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In this question it was explained that std::for_each has undefined behavior when given an invalid iterator range [first, last) (i.e. when last is not reachable by incrementing first).

Presumably this is because a general loop for(auto it = first; it != last; ++it) would run forever on invalid ranges. But for random access iterators this seems an unnecessary restriction because random access iterators have a comparison operator and one could write explicit loops as for(auto it = first; it < last; ++it). This would turn a loop over an invalid range into a no-op.

So my question is: why doesn't the standard allow std::for_each to have well-defined behavior on invalid random access iterator ranges? It would simplify several algorithms which only make sense on multi-element containers (sorting e.g.). Is there a performance penalty for using operator<() instead of operator!=() ?

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are you looking for an answer or discussion on this? – Rohit Feb 7 '12 at 9:55
There are proper answers to this question (+1). So, it does fit on SO, and the current three responses do as well. But indeed, please avoid non-answers. – MSalters Feb 7 '12 at 10:23

3 Answers 3

up vote 2 down vote accepted

This would turn a loop over an invalid range into a no-op.

You seem to be saying that operator< should always return false for two random-access iterators that are not part of the same range. That's the only way your specified loop would be a no-op.

It doesn't make sense for the standard to specify this. Remember that pointers are random-access iterators. Think about the implementation burden for pointer operations, and the general confusion caused to readers, if it were defined that the following code print "two":

int a[5];
int b[5]; // neither [a,b) nor [b,a) is a valid range
if ((a < b) || (b < a)) {
    std::cout << "one\n";
} else {
    std::cout << "two\n";

Instead, it is left undefined so that people won't write it in the first place.

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That's very insightful and precisely the answer to the misconception underlying my question. I was simply thinking of begin + N is "obviously" past end if there are less than N elements in the container. But this would require that an iterator knows that it came from an advance(it, N) on a valid iterator it, and this would be very expensive to keep track of. – TemplateRex Feb 7 '12 at 10:36

This would turn a loop over an invalid range into a no-op.

That's not necessarily the case.

One example of an invalid range is when first and last refer to different containers. Comparing such iterators would result in undefined behaviour in at least some cases.

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I know, but why? Random access iterator can detect whether the range is invalid by using comparison. The undefined behavior is unnecessarily restrictive. – TemplateRex Feb 7 '12 at 9:59
@rhalbersma: "Random access iterator can detect whether the range is invalid by using comparison". This is false. It is UB to invoke operator< on two random-access iterators that are not in the same range. The rest of your argument falls because the premise does. – Steve Jessop Feb 7 '12 at 10:05
@rhalbersma random access iterator may or may not be able to detect if the range is invalid. Don't forget, T* is a valid random access iterator. And for two T*, p1 < p2 does not mean that all pi between them are valid. – James Kanze Feb 7 '12 at 10:08
OK, thanks, I understand now. Any for_each(begin + N, end, fun) is only safe with at least N elements in the container, and with less elements there is not a no-op but undefined behavior. – TemplateRex Feb 7 '12 at 10:27
@rhalbersma: in that case the UB occurs as soon as you do begin()+N, if there aren't at least N elements. It makes no difference which comparison you use in the algorithm, since the addition is already invalid. – Steve Jessop Feb 7 '12 at 10:35

Because that's the general policy. All using < would allow is things like:

std::for_each( v.begin() + 20, v.begin() + 10, op );

Even with <, passing an invalid iterator, or iterators from different containers, is undefined behavior.

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