In example code, I often see code such as *it++ for output iterators. The expression *it++ makes a copy of it, increments it, and then returns the copy which is finally dereferenced. As I understand it, making a copy of an output iterator invalidates the source. But then the increment of it that is performed after creating the copy would be illegal, right? Is my understanding of output iterators flawed?

  • Why would copying an iterator (output or otherwise) invalidate it? Don't we routinely do this when we say things like: vector<int>::iterator it(container.begin()); – Adrian McCarthy Oct 22 '10 at 23:05
  • @Adrian: For example, the SGI documentation says: "There should be only one active copy of a single Output Iterator at any one time. That is: after creating and using a copy x of an Output Iterator y, the original output iterator y should no longer be used." I'm not exactly sure what "using" an output iterator means in this context, though. Dereferencing? Incrementing? – fredoverflow Oct 22 '10 at 23:10
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    I see the implication that after out_iterator a(b);, b might not be valid in the SGI documentation like you said, but nothing in C++03 hints at it. But since both the SGI page and C++03 explicitly say the expression *it++ = value must be valid, that requirement overrides any other concerns about that use. – aschepler Oct 22 '10 at 23:15

The expression *it++ does not (have to) make a copy of it, does not increment it, etc. This expression is valid only for convenience, as it follows the usual semantics. Only operator= does the actual job. For example, in g++ implementation of ostream_iterator, operator*, operator++ and operator++(int) do only one thing: return *this (in other words, nothing!). We could write for example:

it = 1;
it = 2;
*it = 3;
++it = 4;

Instead of: *it++ = 1; *it++ = 2; *it++ = 3; *it++ = 4;

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    This is the answer that gave me an aha-moment, hence I'm selecting it as the correct one. – fredoverflow Oct 23 '10 at 15:14
  • You should probably make it clear that the first example only works because you know the implementation and the second example is the proper way to use an output iterator. – Dingo Oct 23 '10 at 19:09
  • @Dingo: if I understand correctly the standard, it is not implementation dependant but well defined for ostream_iterator. So in the general case it can't be required that *it++ does a copy, etc. – rafak Oct 28 '10 at 17:11
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    The standard says in the section about osteram_iterator: "Its only use is as an output iterator in situations like while (first != last) *result++ = *first++;" The fact that your examples, it = 2;, *it = 3;, and ++it = 4;, work is because of the implementation, not because the standard specifies it. – Dingo Oct 28 '10 at 23:10
  • @Dingo: OK, I didn't know the phrase you cite meant "it is the only possible use, you can't use *result or result++... When I read the "ostream_iterator operation" part (, I interpreted the absence of "Effects" specification as: "does nothing". – rafak Oct 29 '10 at 8:59

The standard requires that *r++ = t work for output iterators (24.1.2). If it doesn't work, it's not an output iterator by the standard's definition.

It is up to the iterator implementation to make sure such statements work correctly under the hood.

The reason that you shouldn't keep multiple copies of an output iterator is that it has single pass semantics. The iterator can only be dereferenced once at each value (i.e. it has to be incremented between each dereference operation). Once an iterator is dereferenced, a copy of it cannot be.

This is why *r++ = t works. A copy is made of the original iterator, the original iterator is dereferenced and the copy is incremented. The original iterator will never be used again, and the copy no longer references the same value.

  • Don't you mean t = *r++ ? – Daniel Rodriguez Oct 22 '10 at 23:08
  • @Seth No. The original question specified output iterators. – Dingo Oct 22 '10 at 23:14
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    @Seth: No, *r++ = t is how you use an output iterator. The other way around is not even required to compile. – aschepler Oct 22 '10 at 23:17
  • +1 Definitely more correct than my answer, and a good explanation of what's going on. – Omnifarious Oct 23 '10 at 3:00
  • @aschepler: thanks for the information. – Daniel Rodriguez Oct 24 '10 at 1:41

Output iterators just don't work like normal iterators and their interface is specified so that they can be used in pointer-like expressions (*it++ = x) with useful results.

Typically, operator*(), operator++() and operator++(int) all return *this as a reference and output iterators have a magic operator= which performs the expected output operation. Because you can't read from an output iterator, the fact that operator*() etc., don't work as for other iterators doesn't matter.


Looking at your comment, it seems that most of the confusion arises from the SGI documentation, which I'd say is a bit misleading on this point.

Copying an output iterator does not invalidate the copied iterator. The real limitation is pretty simple: you should only dereference a given value of output iterator once. Having two copies at a time, however, is fine as long as you only dereference once of them while they have the same value. In a case like there where you're dereferencing one, then throwing away its value, and incrementing the other but only dereferencing it after the increment has happened, it's all perfectly fine.


Isn't an iterator just a pointer? Incrementing, then dereferencing it just moves on to the next element.

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    No, iterators are not just pointers. – James McNellis Oct 22 '10 at 22:57
  • They can be dereferenced, just like a pointer, this may be casing you confusion, but no, they are not only pointers, they hold a pointer to an element, among other things. Here is a sample implementation of an iterator: accu-usa.org/Listings/2000-04-Listing01.html – Daniel Rodriguez Oct 22 '10 at 23:12
  • Ah, I see. I've never seen the point in iterators, and I've never needed them. – Alexander Rafferty Oct 22 '10 at 23:43

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