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I'm working with iterators on C++ and I'm having some trouble here. It says "Debug Assertion Failed" on expression (this->_Has_container()) on line interIterator++. Distance list is a vector< vector< DistanceNode > >. What I'm I doing wrong?

vector< vector<DistanceNode> >::iterator externIterator = distanceList.begin();

   while (externIterator != distanceList.end()) {

    vector<DistanceNode>::iterator interIterator = externIterator->begin();

        while (interIterator != externIterator->end()){

          if (interIterator->getReference() == tmp){

     //remove element pointed by interIterator

          } // if
  } // while
   } // while      
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It's not the cause of the error, but you should use pre-increment to advance your iterators - ++interIterator. –  markh44 Apr 28 '10 at 10:28
Not that it really matters performance wise, it's optimized away by most compilers. –  Matthieu M. Apr 28 '10 at 11:18

3 Answers 3

vector's erase() returns a new iterator to the next element. All iterators to the erased element and to elements after it become invalidated. Your loop ignores this, however, and continues to use interIterator.

Your code should look something like this:

if (condition)
    interIterator = externIterator->erase(interIterator);
    ++interIterator;  // (generally better practice to use pre-increment)
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Thanks, this helped a lot with my own problem. –  Gio Borje May 30 '10 at 4:38

You can't remove elements from a sequence container while iterating over it — at least not the way you are doing it — because calling erase invalidates the iterator. You should assign the return value from erase to the iterator and suppress the increment:

while (interIterator != externIterator->end()){
   if (interIterator->getReference() == tmp){
       interIterator = externIterator->erase(interIterator);             
   } else {

Also, never use post-increment (i++) when pre-increment (++i) will do.

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I'll take the liberty to rewrite the code:

class ByReference: public std::unary_function<bool, DistanceNode>
  explicit ByReference(const Reference& r): mReference(r) {}
  bool operator()(const DistanceNode& node) const
    return node.getReference() == r;
  Reference mReference;

typedef std::vector< std::vector< DistanceNode > >::iterator iterator_t;

for (iterator_t it = dl.begin(), end = dl.end(); it != end; ++it)
     std::remove_if(it->begin(), it->end(), ByReference(tmp)),

Why ?

  • The first loop (externIterator) iterates over a full range of elements without ever modifying the range itself, it's what a for is for, this way you won't forget to increment (admittedly a for_each would be better, but the syntax can be awkward)
  • The second loop is tricky: simply speaking you're actually cutting the branch you're sitting on when you call erase, which requires jumping around (using the value returned). In this case the operation you want to accomplish (purging the list according to a certain criteria) is exactly what the remove-erase idiom is tailored for.

Note that the code could be tidied up if we had true lambda support at our disposal. In C++0x we would write:

std::for_each(distanceList.begin(), distanceList.end(),
  [const& tmp](std::vector<DistanceNode>& vec)
      std::remove_if(vec.begin(), vec.end(),
        [const& tmp](const DistanceNode& dn) { return dn.getReference() == tmp; }

As you can see, we don't see any iterator incrementing / dereferencing taking place any longer, it's all wrapped in dedicated algorithms which ensure that everything is handled appropriately.

I'll grant you the syntax looks strange, but I guess it's because we are not used to it yet.

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