boost_1_45_0/libs/ptr_container/doc/examples.rst - nest-learning-thermostat/5.0/boost - Git at Google

 ++++++++++++++++++++++++++++++++++
  |Boost| Pointer Container Library
 ++++++++++++++++++++++++++++++++++

 .. |Boost| image:: boost.png

 ========
 Examples
 ========

 Some examples are given here and in the accompanying test files:

 .. contents:: :local:


 .. _`Example 1`:

 1. Null pointers cannot be stored in the containers
 +++++++++++++++++++++++++++++++++++++++++++++++++++

 ::

         my_container.push_back( 0 );            // throws bad_ptr
         my_container.replace( an_iterator, 0 ); // throws bad_ptr
         my_container.insert( an_iterator, 0 );  // throws bad_ptr
         std::auto_ptr<T> p( 0 );
         my_container.push_back( p );            // throws bad_ptr

 .. _`Example 2`:

 2. Iterators and other operations return indirected values
 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

 ::

         ptr_vector<X> pvec;
         std::vector<X*> vec;
         *vec.begin()  = new X;   // fine, memory leak
         *pvec.begin() = new X;   // compile time error
         ( *vec.begin() )->foo(); // call X::foo(), a bit clumsy
         pvec.begin()->foo();     // no indirection needed
         *vec.front()  = X();     // overwrite first element
         pvec.front()  = X();     // no indirection needed


 .. _`Example 3`:

 3. Copy-semantics of pointer containers
 +++++++++++++++++++++++++++++++++++++++

 ::

         ptr_vector<T> vec1;
         ...
         ptr_vector<T> vec2( vec1.clone() ); // deep copy objects of 'vec1' and use them to construct 'vec2', could be very expensive
         vec2 = vec1.release();              // give up ownership of pointers in 'vec1' and pass the ownership to 'vec2', rather cheap
         vec2.release();                     // give up ownership; the objects will be deallocated if not assigned to another container
         vec1 = vec2;                        // deep copy objects of 'vec2' and assign them to 'vec1', could be very expensive
         ptr_vector<T> vec3( vec1 );         // deep copy objects of 'vec1', could be very expensive


 .. _`Example 4`:

 4. Making a non-copyable type Cloneable
 +++++++++++++++++++++++++++++++++++++++

 ::

          // a class that has no normal copy semantics
         class X : boost::noncopyable { public: X* clone() const; ... };

         // this will be found by the library by argument dependent lookup (ADL)
         X* new_clone( const X& x )
         { return x.clone(); }

         // we can now use the interface that requires cloneability
         ptr_vector<X> vec1, vec2;
         ...
         vec2 = vec1.clone();                                 // 'clone()' requires cloning <g>
         vec2.insert( vec2.end(), vec1.begin(), vec1.end() ); // inserting always means inserting clones


 .. _`Example 5`:

 5. Objects are cloned before insertion, inserted pointers are owned by the container
 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

 ::

         class X { ... };                     // assume 'X' is Cloneable
         X x;                                 // and 'X' can be stack-allocated
         ptr_list<X> list;
         list.push_back( new_clone( x ) );    // insert a clone
         list.push_back( new X );             // always give the pointer directly to the container to avoid leaks
         list.push_back( &x );                // don't do this!!!
         std::auto_ptr<X> p( new X );
         list.push_back( p );                 // give up ownership
         BOOST_ASSERT( p.get() == 0 );


 .. _`Example 6`:

 6. Transferring ownership of a single element
 +++++++++++++++++++++++++++++++++++++++++++++

 ::

         ptr_deque<T>                    deq;
         typedef ptr_deque<T>::auto_type auto_type;

         // ... fill the container somehow

         auto_type ptr  = deq.release_back();             // remove back element from container and give up ownership
         auto_type ptr2 = deq.release( deq.begin() + 2 ); // use an iterator to determine the element to release
         ptr            = deq.release_front();            // supported for 'ptr_list' and 'ptr_deque'

         deq.push_back( ptr.release() );                  // give ownership back to the container


 .. _`Example 7`:

 7. Transferring ownership of pointers between different pointer containers
 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

 ::


         ptr_list<X> list; ptr_vector<X> vec;
         ...
         //
         // note: no cloning happens in these examples
         //
         list.transfer( list.begin(), vec.begin(), vec );           // make the first element of 'vec' the first element of 'list'
         vec.transfer( vec.end(), list.begin(), list.end(), list ); // put all the lists element into the vector

 We can also transfer objects from ``ptr_container<Derived>`` to ``ptr_container<Base>`` without any problems.

