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I thought that STL containers set and map provide elements in a strict weak ordering. However, I've found that if I get an iterator through find and change element's value through dereferencing, it doesn't restore order, which violates and Here is the code

    int nv = 3;
set<int> s = set<int>();
for(set<int>::const_iterator cit = s.begin(); cit != s.end(); ++cit)
    cout<<*cit<<" ";
cout <<endl;
set<int>::iterator it = s.find(10);
*it = nv;
for(set<int>::const_iterator cit = s.begin(); cit != s.end(); ++cit)
    cout<<*cit<<" ";
cout <<endl;
for(set<int>::const_iterator cit = s.begin(); cit != s.end(); ++cit)
    cout<<*cit<<" ";
cout <<endl;


5 10 20 30
5 3 20 30
5 3 20 30 40

Is it a bug in my version of STL (MS VS 2008)? Or am I wrong?

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6 Answers 6

up vote 4 down vote accepted

set's iterator and const_iterator are both constant iterators. You are not allowed to modify set's values, only removing and inserting.

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No, the code above compiles, links and runs. –  flashnik Jan 7 '11 at 23:07
It can compile only if compiler or library are broken. See, for example, current draft 23.2.4/6: "For associative containers where the value type is the same as the key type, both iterator and const_iterator are constant iterators." –  Gene Bushuyev Jan 7 '11 at 23:10
@flashnik: Yeah, and this looks like it should be a bug in either the STL or your compiler's implementation. In my opinion this shouldn't be allowed to compile. –  Zan Lynx Jan 7 '11 at 23:10
In a C++ 2003 standard there is now such phrase :( I wrote that code just to make absolutely sure that it won't compile, but it did. –  flashnik Jan 7 '11 at 23:14
@flashnik -- it's true '97 standard didn't spell that requirement, but following many discussions on newsgroups it was clearly the intent. So it's a good thing they made it explicit requirement now. –  Gene Bushuyev Jan 7 '11 at 23:18

std::map and std::set only perform ordering on insertion. If you change keys/values of existing items, nothing magic happens, and the result is probably undefined.

To get the desired effect, you must remove the original element, and insert a new one.

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Map doesn't allow to change keys, because it dereferences iterator as pair<const Key, Value>. I hoped that during next insertion set would restore order, for example, but that didn't happen. As a result, this set forever has the disorder :( –  flashnik Jan 7 '11 at 23:06
@flashnik: You could write a map-like container that does reorder the whole tree every time, but that would be incredibly slow. –  Oliver Charlesworth Jan 7 '11 at 23:07
I'd better wanted to get a compilation/runtime error or exception in a code above :( –  flashnik Jan 7 '11 at 23:10
@flashnik -- then you need to update your compiler/library –  Gene Bushuyev Jan 7 '11 at 23:15

Looks like a bug in that version of STL.

On my g++ I get the following error:
t2.cpp:18:8: error: assignment of read-only location ‘it.std::_Rb_tree_const_iterator<_Tp>::operator* [with _Tp = int, const _Tp& = const int&]()’

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Thank you, I didn't have a gcc to check. It's very good that they treat that as error. –  flashnik Jan 7 '11 at 23:29

In general case you can't modify the key portion of the associative container element through the iterator. The code simply will not compile.

If your implementation of standard library allows the *it = nv assignment, it must be a quirk of that implementation. AFAIK, it is not strictly illegal to allow this assignment to compile. It is more of a quality-of-implementation issue.

The assignment will not compile with Comeau implementation. MS implementation is apparently less restrictive.

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Changing an element in a std::set can violate the internal ordering and corrupt your data structure. Only some STL implementations protect against this by disallowing modifications to what the iterator points to, so you'll have to enforce that constraint yourself.

It's like writing past the logical end of a std::vector by calling reserve (to make room) and using pointer arithmetic - you can do it, but it'll corrupt your std::vector.

If you want to change an element in a set, this should work:

std::set<int> my_set;

// initialize my_set ...

std::set<int>::iterator itr = my_set.find(10);
if (itr != my_set.end()) {
    my_set.erase(itr++); // ++ avoids invalidating iterator

You only need to post-increment itr if you want to keep using it.

(source: Effective STL, "Item 22," Scott Meyers)

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C++ is the best language to shoot yourself in a leg. Thank you for the citation. –  flashnik Jan 7 '11 at 23:37
No problem! I highly recommend all three of his books. They explore tons of pitfalls in all different aspects of C++. –  Toolbox Jan 7 '11 at 23:52
I've read them but didn't remember such case. As I mentioned, I hoped that it's forbidden to write such code but as Gene Bushuyev pointed it'll appear only in C++0x and now some compilers forbid, some not. –  flashnik Jan 7 '11 at 23:54

std::map and std::set don't provide a strict weak ordering, they require one. You have to provide the ordering (the default is std::less which is appropriate for int).

If you change the way an element of a set or map is ordered then you are breaking the requirement as the ordering is not stable.

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