my core guess is that the optimization pass to turn if/else recursion into switch/case and then jump table is useful in many places for a long time, and it has been highly tuned.
whereas the approach involving the constexpr function pointer tables, the optimizer probably isn't very mature when it comes to recognizing constexpr values and taking full advantage of them.
And when it comes to constexpr values I would think that 'seeing through' constexpr function pointers to see instead the associated code is not hanging very low on the trees of optimizations worth caring about.
I watched an LLVM talk about optimizer shenanigans recently and you would be quite amazed at how a small difference in what the optimizer is looking for and how well your code fits those patterns can make a massive difference in the generated code.
ISTR that using a function pointer non-type argument is as good as using the actual function. Which does seem to hang very low, even if still uncommon.
@chris Profs will make a difference if you learn from class... but which calc is it? Calc 1 or the limit /series stuff I did well just from class, but calc 3 and 4, had to study hard. Teach didn't make a difference.
Well in my case I think multi-variable calc was part of Calc2, I'd have to look up the class description that was a while ago. I hardly remember what we did in calc 1. I do remember hating it though
After reading Matthieu's answer here, I decided to try this myself.
My attempt fails to compile because SFINAE doesn't kick in and cull the has_foo function which attempts to access T::foo.
error: ‘struct Bar’ has no member named ‘foo’
Am I missing something, or is what I'm attempting to do n...
@Rapptz I knew there were a lot of mac guys because it was originally an Apple project, but it has expanded since then I sort of assumed there would be at least a few windows programmers since, statistically speaking Windows is used a lot.
@MarkGarcia Yes and no. The problem is not to remove preconditions altogether (e.g. std::common<void*, int>::type isn't going to work one way or the other).
@MarkGarcia The choice is between 'supply me with something that I can work with or I'll complain' and 'supply me with something that I can work with or I'll keep mum'.
@Rapptz I don't think there's a real answer. Most people I've seen either require make_array<T>(2, 4, 6, 8.0) or have it fail. I think I'm one of the only fan of being implicit and accepting anything and everything.
Many of the standard library containers have operations that accept a range specified by iterators. For example, std::list::assign(InputIterator first, InputIterator last).
But because many of these operations do not throw exceptions, if the range specified by [first,last) is not valid, it will ...
I never inherit from std::iterator, but I dislike writing iterators altogether -- on the rare occasions I do (without using Boost.Iterator) I have the concept requirements next to me.
error| 'std::Ranges' has not been declared
|| auto last = tuples::foldr(std::move(find_index), std::make_pair(sizeof...(Ranges) - 1, -1), sizes).second;
After reading Matthieu's answer here, I decided to try this myself.
My attempt fails to compile because SFINAE doesn't kick in and cull the has_foo function which attempts to access T::foo.
error: ‘struct Bar’ has no member named ‘foo’
Am I missing something, or is what I'm attempting to do n...
