the runtime system (new, dynamic_cast) use exceptions. You can most certainly not skip them. In fact, you need to write your code in a way that nothing breaks in face of an exception thrown from almost any line.
and what @sbi says here, means that any C++ code should better be prepared to exit from a function at any point, hence multiple returns in C++ is not as troublesome as in C
in C multiple returns generally add problems, e.g. a return is inserted before cleanup. in C++ multiple returns generally bring clarity, avoiding unnatural code paths just to end up at a single return at end. so the language differences mean very different styles, "SESE" versus "SEME" as they were called when that stuff was debated
4
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well i would really appreciate ideas for getting g++ std::wcout to produce UTF-8 output in Windows -- without reimplementing the whole shebang
main problem is that wcout is not required to use codecvt facet of locale, and with g++ does not
@Nils part of the reason for that could be that 32 bit Windows has such an inefficient ABI for exceptions. People concerned with performance tend to get a nasty chock when benchmark it
@AlfPSteinbach no clue here. I've always stayed far away from the implementation of iostreams
@jalf have you done that, or can you provide any reference to an honest benchmark? the standardization committee benchmarked, you can check out the performance paper.
@AlfPSteinbach I've seen several benchmarks yeah, they generally show something like 8-15% slowdown, which is a lot just for glorified error handling. The problem is that SEH requires unwinding information to be written into the stack frames, so even when an exception is not thrown, you pay a noticeable cost. And when it is thrown, the stack has to be unwound with the same mechanism which is even slower
Linux and Win64 uses a table-based approach which is basically free in terms of runtime speed
shouldn't multiple inheritance just be that if you have a baseclasses A and B and C : A,B. And A contains virtual function foo() and B virtual function bar() and C overrides only foo(), C's Vtable should consist of C::foo() B::bar()
@ManofOneWay multiple ordinary inheritance is simple but tedious. since C is an A, part of a C object's memory layout must be identical to A. And ditto for B. And this means that a C object does have at least two vtable pointers. One for the A sub-object, and one for the B sub-object. You might try to get hold of Lippman's "Inside the C++ Object Model". I haven't read it but it's recommended by people (even if it's old).
@AlfPSteinbach Wouldn't std::wcout simply emit whatever is "the natural wide character format" on the platform? And wouldn't you have to use a special stream for emitting UTF-8?
When we once needed to write UTF-8 to files, we used narrow streams, passing them std::string(utf8str.begin(), utf8str.end()) for output.
@sbi that's what I thought once. but i learned the hard way that std::wcout's job is to convert from wchar_t down to char sequence... and in Windows, by default that apparently means to Windows ANSI Western, no matter what codepage is active. with visual c++ i could just imbue a locale constructed with a conversion facet, but the standard only guarantees that it's used for file stream buffers. happily now confirmed that __gnu_cxx::stdio_filebuf honers and uses that facet. :-)
@AlfPSteinbach Ok, so it uses "the natural console character format" (which is whatever codepage your system is set on Windows, and UTF-8 in the Linux consoles I have encountered).
@ManofOneWay - what I'm saying is that after downcasting (or in a member function of A or B) they still need to be able to find the virtual member functions that C introduces, even though they know nothing of C
@sbi no, as I said, the narrow text result isn't dependent on codepage. it seems to always be Windows ANSI Western. because it's hardcoded in the runtime library and also to fit the compiler's hardcoding of (compiled) string literals
@awoodland But if an instance of C, c, has a pointer to a vtable containing which functions it will call, and c is downcasted to a pointer of B, b, will not b still contain the pointer to c's vtable?
@sbi but it is interesting in a way. narrow string literals in the code can be almost any encoding, because neither g++ nor visual c++ checks for validity. the bytes are just passed through. however, wide string literals have to be translated.
@MrAnubis no it's been there since C++98. it just a namespace alias.
