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Why is the return type of std::count a ptrdiff_t?

Since count can never be negative, isn't size_t technically the right choice? And what if the count exceeds the range of ptrdiff_t since the theoretical possible size of an array can be size_t?

EDIT: So far there is no suitable answer as to why the function returns ptrdiff_t. Some explanation gathered from the answers below is that the return type is iterator_traits<InputIterator>::difference_type which is generic and can be anything. Up until that point it makes sense. There are cases where the count may exceed size_t. However, it still does not make sense why the return type is typedef ptrdiff_t iterator_traits<InputIterator>::difference_type for the standard iterators instead of typedef size_t iterator_traits<InputIterator>::difference_type.

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It's iterator_traits<InputIterator>::difference_type according to my documentation. –  Flexo Sep 21 '11 at 18:56
That depends on what type InputIterator is -- it's a template parameter. –  Fred Larson Sep 21 '11 at 18:59
@awoodland - Who says that the iterators have to belong to a container? The sequence could be on disk or part of some network traffic. A user defined iterator could have a difference_type much large than size_t. –  Bo Persson Sep 21 '11 at 19:21
@Samaursa - it's not ptrdiff_t, it's iterator_traits<InputIterator>::difference_type –  Flexo Sep 21 '11 at 19:35
@Samaursa, I presume the standards committee wanted difference_type to be able to specify the difference between any two iterators, even if the difference were negative. –  Mark Ransom Sep 21 '11 at 19:57
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7 Answers

The return type is typename iterator_traits<InputIterator>::difference_type which in this particular case happens to be ptrdiff_t.

Presumably difference_type was selected because the maximum number of matching elements in the range would be the iterator difference last - first.

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Problem is, that difference is only negative if the range is invalid, and using such an invalid range in a standard algorithm is undefined behaviour. –  R. Martinho Fernandes Sep 21 '11 at 19:07
@R. Martinho Fernandes, difference_type is obviously able to contain the complete count under all circumstances, but ptrdiff_t is not - consider the case of an iterator over a file object when the pointer size is only 32 bits. –  Mark Ransom Sep 21 '11 at 19:19
@Mark: "Obviously" how? –  Lightness Races in Orbit Sep 21 '11 at 19:34
@Tomalak, because the count must be less than or equal to the size of the range. This assumes that difference_type is guaranteed to hold the size of the range, which I haven't verified, but I'd be extremely surprised if it was not. –  Mark Ransom Sep 21 '11 at 19:39
@ildjarn, the existence of __far pointers doesn't automatically rule out a guarantee because the difference_type is specialized on the type of iterator. –  Mark Ransom Sep 21 '11 at 19:49
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The std::count() algorithm relies on the iterator type to define an integral type large enough to represent any size of a range. Possible implementation of containers include files and network streams, etc. There is no guarantee that the entire range fits into the process' address space at once, so std::size_t might be too small.

The only integral type offered by the standard std::iterator_traits<> is std::iterator_traits<>::difference_type, which is suitable for representing "distances" between two iterators. For iterators implemented as (wrappers of) pointers, this type is std::ptrdiff_t. There is no size_type or the like from iterator traits, so there is no other choice.

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Originally std::count was:

template <class InputIterator, class EqualityComparable, class Size>
void count(InputIterator first, InputIterator last, 
           const EqualityComparable& value,
           Size& n);

In that function Size is a template parameter. It can be whatever you like, and it's your responsibility to make sure it's correct. It could be the longest type on your platform.

My suspicion is that when the newer form:

template <class InputIterator, class EqualityComparable>
count(InputIterator first, InputIterator last, 
      const EqualityComparable& value);

was added iterator_traits was already in existence, so re-using the existing type had the advantage that it kept the changes to the standard small and localised, compared to adding another typedef in iterator_traits.

