DataList< T, BASE > Class Template Reference

Derived DataList<T>. More...

#include <DataList.h>

Inheritance diagram for DataList< T, BASE >:
KeepFirstTemplateArguments SelectNoInstance

List of all members.

Public Types

typedef BASE DataList_BASE
typedef BASE DVL_BASE
typedef BASE::PtrList PtrList
typedef BASE::PtrList BaseContainer
typedef T *& reference
typedef T *const & const_reference
typedef BASE::size_type size_type
typedef BASE::difference_type difference_type
typedef Tvalue_type
typedef BASE::allocator_type allocator_type
typedef T ** pointer
typedef T *const * const_pointer
typedef const Tconst_value_type
typedef T base_value_type
typedef
DataModel_detail::ElementProxy
< DataList
ElementProxy
typedef
DataModel_detail::const_iterator
< DataList
const_iterator
 Standard const_iterator.
typedef
DataModel_detail::iterator
< DataList
iterator
typedef std::reverse_iterator
< const_iterator
const_reverse_iterator
 Standard const_reverse_iterator.
typedef std::reverse_iterator
< iterator
reverse_iterator
typedef DataList< T, BASE > self
 A helper typedef.

Public Member Functions

template<typename BinaryPredicate >
void unique (BinaryPredicate p)
 Remove consecutive elements satisfying a predicate.
Constructors, destructors, assignment.



 DataList (SG::OwnershipPolicy ownPolicy=SG::OWN_ELEMENTS)
 Default constructor.
 DataList (size_type n, SG::OwnershipPolicy ownPolicy=SG::OWN_ELEMENTS)
 Sized constructor.
template<class InputIterator >
 DataList (InputIterator first, InputIterator last, SG::OwnershipPolicy ownPolicy=SG::VIEW_ELEMENTS)
 Copy constructor.
DataListoperator= (const DataList &rhs)
 Assignment operator.
template<class InputIterator >
void assign (InputIterator first, InputIterator last)
 Assign from iterators.
Element access.



const Tfront () const
 Access the first element in the collection as an rvalue.
const Tback () const
 Access the last element in the collection as an rvalue.
ElementProxy front ()
 Access the first element in the collection as an lvalue.
ElementProxy back ()
 Access the last element in the collection as an lvalue.
Iterator creation.



const_iterator begin () const
 Return a const_iterator pointing at the beginning of the collection.
const_iterator end () const
 Return a const_iterator pointing past the end of the collection.
iterator begin ()
 Return an iterator pointing at the beginning of the collection.
iterator end ()
 Return an iterator pointing past the end of the collection.
const_reverse_iterator rbegin () const
 Return a const_reverse_iterator pointing past the end of the collection.
const_reverse_iterator rend () const
 Return a const_reverse_iterator pointing at the beginning of the collection.
reverse_iterator rbegin ()
 Return a reverse_iterator pointing past the end of the collection.
reverse_iterator rend ()
 Return a reverse_iterator pointing at the beginning of the collection.
Insertion operations.



void push_front (value_type pElem)
 Add an element at the beginning of the collection.
void push_back (value_type pElem)
 Add an element to the end of the collection.
iterator insert (iterator position, value_type pElem)
 Add a new element to the collection.
template<class InputIterator >
void insert (iterator position, InputIterator first, InputIterator last)
 Add a group of new elements to the collection.
Erasure operations.



iterator erase (iterator position)
 Remove element at a given position.
iterator erase (iterator first, iterator last)
 Remove a range of elements.
void pop_back ()
 Remove the last element from the collection.
void pop_front ()
 Remove the first element from the collection.
void clear ()
 Erase all the elements in the collection.
List operations.



void splice (iterator position, DataList &l)
 Insert contents of another list.
void splice (iterator position, DataList &l, iterator i)
 Insert element from another list.
void splice (iterator position, DataList &l, iterator first, iterator last)
 Insert range from another list.
void remove (const value_type &value)
 Remove all elements equal to value.
template<typename PREDICATE >
void remove_if (PREDICATE p)
 Remove all elements satisfying a predicate.
void unique ()
 Remove consecutive duplicate elements.
template<typename BINARY_PREDICATE >
void unique (BINARY_PREDICATE p)
 Remove consecutive elements satisfying a predicate.
void merge (DataList &l)
 Merge sorted lists.
template<typename COMPARE >
void merge (DataList &l, COMPARE predicate)
 Merge sorted lists according to comparison function.
void reverse ()
 Reverse the elements in list.
Size and capacity.



size_type size () const
 Returns the number of elements in the collection.
size_type max_size () const
 Returns the size() of the largest possible collection.
void resize (size_type sz)
 Resizes the collection to the specified number of elements.
bool empty () const
 Returns true if the collection is empty.

