std::getline is a function template that looks like this:
template< class CharT, class Traits, class Allocator >
std::basic_istream<CharT,Traits>& getline( std::basic_istream<CharT,Traits>& input,
std::basic_string<CharT,Tr...
@PaulManta That reminds me, I need to finish writing that answer.
@Xeo The answer was left there written, waiting for me to press "Post" while I discussed with Luc. If @Paul didn't mention it, it would still be waiting...
Edit: Moved my guesswork to the bottom, here comes the normative text why this won't work. TL;DR version:
No conversions allowed if the function parameter contains a deduced template parameter.
ยง14.8.3 [temp.over] p1
[...] When a call to that name is written (explicitly, or implicitly...
Dupe of this, btw
And I finally realized why my answer was considered wrong
I wrote the same as you, @RMartinho, i.e. that no conversions are allowed. Fact is, standard conversion sequences are allowed, just no user-defined ones.
@RMartinhoFernandes Come to think of it tuples::apply doesn't work with void returns anyway so maybe it's not worth fussing about all that? I could have a utility that wraps a functor to make it return an empty type in case of void, too, to shift the burden to client code.
Or I could do that in invoke actually, which is (should be) used by all of my generic code that, well, invokes functors.
Oh, and I personally think that UCSs through conversion operators should be allowed in template argument deduction, if the conversion operator isn't templated.
Since those would yield an exact match
As in the string type / getline example
I can understand why conversions through constructors are a no-go, as that would equal to the halting problem, but conversion operators should work perfectly fine if not templated
'Fixable' with a (sigh) specialisation for the iterator though.
@CheersandhthAlf apply(f, tuple) returns a tuple containing the values obtained from applying f to each element of the tuple. What to do when the return type is void for some element type?
Getting back to apply(f, tuple) I think it's not a good idea to drop elements as I want the identity get<I>(apply(f, tuple)) == f(get<I>(tuple)) to hold, so I do have to provide a 'dummy' type in the return type.
> 1972 - Dennis Ritchie invents a powerful gun that shoots both forward and backward simultaneously. Not satisfied with the number of deaths and permanent maimings from that invention he invents C and Unix.
@Pubby what would that mean anyways? I interpret that as definition of foo followed by undefined identifier bar. I guess it's a holdover from C's inline struct definitions...
@LucDanton Yes. I think the only thing that's needed is some way to instantiate that beast. Or rather one's own Tuple. But to have get<k>(t) be a void. To instantiate, simply some internal type and function producing that type.
"Twisted Standard Library", for Twisted C aka CTwist. Think of the twist as an infinity symbol merged with the letter "C", and an opening at the top of the "C".
@RMartinhoFernandes uhu, I can see the use of that. How does integer <> double stuff work then. I take it floating point types are "better" than int's, so that 3/5 is not equal to 1?
@DeadMG Aw, too bad, But then, you're too young for nostalgia anyway. Plus you're probably not the type who reads anything but computer literature. I shoudda know, really.
@Pubby First, you're aware that writing void foo(int); and void foo(float) is acceptable here right? We're using int and float for the sake of an example.
@DeadMG I think I remember hearing about the number of books presented at the Frankfurt Book Fair in one year and calculating that you'd be unable to read them all within several lifetimes even if you read one book per day. Given that the publishers will only bring their best books to a fair, it's easy to see that 99.999% of all books published cannot contain much (or anything) new. That still leaves quite a lot of interesting new stuff to read, though.
@RMartinhoFernandes that's weird. /tmp or %TEMP% should only be used for intermediate assembly files or some cruft when linking. These files should disappear as soon as the gcc call is finished.
@Mysticial: Just the person I wanted! I wrote this test to time various answers to some question. It tests a baseline and several functions and times them. Seems to work fine in VC++, but when I compile with G++ (MinGW) the baseline takes ~4x as long, and the tests all run faster than the baseline. Could you offer me a tip as to what I did wrong this time?
@Mysticial with VC++, tests are 2-4s, each plus or minus .005s or so, with GCC tests are 17-19s, haven't tested enough to estimate variance much. No worse than plus or minus a second
Of all the code samples there, some have longer dependency chains, but you can run like 5 of them in parallel. Some are faster, but less amenable to ILP...