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I thought that the correct type to use to store the difference between pointers was ptrdiff_t.

As such, I'm confused by the way that my STL (msvc 2010) implements it's std::vector::size() function. The return type is size_t (this is mandated by the standard, as far as I understand it) and yet it's computed as the difference of pointers:

// _Mylast, _Myfirst are of type pointer
// size_type, pointer are inherited from allocator<_Ty>
size_type size() const 
    return (this->_Mylast - this->_Myfirst);

Obviously, there's a bit of meta-magic that goes on in order to determine exactly what types size_type and pointer are. In order to be "sure" what types they are I checked this:

bool bs = std::is_same<size_t, std::vector<int>::size_type>::value;
bool bp = std::is_same<int * , std::vector<int>::pointer>::value;
// both bs and bp evaluate as true, therefore:
//   size_type is just size_t
//   pointer is just int*

Compiling the following with /Wall gives me a signed-to-unsigned mismatch for mysize2, but no warnings for mysize1:

std::vector<int> myvector(100);
int *tail = &myvector[99];
int *head = &myvector[ 0];
size_t mysize1 = myvector.size();
size_t mysize2 = (tail - head + 1);

Changing the type of mysize2 to ptrdiff_t results in no warning. Changing the type of mysize1 to ptrdiff_t results in an unsigned-to-signed mismatch.

Obviously I'm missing something...

EDIT: I'm not asking how to suppress the warning, with a cast or a #pragma disable(xxx). The issue I'm concerned about is that size_t and ptrdiff_t may have different allowable ranges (they do on my machine).

Consider std::vector<char>::max_size(). My implementation returns a max_size equal to std::numeric_limits<size_t>::max(). Since vector::size() is creating an intermediate value of type ptrdiff_t before casting to size_t it seems that there could be problems here - ptrdiff_t is not big enough to hold vector<char>::max_size().

share|improve this question
missing static_cast<> ? – iammilind Jul 19 '11 at 3:11
(size_t) (tail - head + 1); fix the warning? Is it not? – user90150 Jul 19 '11 at 3:15
@iammilind, GS: Thanks, but not looking for a cast - see my edit. – Darren Engwirda Jul 19 '11 at 3:37
up vote 5 down vote accepted

Generally speaking, ptrdiff_t is a signed integral type of the same size as size_t. It must be signed so that it can represent both p1 - p2 and p2 - p1.

In the specific case of the internals of std::vector, the implementor is effectively deriving size() from end() - begin(). Because of the guarantees of std::vector (contiguous, array based storage), the value of the end pointer will always be greater than the value of the begin pointer, and thus there is no risk of generating a negative value. In fact, size_t will always be able to represent a larger positive range than will ptrdiff_t, as it doesn't have to use half its range to represent negative values. Effectively, this means that the cast in this case from ptrdiff_t to size_t is a widening cast, which has well defined (and intuitively obvious) results.

Also, note that this is not the only possible implementation of std::vector. It could just as easily be implemented as a single pointer and a size_t value holding the size, deriving end() as begin() + size(). That implementation would also resolve your max_size() concern. In reality, max_size is never actually attainable--it would require your program's entire address space to be allocated for the vector's buffer, leaving no room for the begin()/end() pointers, function call stack, etc.

share|improve this answer
Basically agree, but, in the vector<char> case I think ptrdiff_t overflows once the vector is >= 2GB, which is not the whole address space (on my 32bit machine), so you could actually have a problem here in practice, right?? Fully agree the "other" vector implementation you discuss would be robust in this case. – Darren Engwirda Jul 19 '11 at 4:33
I don't think it's a problem in practice because the semantics of signed/unsigned casts are well defined and value-preserving in this case. You're not going to get a runtime exception in C++ for any of those operations, so that just leaves the compile-time warning that MS has #pragma'd out in this case. – Drew Hall Jul 19 '11 at 4:51
@Drew: It is true that a negative number casts to unsigned in a well-defined way, but if the subtraction itself overflows a signed integer, I do not think the result is guaranteed by the spec. However, any particular implementation of the library is free to depend on implementation details of the compiler, since they are bundled. So if this compiler ensures math mod 2, the implementation is fine; that is the point. – Nemo Jul 19 '11 at 5:06
@Drew, Nemo: So if you take the difference of two pointers the intermediate result is always ptrdiff_t. If the allocation was large enough, the subtraction may overflow, and (assuming 2's complement integer behaviour) you'll end up with a -ve intermediate. At this point casting to size_t is "value preserving" and you'll end up with the correct +ve size_t result in the end. But this is entirely dependent on 2's complement ptrdiff_t overflow behaviour. Have I got it straight?? – Darren Engwirda Jul 19 '11 at 5:15
The std::vector code is part of the implementation, and may depend on other parts of the implementation. Therefore, the MSVC vector can use conversions that are specific to MSVC. – MSalters Jul 19 '11 at 9:15

There is nothing wrong with how std::vector::size() is implemented in STL. The this->_Mylast - this->_Myfirst == vector size is mere an coincidental fact which relies on how the vector is implemented.

Plus MSVC STL vector implementation has an #pragma warning(disable: 4244) which removes the warning.

share|improve this answer
I hardly think that turning the warning off resolves the underlying issues. size_t and ptrdiff_t may have different allowable ranges (they do on my 32bit machine at least), where max(ptrdiff_t) is half of max(size_t) – Darren Engwirda Jul 19 '11 at 3:27
@Darren Since the code is written by the implementors they are well within reason to rely on the implicit conversion. – Luc Danton Jul 19 '11 at 4:02
@Luc: As per my edit, it seems that ptrdiff_t is not large enough to hold vector<char>::max_size. How is it ok to rely on a silent cast?? Isn't there an overflow issue here?? – Darren Engwirda Jul 19 '11 at 4:07
@Darren Because they are the implementors. They can know better than the C++ specs -- they're implementing it. – Luc Danton Jul 19 '11 at 4:10

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