Gradient descent is a first-order optimization algorithm. To find a local minimum of a function using gradient descent, one takes steps proportional to the negative of the gradient (or of the approximate gradient) of the function at the current point. If instead one takes steps proportional to the positive of the gradient, one approaches a local maximum of that function; the procedure is then known as gradient ascent.
Gradient descent is also known as steepest descent, or the method of steepest descent. When known as the latter, gradient descent should not be confused with the method of ...
it seems short on experts from when I'd looked at it. it also lacks local style guidelines which seem to be 50% or more of a lot of real world code reviews
Windows console windows do unfortunately not support stream i/o of international characters.
E.g., in Windows 7 you can still do chcp 65001 (sets the active code page to UTF-8), type more, and get a crash…
This means that it's practically impossible for a novice to write a "Hello, world!...
Compiler will disregard your opinion on the matter, anyway. If you don't use LTO/LTCG, then for inlining functions must be fully defined in all TUs, though.
@Nils I think I understand the question now. The answer is header. And you can't put the implementation in a separately compiled file: you need to put that also in the header.
@Nils because your main object is to communicate to your later self and other programmers, not to communicate to the compiler. making the compiler understand is the smallest part. that could in principle be done in assembly language.
@awoodland How would it carry that. People would have to have IDs to which "style" they use (meaning their company). Then you'd have to make that anonymous, because I doubt a company wants everyone knowing their coding standards.
I'm guessing that only the first variable is const, but I haven't looked it up, because I just avoid code like that
I mentally divide C++ into two sections: the part that I try to make sure I understand, and the part I just avoid because I'm better off never using it.
and I put stuff like this in the second half
I could look it up, but it's simpler and easier to just write code I can read
buddies, what do this two snippet code mean here?
1.
#define HTTPH(a, b, c, d, e, f, g) char b[] = "*" a ":";
this "*" a ":"
2.
void function(char *p)
{
(void)p;
}
Thanx alot
@Als I think I just said, that it would be appropriate to have the poster split the question themselves. To handle cases where the poster doesn't, mods should have a question split ability.
@cHao: So the q is being closed for 1 question per question but is said as Not a real Q. That is little stupid because by saying second you mean its not a real Q but by first you mean oh no you got 2 valid Q's there so we don't allow it.
@Als look at the description of the reason. "This question is...overly broad...". like i said, there's no reason that specifically means "one question per question"
If that lives in a library though then you end up shipping a library called libmyalgo_float and libmyalgo_double and libmyalgo_complex and libmyalgo_gmp that users are required to link against as appropriate which can be more tedious than just doing it with templates through and through
@Nils - I think there's a cutoff point where it becomes worth while and that for me is derived from the number of types I care about and the number of applications that care about the library. What I've ended up doing in the past is a combination - in the libraries things are generic, but in the applications there is a single typedef.
(with C++11 that becomes very nice because you can suppress the instantiation of common templates and explicitly instantiate them in a pre-built library whilst still allowing for funky types)
extern template was the first C++11 feature I used in anger too - it sped up builds on supporting compilers without breaking anything else at all
NaRQ sounds ridiculous to an outsider when applied to a question that's not in appropriate format. Like so:
what does this snippet mean in linux c
Two questions there, but the NaRQ description makes us literally sound retarded.
"Difficult to tell... cannot be reasonably answered... "
I think i...
Quote from The C++ standard library: a tutorial and handbook:
The only portable way of using templates at the moment is to implement them in header files by using inline functions.
Why is this?
@awoodland: Yesh neither of them actually quotes standards and explains it is okay to separate declaration and definition in header and cpp as long the definition is visible within the same TU.
So probably, there could be a better match
If someone decides to write an new answer or something to address this in better way, this might be useful.
When a function template is used in a way that triggers its instantiation, a compiler(at some point) needs to see that template's definition. And that is the reason, templates are usually implemented inside a header file using inline finctions.
So as long as the above rules gets followed it is s...