 .. _`Example 8`:


 8. Selected test files
 ++++++++++++++++++++++

 :incomplete_type_test.cpp_: Shows how to implement the Composite pattern.
 :simple_test.cpp_: Shows how the usage of pointer container compares with a
   container of smart pointers
 :view_example.cpp_: Shows how to use a pointer container as a view into other container
 :tree_test.cpp_: Shows how to make a tree-structure
 :array_test.cpp_: Shows how to make an n-ary tree

 .. _incomplete_type_test.cpp : ../test/incomplete_type_test.cpp
 .. _simple_test.cpp : ../test/simple_test.cpp
 .. _view_example.cpp : ../test/view_example.cpp
 .. _tree_test.cpp : ../test/tree_test.cpp
 .. _array_test.cpp : ../test/ptr_array.cpp


 9. A large example
 ++++++++++++++++++

 This example shows many of the most common
 features at work. The example provide lots of comments.
 The source code can also be found `here <../test/tut1.cpp>`_.

 .. raw:: html
         :file: tutorial_example.html

 ..
                 10. Changing the Clone Allocator
                 ++++++++++++++++++++++++++++++++

                 This example shows how we can change
                 the Clone Allocator to use the pointer containers
                 as view into other containers:

                 .. raw:: html
                         :file: tut2.html

 .. raw:: html

         <hr>

 **Navigate:**

 - `home <ptr_container.html>`_
 - `reference <reference.html>`_

 .. raw:: html

         <hr>

 :Copyright:     Thorsten Ottosen 2004-2006. Use, modification and distribution is subject to the Boost Software License, Version 1.0 (see LICENSE_1_0.txt__).

 __ http://www.boost.org/LICENSE_1_0.txt
	++++++++++++++++++++++++++++++++++
	\|Boost\| Pointer Container Library
	++++++++++++++++++++++++++++++++++

	.. \|Boost\| image:: boost.png

	========
	Examples
	========

	Some examples are given here and in the accompanying test files:

	.. contents:: :local:


	.. _`Example 1`:

	1. Null pointers cannot be stored in the containers
	+++++++++++++++++++++++++++++++++++++++++++++++++++

	::

	my_container.push_back( 0 ); // throws bad_ptr
	my_container.replace( an_iterator, 0 ); // throws bad_ptr
	my_container.insert( an_iterator, 0 ); // throws bad_ptr
	std::auto_ptr<T> p( 0 );
	my_container.push_back( p ); // throws bad_ptr

	.. _`Example 2`:

	2. Iterators and other operations return indirected values
	++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

	::

	ptr_vector<X> pvec;
	std::vector<X*> vec;
	*vec.begin() = new X; // fine, memory leak
	*pvec.begin() = new X; // compile time error
	( *vec.begin() )->foo(); // call X::foo(), a bit clumsy
	pvec.begin()->foo(); // no indirection needed
	*vec.front() = X(); // overwrite first element
	pvec.front() = X(); // no indirection needed


	.. _`Example 3`:

	3. Copy-semantics of pointer containers
	+++++++++++++++++++++++++++++++++++++++

	::

	ptr_vector<T> vec1;
	...
	ptr_vector<T> vec2( vec1.clone() ); // deep copy objects of 'vec1' and use them to construct 'vec2', could be very expensive
	vec2 = vec1.release(); // give up ownership of pointers in 'vec1' and pass the ownership to 'vec2', rather cheap
	vec2.release(); // give up ownership; the objects will be deallocated if not assigned to another container
	vec1 = vec2; // deep copy objects of 'vec2' and assign them to 'vec1', could be very expensive
	ptr_vector<T> vec3( vec1 ); // deep copy objects of 'vec1', could be very expensive


