Boost C++ Libraries

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Boost Pointer Container Library

Class ptr_vector

A ptr_vector<T> is a pointer container that uses an underlying std::vector<void*> to store the pointers.

Hierarchy:

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Synopsis:

namespace boost
{

    template
    <
        class T,
        class CloneAllocator = heap_clone_allocator,
        class Allocator      = std::allocator<void*>
    >
    class ptr_vector : public ptr_sequence_adapter
                              <
                                  T,
                                  std::vector<void*,Allocator>,
                                  CloneAllocator
                              >
    {
    public: // construction
        explicit ptr_vector( size_type to_reserve );

    public: // capacity
        size_type  capacity() const;
        void       reserve( size_type n );

    public: // element access
        T&        operator[]( size_type n );
        const T&  operator[]( size_type n ) const;
        T&        at( size_type n );
        const T&  at( size_type n ) const;

    public: // pointer container requirements
       auto_type replace( size_type idx, T* x );
       template< class U >
       auto_type replace( size_type idx, compatible-smart-ptr<U> x );
       bool      is_null( size_type idx ) const;

    public: // C-array support
       void transfer( iterator before, T** from, size_type size, bool delete_from = true );
       T**  c_array();

    };

} // namespace 'boost'

Semantics

Semantics: construction

  • explicit ptr_vector( size_type to_reserve );

    • constructs an empty vector with a buffer of size least to_reserve

Semantics: capacity

  • size_type capacity() const;

    • Effects: Returns the size of the allocated buffer
    • Throws: Nothing
  • void reserve( size_type n );

    • Requirements: n <= max_size()
    • Effects: Expands the allocated buffer
    • Postcondition: capacity() >= n
    • Throws: std::length_error() if n > max_size()

Semantics: element access

  • T& operator[]( size_type n );

  • const T& operator[]( size_type n ) const;

    • Requirements: n < size()
    • Effects: Returns a reference to the n'th element
    • Throws: Nothing
  • T& at( size_type n );

  • const T& at( size_type n ) const;

    • Requirements: n < size()
    • Effects: Returns a reference to the n'th element
    • Throws: bad_index if n >= size()

Semantics: pointer container requirements

  • auto_type replace( size_type idx, T* x );

    • Requirements: `` x != 0 and idx < size()``
    • Effects: returns the object indexed by idx and replaces it with x.
    • Throws: bad_index if idx >= size() and bad_pointer if x == 0.
    • Exception safety: Strong guarantee
  • template< class U > auto_type replace( size_type idx, compatible-smart-ptr<U> x );

    • Effects: return replace( idx, x.release() );
  • bool is_null( size_type idx ) const;

    • Requirements: idx < size()
    • Effects: returns whether the pointer at index idx is null
    • Exception safety: Nothrow guarantee

Semantics: C-array support

  • void transfer( iterator before, T** from, size_type size, bool delete_from = true );

    • Requirements: from != 0
    • Effects: Takes ownership of the dynamic array from
    • Exception safety: Strong guarantee if delete_from == true; if delete_from == false, and an exception is thrown, the container fails to take ownership.
    • Remarks: Eventually calls delete[] from if delete_from == true.
  • T** c_array();

    • Returns: 0 if the container is empty; otherwise a pointer to the first element of the stored array
    • Throws: Nothing

Copyright:Thorsten Ottosen 2004-2007. Use, modification and distribution is subject to the Boost Software License, Version 1.0 (see LICENSE_1_0.txt).