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I have a simple hierarchy tree structure with a base class Node representing a node. A node could be of another specific type (subclassing).

class Node {
  vector<Node*> childs;
  // simple node manipulation methods
  const vector<Node*>& getChildren() { return childs; }
}

and I have a couple of subclasses of Node:

class FacultyNode : public Node; ...
class DepartmentNode : public Node; ...

Say I know that all children of a faculty node is of DepartmentNode type, to save the developer's work I intended to do something like

vector<DepartmentNode*> FacultyNode::getDepartments() {
  vector<Node*> tmp = this->getChildren();

  vector<DepartmentNode*> a;
  a.reserve(tmp.size());
  for (int i = 0; i < tmp.size(); i++) {
    a.push_back(static_cast<DepartmentNode*>(tmp[i]));
    }
    return a;
}

But that would take O(n), and new vector object will be created every time call is made.

Is there any better way to do this?

3 Answers 3

4

Do you really need to copy the vector? In case you don't have to, you can write an iterator which will cast when the user requests the item, i.e. on operator*.

MyIterator FacultyNode::getDepartmentsBegin() {
  vector<Node*>& tmp = this->getChildren();
  return MyIterator(tmp.begin());
}
MyIterator  FacultyNode::getDepartmentsEnd() {
  vector<Node*>& tmp = this->getChildren();
  return MyIterator(tmp.end());
}

struct MyIterator {
  vector<DepartmentNode*>::iterator m_it;

  MyIterator(vector<DepartmentNode*> it) : m_it(it) {}

  Department * operator*() { return (Department*)*it; }

  void operator++() { m_it++; }

  // in the same way, forwarding to m_it, implement other needed iterators.
  // ...
};

Hope it clarifies what i meant.

2
  • I think the custom iterator is the best approach here. Jan 26, 2011 at 16:27
  • This would be interesting. Sorry I'm not very proficient with iterator. How would I go about doing it?
    – huy
    Jan 26, 2011 at 16:35
1

Maybe you can turn Node into a template?

template<typename T>
class Node {
  vector<T*> childs;  // I think a Boost.PtrContainer would be better
  // simple node manipulation methods
  const vector<T*>& getChildren() { return childs; }
}
class FacultyNode : public Node<DepartmentNode>;
2
  • This is indeed very clever. Never thought of it. But why a Boost.PtrCointainer?
    – huy
    Jan 26, 2011 at 16:32
  • hmm I think about it again, in that case how do I declare a Node variable?
    – huy
    Jan 26, 2011 at 16:55
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As James McNellis points out in his comments below, the following is unsafe (he is more categoric). I wouldn't use it myself, even though I don't know why exactly it would trigger undefined behavior -- maybe I should ask this in a question


Since you are storing pointers in the array, and assuming you can change the return type of your function, then you could do it like this:

const vector<DepartmentNode*>* FacultyNode::getDepartments() {
  vector<Node*> tmp = this->getChildren();
  return reinterpret_cast<vector<DepartmentNode*>*>(&tmp);
}
6
  • isn't that undefined behavior?
    – Philipp
    Jan 26, 2011 at 16:21
  • You cannot reinterpret_cast the vector that way. Jan 26, 2011 at 16:25
  • Why? A pointer to Node is the same size as a pointer to DepartmentNode, so if he is sure that his vector really only includes DepartmentNodes, then it's ok. Jan 26, 2011 at 16:26
  • @James: yes, sorry, I didn't realize he returns by value. But if he returned a pointer, than it would be fine. Jan 26, 2011 at 16:28
  • 1
    @Daniel: It doesn't matter whether you return by value or by pointer: you can't use a vector<Node*> as if it were a vector<AnythingElse>. They could have different representations in memory, they could be optimized differently by the compiler, or the compiler might insert runtime checks to assert if you try to do this. The only type with which you can use a vector<Node*> is vector<Node*> (or any const/volatile-qualified version of that type or as an array of char, though that isn't a particularly useful thing to do.). Jan 26, 2011 at 16:36

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