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I want to implement a sorted pointer vector, like the following

#include <vector>
#include <memory>
#include <algorithm>

//! A random accessed vector with sorted allocated elements.
//! - Elements must be allocated on heap.
//! - The vector manages the memories of its elements.
template<class T, class Compare = std::less<T>>
class SortedPtrVector
{
public:
    SortedPtrVector()   {}

    //! Add an element, return its index.
    int Add(T* element)
    {
        auto position = std::lower_bound(m_vector.begin(), m_vector.end(), 
            element, Compare); // Wrong here due to compare smart pointers
        auto newPosition = m_vector.insert(position, element);
        return newPosition - m_vector.begin();
    }

private:
    std::vector<std::unique_ptr<T>> m_vector;
};

How to implement the Add function? Thanks a lot.

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Apart from question of implementing comparison for smart pointers, why not use a map/multimap instead of vector if elements have to be sorted? For comparison, won't a wrapper for std::less<T> comparing objects pointers point to using std::less work? –  Ilya Kobelevskiy Dec 29 '12 at 18:35
    
I want the elements to be random accessed. They are put under a tree node as tree items, like a file folder structure. When add a new file, I first find its position (row index) under the tree node and then add it to the position. Thanks! –  user1899020 Dec 29 '12 at 18:44
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2 Answers

up vote 1 down vote accepted
auto position = std::lower_bound(m_vector.begin(), m_vector.end(), 
        element, Compare);

This is obviously wrong. Compare is a type, not an object.

You could use lambda with an object of Compare. So I think this should work:

Compare cmp; 
auto comparer = [&](std::unique_ptr<T> const & a, std::unique_ptr<T> const & b)
                {
                   return cmp(*a, *b); //use cmp here!
                };

std::unique_ptr<T> uniqElem(element); 

auto position = std::lower_bound( m_vector.begin(), 
                                  m_vector.end(), 
                                  uniqElem, //not element!!
                                  comparer);

Note that you cannot pass element to std::lower_bound, as element is of type T*, when the std::lower_bound expects the value of type std::unique_ptr<T> and there is no implicit conversion from T* to std::unique_ptr<T>. Also, you cannot insert element to the vector for the same reason. Insert uniqElem to the vector.

I would suggest you to take the argument as unique_ptr instead of T*, because that indicates to the user that the added item will be deleted automatically when an object of SortedPtrVector goes out of scope:

int Add(T* element);                 //bad - doesn't say element will be deleted!
int Add(std::unique_ptr<T> element); //good - says element will be deleted!

If you use std::unique_ptr<T> as parameter type, then note these points:

v.Add(new T());                     //will not work
v.Add(std::unique_ptr<T>(new T());  //will work

std::unique_ptr<T> item(new T()); 
v.Add(item);                        //will not work
v.Add(std::move(item));             //will work

It is all because std::unique_ptr is NOT copyable, but it is moveable.

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Any special to use Add(std::unique_ptr<T> element) function? It seems there is no public copy constructor for unique_ptr. –  user1899020 Dec 29 '12 at 18:58
    
@user1899020: Yes, you have call it like this : v.Add(std::unique_ptr<T>(new T());. It will not work if you write this: std::unique_ptr<T> item(new T()); v.Add(item);. But it will work if you write this : v.Add(std::move(item));. It is all because std::unique_ptr is NOT copyable, but it is moveable. –  Nawaz Dec 29 '12 at 19:02
    
Is it too cumbersome? May I just call v.Add(new T())? –  user1899020 Dec 29 '12 at 19:03
    
@user1899020: Edite my answer. –  Nawaz Dec 29 '12 at 19:08
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Instead of using std::less you can implement your own ptr_less like this:

template< typename T >
class ptr_less
{
    typedef bool result_type;

    bool operator ()( T const& left, T const& right ) const
    {
        return *left < *right;
    }
};

A general implementation would have to check for null pointers as well.

Another approach would be to use boost::ptr_vector instead of std::vector.

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