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I have the following code, which does some iterator arithmetic:

template<class Iterator>
void Foo(Iterator first, Iterator last) {
  typedef typename Iterator::value_type Value;
  std::vector<Value> vec;
  vec.resize(last - first);
  // ...
}

The (last - first) expression works (AFAIK) only for random access iterators (like the ones from vector and deque). How can I check in the code that the passed iterator meets this requirement?

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6  
You could avoid the check altogether by using distance(first, last). –  Fred Larson Nov 29 '10 at 19:30
    
Thanks, I'll use this. –  Frank Nov 29 '10 at 20:00
    
This might work for your specific use cases, but in general, you can't rely on the 'random access' tag to say that the memory that the iterator points to is sequential. Look at the documentation of Microsoft's concurrent_vector class. Random access only means that you have a [] operator that the iterator understands. Also, how to handle reverse iterators, which are random access? I have a similar question that I posted looking for an answer here: Filtering Iterators –  Kent Knox Jun 18 '12 at 18:26
    
@KentKnox: Who said anything about the memory being sequential? last-first works on all random access iterators, including std::deque::iterator, which is definitely not pointing to sequential memory. –  Mooing Duck May 20 at 19:50

1 Answer 1

up vote 22 down vote accepted

If Iterator is a random access iterator, then

std::iterator_traits<Iterator>::iterator_category

will be std::random_access_iterator_tag. The cleanest way to implement this is probably to create a second function template and have Foo call it:

template <typename Iterator>
void FooImpl(Iterator first, Iterator last, std::random_access_iterator_tag) { 
    // ...
}

template <typename Iterator>
void Foo(Iterator first, Iterator last) {
    typedef typename std::iterator_traits<Iterator>::iterator_category category;
    return FooImpl(first, last, category());
}

This has the advantage that you can overload FooImpl for different categories of iterators if you'd like.

Scott Meyers discusses this technique in one of the Effective C++ books (I don't remember which one).

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2  
hooray for tag dispatching. –  Crazy Eddie Nov 29 '10 at 19:35
    
Indeed, this is precisely the technique used by std::distance in the g++ implementation I'm looking at (4.3.2) –  Fred Larson Nov 29 '10 at 19:46
    
@Fred and std::advance() too. –  wilhelmtell Nov 29 '10 at 20:06
    
Other options include (a) adding a no-op capabilities check (e.g. first + 0;), (b) using explicit template specialization, or (c) overloading with SFINAE. However, I don't think any of these are as clean or straightforward as the tag dispatching approach. –  James McNellis Nov 29 '10 at 20:07

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