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using namespace std::rel_ops;

template <typename T, typename A = std::allocator<T> >
class my_vector {
    public:
        typedef A                                        allocator_type;
        typedef typename allocator_type::value_type      value_type;

        typedef typename allocator_type::size_type       size_type;
        typedef typename allocator_type::difference_type difference_type;

        typedef typename allocator_type::pointer         pointer;
        typedef typename allocator_type::const_pointer   const_pointer;

        typedef typename allocator_type::reference       reference;
        typedef typename allocator_type::const_reference const_reference;

        typedef typename allocator_type::pointer         iterator;
        typedef typename allocator_type::const_pointer   const_iterator;

    public:
        friend bool operator == (const my_vector& lhs, const my_vector& rhs) {
            return (lhs.size() == rhs.size()) && std::equal(lhs.begin(), lhs.end(), rhs.begin());}

        friend bool operator < (const my_vector& lhs, const my_vector& rhs) {
            return std::lexicographical_compare(lhs.begin(), lhs.end(), rhs.begin(), rhs.end());}

        friend void swap (my_vector& x, my_vector& y) {
            x.swap(y);}

    private:
        allocator_type _a;

        pointer _b;
        pointer _e; // size
        pointer _l; // capacity

    private:
        bool valid () const {
            return (!_b && !_e && !_l) || ((_b <= _e) && (_e <= _l));}

        my_vector (const my_vector& that, size_type c) :
                _a (that._a) {
            assert(c >= that.size());
            _b = _a.allocate(c);
            _e = _b + that.size();
            _l = _b + c;
            my_uninitialized_copy(_a, that.begin(), that.end(), begin());
            assert(valid());}

I was going over this snippet of code, and there are many things that I don't understand, since I am new to C++.

  1. In "bool valid () const ", what is this line, "(!_b && !_e && !_l)" trying to do?

It's negating the pointers, and I don't know what it does, and what's it's trying to accomplish.

  1. In line, "my_vector (const my_vector& that, size_type c) :," what is the type of 'that'? Is it a reference to its own class?

  2. In "my_vector (const my_vector& that, size_type c) :", what is this line doing, "_a (that._a) :" ? Is '_a' an Allocator object? because below this line, there is "_a.allocate(c), " and 'allocate' is a member function of Allocator.

  3. What's the purpose of having both const_pointer and pointer? Also, both reference and const_reference, and both iterator and const_iterator? in the first public under the class my_vector?

share|improve this question

1 Answer 1

up vote 2 down vote accepted

1. The statement !_x

... (where x can be b, e or l.) is true if the pointer _x is 0, NULL or nullptr.

It negates the value of the result of the cast from pointer to boolean. Therefore, (!_b && !_e && !_l) is true if none of the pointers is set.

2) const my_vector& that ...

... is a const referent to my_vector (which is actually the current class, so this is probably a constructor that copies the object with additional information handed in via c.

3) The object _a ...

... is declared as allocator_type _a;, where allocator_type is a typedef for A which is a template argument defaulted to std::allocator<T>.

Have a look:

template <typename T, typename A = std::allocator<T>>
...
typedef A allocator_type;
...
allocator_type _a;
...

The expression in question (comment) is a member intialization list (with only 1 element)

 my_vector (const my_vector& that, size_type c) : _a (that._a) 
 {
 // ...
 }

It basically means "initialize _a with the value of that._a" in this case, since both have the same type, the copy constructor of _a is invoked.


The purpose of such typedefs is to enable gneric programming.

template<class Container>
void insert_sorted (Container & object, 
  typename Container::const_reference value)
{
  typename Container::size_type const N = object.size(), 
    find_index = find_sorted(object, value);
    if (find_index < N) 
      object.insert(object.begin()+find_index, value);
    else object.push_back(value);
}  

The code is valid only if the Container for which it is used defines

  • a type(def) const_reference
  • a type(def) size_type
  • a method insert() that takes an iterator and a const_reference
  • a method push_back() that takes a const_reference
share|improve this answer
    
+ Good explaination. –  lualu Jul 24 '13 at 2:06
    
Thank you so much. Just one more, for 3, what does this do, "_a (that._a)"? –  Nayana Jul 24 '13 at 2:18
    
@Nayana There you go. –  Pixelchemist Jul 24 '13 at 2:22
    
@Pixelchemist, Thank you so much. I was wondering how '_a' could take an argument when it's not a function. –  Nayana Jul 24 '13 at 4:46
    
@Pixelchemist, I added one more question. Could you please explain that also? Sorry for a bunch of questions. I really appreciate your help. –  Nayana Jul 25 '13 at 2:54

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