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I was just wondering, since you can only pass random access iterators to std::sort anyway, why not enforce that restriction by defining it only for random access iterators in the first place?

#include <iterator>
#include <type_traits>

template <typename ForwardIterator>
typename std::enable_if<
        typename std::iterator_traits<ForwardIterator>::iterator_category,
::type sort(ForwardIterator begin, ForwardIterator end)
    // ...

I find a single line error message a lot easier to read than pages and pages of error messages resulting from type errors far down in the implementation.

You could do the same with other algorithms. The standard C++ core language has always been expressive enough for that task, right? So, any particular reason why this was not done?

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I suspect: no enable_if in C++03, and generally most applications of TMP were rudimentary at the time of the deadline for inclusion of significant features in the standard, which would have been 1997-ish. – Steve Jessop Jan 22 '11 at 16:11
@FredOverflow: quite, so the fact that it isn't there strongly suggests to me that this area wasn't well-developed. Another possibility is to support use of sort with iterators which actually are random-access, but which under-estimate their category. Nowadays you expect people to be able to get iterator categories right, maybe not so much in 1997, so perhaps at the time is was useful that the standard doesn't require that incorrectly-tagged iterators are rejected by sort. – Steve Jessop Jan 22 '11 at 16:16
@Oswald: yes it does. iterator_traits is partially specialized for pointers. – Steve Jessop Jan 22 '11 at 16:17
Surely this is just a QoI issue? The standard specifies an interface, not an implementation; it just requires the implementation provide a sort that works with random access iterators. It shouldn't matter to conforming code whether the implementation provides a specialization for bidi iterators as an extension, whether it provides an "improved" compile error if you try to use a bidi iterator with sort or whether it just lets the "natural" error message fall through. – Charles Bailey Jan 22 '11 at 16:34
@James: yes, 24.3.1/1 says, "it is required that if Iterator is the type of an iterator, the types (blah blah) be defined". I think this should be taken as part of the definition of the word "iterator" as used anywhere else in the standard, so when std::sort (actually, the algorithms section in general, 25/4) says that its parameters are iterators, that means it's undefined to call it with something that isn't one. – Steve Jessop Jan 22 '11 at 18:20
up vote 6 down vote accepted

The core language has always been expressive enough to handle such checks, but when the first standard was being prepared (around 1996/1997), the tricks that you can play with SFINAE (what enable_if is based upon) were not yet known and the support for advanced template wizardry was limited in the compilers.

So, the reason why the standard did not mandate it was because the needed techniques were not invented yet.
The reason why compiler/library writers did not add it after the fact is probably just plain economics: not enough people asked for the feature, and when people did start asking for better diagnostics, hope was on the concepts proposal to take care of it. Unfortunately, this proved to be a bit too hard to get finalised in time.

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hopefully it'll make it into the next standard and we'll have it in 2020... – Matthieu M. Jan 24 '11 at 15:26

My guess is that SFINAE was invented (or discovered) after the standard library implementations had reached a certain maturity. After that, changes to the core library had to be very justified in order to prevent the introduction of regressions and I guess that mere cosmetics are somewhat hard to justify.

That said, the GCC for example already does have a lot of diagnostics for template-related error messages, e.g. macros that perform a kind of concept checking. For example, the GCC-libstdc++ has the following:

// concept requirements
__glibcxx_requires_valid_range(__first, __last);
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One needs some sort of #define to turn those checks on? - However, last time I tried to use those, the error messages didn't appear to improve much, if not the contrary... – UncleBens Jan 22 '11 at 16:27
@Uncle: I see. Interesting. Do you know why it’s off by default? The reason isn’t documented in the bits/concept_check.h file. One comment suggests that the author of the concept checking wasn’t sure whether the compiler was smart enough to elide the runtime overhead of the checks. Looking at the code it is clear that the compiler will do this, however. Then again, the code is from 2000. Perhaps the compiler’s dead code elimination was really that stupid back then. – Konrad Rudolph Jan 22 '11 at 16:39
there is a mix of static and runtime checks here, the "valid_range" test is done at runtime for example, so it may explain why it's disabled by default. – Matthieu M. Jan 24 '11 at 15:25
@Matthieu: you are right, of course. I completely failed to notice that check – arguably it’s very bad of GCC to throw these different checks in together. – Konrad Rudolph Jan 24 '11 at 15:33
I agree, it would make sense to distinguish the two categories. – Matthieu M. Jan 24 '11 at 15:43

Actually, when there is only one overload of an algorithm, you'll nearly always get better diagnostics by causing a compilation error just inside using something like Boost.ConceptCheck or __glibcxx_function_requires. When SFINAE (which is what enable_if uses) leaves you with an empty overload set, most compilers simply tell you "there's no matching function," which tends not to be very helpful.

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One of the nice things about templates in C++ is they can have a sort of static 'duck typing'. I can't speak for this particular case, but in many templates, as long as you keep the interface the same, all the hierarchy nonsense doesn't matter. And that's a good thing.

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That doesn't answer the question – jalf Jan 23 '11 at 17:43

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