	.. _`Example 4`:

	4. Making a non-copyable type Cloneable
	+++++++++++++++++++++++++++++++++++++++

	::

	// a class that has no normal copy semantics
	class X : boost::noncopyable { public: X* clone() const; ... };

	// this will be found by the library by argument dependent lookup (ADL)
	X* new_clone( const X& x )
	{ return x.clone(); }

	// we can now use the interface that requires cloneability
	ptr_vector<X> vec1, vec2;
	...
	vec2 = vec1.clone(); // 'clone()' requires cloning <g>
	vec2.insert( vec2.end(), vec1.begin(), vec1.end() ); // inserting always means inserting clones


	.. _`Example 5`:

	5. Objects are cloned before insertion, inserted pointers are owned by the container
	++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

	::

	class X { ... }; // assume 'X' is Cloneable
	X x; // and 'X' can be stack-allocated
	ptr_list<X> list;
	list.push_back( new_clone( x ) ); // insert a clone
	list.push_back( new X ); // always give the pointer directly to the container to avoid leaks
	list.push_back( &x ); // don't do this!!!
	std::auto_ptr<X> p( new X );
	list.push_back( p ); // give up ownership
	BOOST_ASSERT( p.get() == 0 );


	.. _`Example 6`:

	6. Transferring ownership of a single element
	+++++++++++++++++++++++++++++++++++++++++++++

	::

	ptr_deque<T> deq;
	typedef ptr_deque<T>::auto_type auto_type;

	// ... fill the container somehow

	auto_type ptr = deq.release_back(); // remove back element from container and give up ownership
	auto_type ptr2 = deq.release( deq.begin() + 2 ); // use an iterator to determine the element to release
	ptr = deq.release_front(); // supported for 'ptr_list' and 'ptr_deque'

	deq.push_back( ptr.release() ); // give ownership back to the container


	.. _`Example 7`:

	7. Transferring ownership of pointers between different pointer containers
	++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

	::


	ptr_list<X> list; ptr_vector<X> vec;
	...
	//
	// note: no cloning happens in these examples
	//
	list.transfer( list.begin(), vec.begin(), vec ); // make the first element of 'vec' the first element of 'list'
	vec.transfer( vec.end(), list.begin(), list.end(), list ); // put all the lists element into the vector

	We can also transfer objects from ``ptr_container<Derived>`` to ``ptr_container<Base>`` without any problems.

	.. _`Example 8`:



	8. Selected test files
	++++++++++++++++++++++

	:incomplete_type_test.cpp_: Shows how to implement the Composite pattern.
	:simple_test.cpp_: Shows how the usage of pointer container compares with a
	container of smart pointers
	:view_example.cpp_: Shows how to use a pointer container as a view into other container
	:tree_test.cpp_: Shows how to make a tree-structure
	:array_test.cpp_: Shows how to make an n-ary tree

	.. _incomplete_type_test.cpp : ../test/incomplete_type_test.cpp
	.. _simple_test.cpp : ../test/simple_test.cpp
	.. _view_example.cpp : ../test/view_example.cpp
	.. _tree_test.cpp : ../test/tree_test.cpp
	.. _array_test.cpp : ../test/ptr_array.cpp



	9. A large example
	++++++++++++++++++

	This example shows many of the most common
	features at work. The example provide lots of comments.
	The source code can also be found `here <../test/tut1.cpp>`_.

	.. raw:: html
	:file: tutorial_example.html

	..
	10. Changing the Clone Allocator
	++++++++++++++++++++++++++++++++

	This example shows how we can change
	the Clone Allocator to use the pointer containers
	as view into other containers:

	.. raw:: html
	:file: tut2.html

	.. raw:: html

	<hr>

	Navigate:

	- `home <ptr_container.html>`_
	- `reference <reference.html>`_

	.. raw:: html

	<hr>

	:Copyright: Thorsten Ottosen 2004-2006. Use, modification and distribution is subject to the Boost Software License, Version 1.0 (see LICENSE_1_0.txt__).

	__ http://www.boost.org/LICENSE_1_0.txt