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Given a particular stl collection in C++, is the end() value equivalent for all instances of the same templatization? In other words, will the following work for all stl containers and circumstances (not just for std::map)?

std::map<Key, Value> foo(int seed);

std::map<Key, Value> instance1 = foo(1);
std::map<Key, Value> instance2 = foo(2);
std::map<Key, Value>::iterator itr = instance1.begin();
std::map<Key, Value>::iterator endItr = instance2.end(); // Comes from other collection!

for (; itr != endItr; ++itr) {
  // Do something on each key value pair...
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Might work in a particular implementation, but you can only count in it for types that create an "end" iterator with the default ctor (e.g., std::istream_iterator). Even inn these cases, nothing guarantees it directly. –  Jerry Coffin Jan 29 '13 at 21:03
If this works, consider yourself unlucky. That's clearly a bug in your code. I thought MSVC would detect this type of iterator misuse but perhaps that's only checked iterators. –  Steve Townsend Jan 29 '13 at 21:04
@SteveTownsend: I thought this is guaranteed to work on MSVC because they implement SCARY iterators. –  Jesse Good Jan 29 '13 at 21:53
@Jesse: Not quite. SCARY iterators allow you to mix iterator types regardless of the comparator/allocator types, so that std::map<K,V>::iterator is the same type as std::map<K,V, custom_compare>::iterator, but it doesn't mean that the end iterators from the two maps have identical values. –  Dave S Jan 29 '13 at 22:53
@DaveS: Ah, right, SCARY iterators is only talking about type equivalence and not value equivalence. Thanks for the correction. –  Jesse Good Jan 29 '13 at 23:44

3 Answers 3

up vote 6 down vote accepted

No, because of the STL container and iterator requirements:

23.2.1 General container requirements [container.requirements.general]

6 begin() returns an iterator referring to the first element in the container. end() returns an iterator which is the past-the-end value for the container. If the container is empty, then begin() == end();

24.2.1 In general [iterator.requirements.general]

6 An iterator j is called reachable from an iterator i if and only if there is a finite sequence of applications of the expression ++i that makes i == j. If j is reachable from i, they refer to elements of the same sequence.

The equality of begin() and end() for empty containers means that begin() and end() need to be part of the same container objects, and hence end() cannot be a static member of a container class. Note also that -except for forward iterators- applying operator-- on end() would be impossible to resolve with a static end() iterator.

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How do you know that doesn't work? What if std::map::end returns an object which is the same for all maps of a certain specialization? –  mfontanini Jan 29 '13 at 21:05
@mfontanini: Can we not just consider undefined behavior synonymous with "not working"? Do we have to spell it out every time? –  Benjamin Lindley Jan 29 '13 at 21:06
@BenjaminLindley well, it's a legitimate question and in the end the Standard spells it out –  TemplateRex Jan 29 '13 at 21:31
begin does not have to be the same as end in order to compare equal... –  K-ballo Jan 29 '13 at 21:32
@K-ballo why not? example please –  TemplateRex Jan 29 '13 at 21:35

In general, no, that is not portable. It may work by coincidence on some platform.

There are end-iterators that can be re-used for different ranges, such as the default-constructed istream_iterator:

ifstream a("foo.txt");
ifstream b("bar.txt");
istream_iterator<string> end;
istream_iterator<string> ia( a);
istream_iterator<string> ib( b);
// from here on both [ia, end> and [ib, end> are valid ranges.
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Try it yourself:

#include <map>
#include <iostream>
using namespace std;
map<int,int> m1;
map<int,int> m2;

int main() {
  cout<<(m1.end() == m2.end())<<endl;



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