Doing it this way, using iterator_traits as opposed to simply using std::size_type means that every possible iterator gets the option to specify exactly what type should be returned by std::count. This includes custom iterators which read from a network, or disk, which can use something much larger than either ptrdiff_t or size_type and friends. (It could be some kind of "BigInt" if needed). It also means that the user isn't responsible for deducing the appropriate type to use though, which can be tricky, precisely because of the custom iterator possibility.

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"This version"? –  Lightness Races in Orbit Sep 21 '11 at 19:42
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size_t is not technically the correct choice, since it might not be big enough. Iterators are permitted to iterate over "something" that is larger than any object in memory -- for example a file on disk. When they do so, the iterator can define a type larger than size_t as its difference_type, if one is available.

difference_type needs to be signed because in contexts other than std::count it represents offsets between iterators in both directions. For random access iterators, it + difference is a perfectly sensible operation even when difference is negative.

iterator_traits doesn't offer an unsigned type. Maybe it should, but given that it doesn't iterator_traits<InputIterator>::difference_type is the best type available.

The issue of whether iterators should offer an unsigned type probably relates to a massive conflict of coding styles, whether unsigned types should be used for counts at all. I don't propose to reproduce that argument here, you can look it up. ptrdiff_t does have a weakness that on some systems it cannot represent all valid pointer differences, and hence also cannot represent all expected results of std::count.

As far as I can tell, even in C++03 the standard actually forbade this, maybe by accident. 5.7/6 talks about subtraction possibly overflowing ptrdiff_t, just like C does. But table 32 (allocator requirements) says that X::difference_type can represent the difference between any two pointers, and std::allocator is guaranteed to use ptrdiff_t as its difference_type (20.1.5/4). C++11 is similar. So one part of the standard thinks that pointer subtraction can overflow ptrdiff_t, and another part of the standard says it can't.

std::count presumably was designed under the same (possibly defective) assumption as the allocator requirements, that ptrdiff_t is big enough to express the size of any object and (in general) an iterator's difference_type can express the count of iterands between any two iterators.

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Even though a count can't be negative, the return type is specified as iterator_traits<InputIterator>::difference_type and the difference between two iterators can be negative.

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Which only begs the question -- why is the return type std::iterator_traits<InputIterator>::difference_type rather than std::size_t? –  ildjarn Sep 21 '11 at 19:01
Sure, I understand the difference can be negative... but that has nothing to with counting... (EDIT: didn't see ildjam's post) –  Samaursa Sep 21 '11 at 19:02
It doesn't answer the question, as std::count doesn't return difference between two iterators. –  Nawaz Sep 21 '11 at 19:02
@ildjarn, difference_type is obviously able to contain the complete count under all circumstances, but size_t is not - consider the case of an iterator over a file object when the pointer size is only 32 bits. –  Mark Ransom Sep 21 '11 at 19:21
@Nawaz: there is no other integral type that can be deduced from the iterator type except for std::iterator_traits<>::difference_type. –  André Caron Sep 21 '11 at 19:34
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If the iterator was an array, it would imply the result is within the range of the array.

For this specific algorithm I can't think of a reason that is interesting. For someone using this as a component it may be interesting, though.

The page does say that it would do something equivalent. So for the case of an array it may do something like a direct pointer difference. This would be a pretty fast specialization if it were applicable.

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difference_type usually denotes the type suitable to denote a distance in an array or similar. The following wording is from the allocator requirements, but whenever the standard talks about difference_type it means the same concept:

a type that can represent the difference between any two pointers in the allocation model

The natural type for this is ptrdiff_t.

For the size_type it says:

a type that can represent the size of the largest object in the allocation model.

The natural type here is size_t.

Now for the count of any elements in a range (or an array) does need at least the type suitable to specify the difference last-first. It seems most natural to chose that one.

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No, it’s not natural at all. size_t can, by definition, also specify the difference last-first. –  Konrad Rudolph Sep 21 '11 at 19:19
@KonradRudolph: Of course size_t can hold the value (when it is positive) but when last and first are pointers, the type is defined to be the same as std::ptrdiff_t is a typedef of. –  PlasmaHH Sep 21 '11 at 19:26
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