Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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)

Thanks

share|improve this question
6  
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
3  
Well, "good" has "oo" embedded in it :-) –  Arun Oct 12 '10 at 5:06
2  
So does "poop". –  Ed S. Oct 21 '10 at 0:22
add comment

3 Answers

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 {
public:
  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);}

  //stuff
  vector<T> v;
};
share|improve this answer
    
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
5  
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
show 5 more comments

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

BUT

  • 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
{
  public:
    template <typename Visitor>
    void visit(Visitor& visitor)
    {
        for (Vector::const_iterator i = v_.begin(); i != v_.end(); ++i)
             visitor(*i);
    }

  private:
    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...);
container.visit(v);
share|improve this answer
add comment

I usually do it something like the following:

class MyClass {
public:   
  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.
    try{
      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.

share|improve this answer
    
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
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.