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I have a Graph pointer called *graph1 and memory has already been allocated for it (note: not part of the question but Graph is a template class). I have also created another instance of Graph called graph2. I called an overloaded assignment operator on them like so

Graph<std::string,std::string> *graph1 = new Graph<std::string,std::string>;
... // Called member functions on graph1
Graph<std::string,std::string> graph2;
graph2 = *graph1;

The assignment operator works properly, BUT for some reason Graph's destructor also gets called right after the assignment operator gets called. Is this normal or am I not implementing the assignment operator properly?

This is how I implemented assignment operator:

template <typename VertexType, typename EdgeType>
Graph<VertexType, EdgeType> Graph<VertexType, EdgeType>::operator=(const Graph<VertexType, EdgeType> &source)
  std::cout << "\tAssignment Operator called\n\n";
  if(this == &source)
    return *this;

  this->vecOfVertices = source.vecOfVertices;
  this->orderPtr = source.orderPtr;
  this->count = source.count;
  return *this;
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Do you know which object the destructor is being run on? –  Aatch Mar 16 '12 at 2:01

1 Answer 1

up vote 4 down vote accepted

The correct definition of assignment operator is

Graph<VertexType, EdgeType>& Graph<VertexType, EdgeType>::
    operator=(const Graph<VertexType, EdgeType> &source);

By using Graph<VertexType, EdgeType> as your return type, you are generating an unnecessary creation of a temporary variable.

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Wow. I should have seen this myself, got confused with having to write the template parameters everywhere. Thanks for your help! –  jbisa Mar 16 '12 at 2:19

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