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Consider an input iterator like join_iterator: it iterates over the concatenation of other ranges. Calling ++i repeatedly can be much slower than a simple i += n.

Nevertheless, most C++ code that requires advancing an iterator by an arbitrary amount uses std::advance, which automatically resorts to calling ++i when the iterator isn't random-access.

(Sadly, most people use std::advance(i, n) instead of using std::advance; advance(i, n), so I can't just supply advance for my iterator and rely on ADL.)

On the other hand, I can't use + or += because input iterators don't have to implement them.

So the question is: how would I go about supporting such a scenario, when:

  • Implementing such an iterator?

  • Using an input iterator which might have an optimized operator +=?

(Note that advance and + isn't the only scenario in which this matters -- distance and - has the same problem.)

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@MichaelAaronSafyan: Well, it's because everyone seems to use std::advance instead of advance, so even if I provide it, it won't actually be used. –  Mehrdad May 21 '13 at 6:37
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@MichaelAaronSafyan: Yes, I do need this fast iteration. (Yes, I actually know ++ is too slow.) I've come across both situations myself -- writing the iterator itself, as well as writing algorithms that would benefit from such an optimized iterator. I'd like to know how to properly handle both cases: i.e., both how to provide and consume such an iterator. –  Mehrdad May 21 '13 at 6:42
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@Mehrdad True, but we would specialize a template, not overload a function (I think). Cf. stackoverflow.com/a/14403772/777186 –  jogojapan May 21 '13 at 6:50
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@jogojapan: Ah, partial function specialization works for C++11 though, and most iterators are templated so they would need partial specialization instead of full specialization, right? What would I do about C++03? –  Mehrdad May 21 '13 at 6:51
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@Mehrdad You are right. My solution would only work if you specialize std::advance for both template parameters, i.e. specialize it explicitly. And that's no good because you can't (or wouldn't want to) anticipate all possible integer types for the second parameter. –  jogojapan May 21 '13 at 7:01

1 Answer 1

According to C++11 §24.4.4,

Since only random access iterators provide + and - operators, the library provides two function templates advance and distance. These function templates use + and - for random access iterators (and are, therefore, constant time for them); for input, forward and bidirectional iterators they use ++ to provide linear time implementations.

You should only have to define + and -, and specify std::random_access_iterator_tag. There is no need to specialize or overload std::advance.

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That would be lying though -- the iterator isn't random-access. –  Mehrdad May 21 '13 at 7:25
    
Huh? Where did I say constant time? o_O –  Mehrdad May 21 '13 at 7:25
    
@Mehrdad Ah, I see. Still, if there's any potential gain, some underlying subranges must be random-access. I'd suggest simply telling that lie. The complexity guarantee is violated in mathematical terms, but it's the only way to get client code to pay attention to the "random-access" operators. –  Potatoswatter May 21 '13 at 7:29
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The problem with lying is that that leaves collateral damage! For example, making it random-access requires me to implement operator-- too -- but I usually can't. Which means that any existing code that has different (e.g. optimized) behavior for random-access iterators (perhaps by using operator-= or operator+= with a negative argument) now completely fails to work with my iterators at all... and lest you think that's far-fetched, Visual C++ uses a different algorithm for std::rotate depending on whether or not the iterator is random-access. –  Mehrdad May 21 '13 at 7:32
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@Mehrdad That's unfortunate… I personally rewrote GCC's (libstdc++-v3) std::rotate, back in 2009, because the random-access style is universally slower than the forward-only style. The next better way to lie would be a derived or proxy iterator to add the random access tag to the "truthful" class, so the hack can be judiciously applied. I can't think of another solution without performance and storage penalties. –  Potatoswatter May 21 '13 at 8:18

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