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I have a class which has a std::vector of child control pointer. For obvious reasons, I do not want the user of the class to have direct access to the std::vector. All I would want is a way to give the caller the pointers. What would be a good OO way to do this? (this function will be called often)


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You should forget the idea that "OO" is another word for "good". It often isn't. Specifically, the STL isn't particularly object-oriented, but it is well designed. The problem you're asking about has little to do with OOP, and the answer you're getting isn't really about "object-oriented" ways to solve it either. Iterators are just the right way to do it. Which is much more important than whether or not they're an "OOP way of doing it. :) –  jalf Oct 12 '10 at 2:15
Well, "good" has "oo" embedded in it :-) –  Arun Oct 12 '10 at 5:06
So does "poop". –  Ed S. Oct 21 '10 at 0:22

3 Answers 3

up vote 13 down vote accepted

Provide a function that returns a const_iterator to the vector. It is also useful to add one to return the iterator to the end of the vector.

class MyClass {
  typedef vector<T>::const_iterator c_iter;

  c_iter getBegin() const {return v.begin();}
  c_iter getEnd() const {return v.end();}

  // and perhaps if it's useful and not too invasive.
  const T& getAt(int i) const {return v.at(i);}

  vector<T> v;
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so after getting these the user could do for(it; it != itend; ++it) {} –  Milo Oct 12 '10 at 1:33
@Milo: yes, that's right. But they would be prevented from altering the vector; they could only read it. –  JoshD Oct 12 '10 at 1:35
Thanks! this will work great! –  Milo Oct 12 '10 at 1:35
@Milo: You're quite welcome. I'm glad I could help. –  JoshD Oct 12 '10 at 1:36
Often better to provide a typedef for the user, so they're far less likely to hard-code vector<T>::const_iterator as the type of the variable they put the retrieved iterator into, which would require edits to client code should MyClass change its data representation. –  Tony D Oct 12 '10 at 1:38

Iterators are a good, obvious way to do this. A visitor pattern is another way to give the client code the ability to operate on each element in the vector: in some ways it's even cleaner, exposing less to the user, and allowing the container more control, e.g.:

  • there's no issue with the client having iterators that might be later invalidated
  • to obtain a mutex lock until the client code had read all entries before other threads are allowed to operate on the container
  • if you filter or synthesize the elements, you don't need to create complicated iterator proxy objects


  • the client is more strongly locked into whatever iteration you provide: e.g. you can generally step multiple independent iterators through a container, facilitating operations on multiple elements, but visitor typically runs through once before returning: any extra functionality - suspending/resuming iteration, deleting an element - needs to be specifically supported by the container's visit code (perhaps by a return code from the visitor function). (Even without explicit support, terminating iteration might be achieved by an exception). By way of contrast, with iterators a single erase function can be used on an iterator whether from begin(), incremented or not, as well as other operations like find(): this is a cleaner factoring of functionality.

That would look something like:

class Container
    template <typename Visitor>
    void visit(Visitor& visitor)
        for (Vector::const_iterator i = v_.begin(); i != v_.end(); ++i)

    typedef std::vector<X> Vector;
    Vector v_;

// client code...

struct Visitor
    void operator()(const X&) { ... }
    // any data you want to update as you iterate...

Visitor v(...any construction arguments...);
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I usually do it something like the following:

class MyClass {
  const unsigned int GetNumberOfItems() { return v.size(); }

  T* GetItemNumber(const unsigned int n) 
    // 3 options here, thrown your own exception type, or use the std one, or
    // or just return NULL meaning nothing there or out of range.
      return v.at(n);
    } catch (std::out_of_range &e){

    return NULL;    

  vector<T> v;

Then you can just do something like:

MyClass cl;
int count = cl.GetNumberOfItems();
for (int i = 0; i < cl.GetNumberOfItems(); i++){
  T* item = cl.GetItemNumber(i);

No iterators to the outside world required. If you have ever have to expose something like this to a standard C API then it's very easy to expose.

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Definitely good to have this answer listed here, but there are also some issues: an interface that requires random access does make it harder to vary the implementation without the client code suddenly taking a performance hit, so it's still best to provide these functions as well as a begin()/end() iterator and/or visitor support. More usual to call them size(), T& operator[](size_t) / const T& operator[](size_t) const. –  Tony D Oct 13 '10 at 6:11

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