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From what I understand, the purpose of size_type and difference_type is not merely the sign -- it was also meant to address e.g. segmented architectures and such, where they might be of different sizes.

With that context, if I have a container with random-access iterators, is it safe for me to perform a static_cast between its difference_type and size_type values at will, on the grounds that end() - begin() must always be equal to size(), when either is casted?

(The use case, for example, is to create a container whose size is equal to the number of elements between two iterators, or the reverse: to copy a container of a certain size onto a range delimited by iterators.)

Anything I should watch out for before casting (e.g. loss of data)?

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Apart from the formatting (it's a table), this is in § 23.2.1: expression: a.size(), return: size_type, operational semantics: distance(a.begin(), a.end()), complexity: constant Is that what you're looking for? distance would be in there somewhere too, presumably making it more specific. –  chris Jul 26 '12 at 0:40
    
@chris: Oh I haven't seen that table... so it seems like going forward is safe. How about the reverse -- how do you go from difference_type to size_type safely? –  Mehrdad Jul 26 '12 at 0:41
    
I have not seen segmented architectures for quite some time already... and if you do, to make your container work you will need to do quite some magic, so can tackle the potential change of types. Note that in some implementations that is exactly how it is handled (i.e. a vector contains three pointers, and size() is the difference between the begin and end pointers. –  David Rodríguez - dribeas Jul 26 '12 at 0:42
    
@Mehrdad, From the same table, looks like size_type covers the positive half of difference_type. –  chris Jul 26 '12 at 0:43
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@Mehrdad, I have a fair chunk. I guess I'll post what I have now. –  chris Jul 26 '12 at 1:05

2 Answers 2

up vote 8 down vote accepted

Here's what the C++11 standard has to say on various things here:

§ 23.2.1

Expression: difference_type
Return Type: signed integer type
Operational Semantics: -
Assertion/note, pre-/post-condition: is identical to the difference type of iterator and const_iterator
Complexity: compile-time

Expression: size_type
Return Type: unsigned integer type
Operational Semantics: -
Assertion/note, pre-/post-condition: size_type can represent any non-negative value of difference_type
Complexity: compile-time

Expression: size()
Return Type: size_type
Operational Semantics: distance(begin(),end()) 
Assertion/note, pre-/post-condition: -
Complexity: constant

Let's make sure size() is equivalent to end() - begin():

§ 24.4.4/4

distance():
Effects: If InputIterator meets the requirements of random access iterator, 
returns (last - first); otherwise, returns the number of increments needed 
to get from first to last

Since your container has random-access iterators, this holds true. That's that. As you can see in the first box,

size_type can represent any non-negative value of difference_type

From that, we have that the cast from difference_type to size_type should be valid for all non-negative values.

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So to clarify, a cast from size_type to difference_type must also be valid, right? (Since it's valid for the maximum value, size()) –  Mehrdad Jul 26 '12 at 6:28
    
@Mehrdad, From the bottom block, size_type looks to be a subset of difference_type. Therefore, a cast from the former to the latter should be valid, as anything in a subset is also in the superset. The other way around requires that the element be checked to make sure it's in the subset. –  chris Jul 26 '12 at 6:43

I don't think it is always safe. This historical issue existed since first specification of C language, where ptrdiff_t is not guaranteed to cover the entire positive range of size_t. For obvious reasons, this issue carries over to the specification of std::vector.

With standard C++ containers, it is guaranteed that size_type covers the non-negative range of difference_type, but the reverse coverage is not guaranteed.

However, the relationship between size() and end() - begin() for a standard container can be guaranteed by other means. The implementation is free to impose its own limitations on the maximum container size, which are exposed through container::max_size() function. It can artificially restrict the maximum size to make sure the subtraction never overflows.

P.S. I'd say that the reason for difference_type's existence is just the sign and nothing else. To be completely "safe" difference_type should be 1 bit longer than size_type. This is often difficult to achieve in practice, which is why it is not required by the language specification.

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To be fair, the only time you need the full range of size_t is when sizeof(T)==1 and the container fills over half of memory. This is rare going on impossible. –  Mark Ransom Jul 26 '12 at 1:13
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@Mark Ransom: That would be true for platforms with flat memory model. I still defiantly keep a special place in my heart for segmented-memory platforms :) –  AnT Jul 26 '12 at 1:46
    
@chris: Actually, I think it is correct as "defiantly". –  Jesse Good Jul 26 '12 at 2:33
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@JesseGood, Oh, that was my misreading "still" for "will", then, lol. It makes much more sense like that. –  chris Jul 26 '12 at 2:39

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