Public Attributes

ROOT_SELECTION_NS::MemberAttributes
< kTransient > 
m_isMostDerived
 Declare the transient variable(s):.

Static Public Attributes

static const bool has_virtual = BASE::has_virtual

Internal operations.



class DataModel_detail::ElementProxy< DataList >
class ConstDataList< DataList >
void test2_assignelement1 ()
void resortAux (iterator beg, iterator end)
 Reset indices / reorder aux data after elements have been permuted.
void testInsert (const char *op)
 Test if we can insert; raise an exception if not.
void testInsertOol (const char *op)
 Test if we can insert; raise an exception if not.
void clearMostDerived ()
 Clear m_isMostDerived for this instance and for all bases.
virtual void setMostDerived ()
 Set m_isMostDerived for this instance and clear it for all bases.

Swap and sort.



void swap (DataList &rhs)
 Swap this collection with another.
void sort ()
 Sort the container.
template<class COMPARE >
void sort (COMPARE comp)
 Sort the container with a user-specified comparison operator.
static void iter_swap (iterator a, iterator b)
 Swap the referents of two DataVector iterators.

Non-standard operations.



void swapElement (iterator pos, value_type newElem, reference oldElem)
 Swap one element out of the container.
virtual const
DataModel_detail::DVLInfoBase
dvlinfo_v () const
 Return the DV/DL info struct for this class.
const PtrListstdcont () const
 Return the underlying std::list of the container.
SG::OwnershipPolicy ownPolicy () const
 Return the ownership policy setting for this container.
void clear (SG::OwnershipPolicy ownPolicy)
 Erase all the elements in the collection, and reset the ownership mode.
static const
DataModel_detail::DVLInfoBase
dvlinfo ()
 Return the DV/DL info struct for this class.

Detailed Description

template<class T, class BASE = typename DataListBase<T>::Base>
class DataList< T, BASE >

Derived DataList<T>.

This is used for the case where T derives from other classes. The list of pointers is actually held in the (unique) base class of the hierarchy.

See the file comments for full details.


Member Typedef Documentation

template<class T, class BASE = typename DataListBase<T>::Base>
typedef T DataList< T, BASE >::base_value_type

The T value used as the template parameter. Note that this is different from value_type (that's T*).

template<class T, class BASE = typename DataListBase<T>::Base>
typedef DataModel_detail::ElementProxy<DataList> DataList< T, BASE >::ElementProxy

This type is used to proxy lvalue accesses to DataList elements, in order to handle ownership.

template<class T, class BASE = typename DataListBase<T>::Base>
typedef DataModel_detail::iterator<DataList> DataList< T, BASE >::iterator

Standard iterator. Note that lvalue references here will yield an ElementProxy, not a reference.

template<class T, class BASE = typename DataListBase<T>::Base>
typedef BASE::PtrList DataList< T, BASE >::PtrList
template<class T, class BASE = typename DataListBase<T>::Base>
typedef std::reverse_iterator<iterator> DataList< T, BASE >::reverse_iterator

Standard reverse_iterator. Note that lvalue references here will yield an ElementProxy, not a reference.


Constructor & Destructor Documentation

template<class T , class BASE >
EXIT_ROOT_SELECTION_NS DataList< T, BASE >::DataList ( SG::OwnershipPolicy  ownPolicy = SG::OWN_ELEMENTS  )  [inline, explicit]

Default constructor.

Parameters:
ownPolicy The ownership mode for the container.

By default, a DataList will own its elements. To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Parameters:
ownPolicy The ownership mode for the container.

By default, a DataList will own its elements. To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Note that we do the complete initialization here in the derived class, using the default constructors for the base classes. The reason for this is to be able to deal nicely with the virtual derivation case. We can arrange to call the proper base class from here to get things initialized in the virtual derivation case. But then anyone who derives from us must also know to explicitly reference that base class. Doing the initialization explicitly here means that other classes who derive from us need only know about the most derived DataList class.

template<class T , class BASE >
DataList< T, BASE >::DataList ( size_type  n,
SG::OwnershipPolicy  ownPolicy = SG::OWN_ELEMENTS 
) [inline, explicit]

Sized constructor.

Parameters:
n The size of the container.
ownPolicy The ownership mode for the container.

Note that unlike the standard list constructor, you can't specify an initial value here. The container will be initialized with 0's.

By default, a DataList will own its elements. To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Parameters:
n The size of the container.
ownPolicy The ownership mode for the container.

Note that unlike the standard list constructor, you can't specify an initial value here. The container will be initialized with 0's.

By default, a DataList will own its elements. To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Note that we do the complete initialization here in the derived class, using the default constructors for the base classes. The reason for this is to be able to deal nicely with the virtual derivation case. We can arrange to call the proper base class from here to get things initialized in the virtual derivation case. But then anyone who derives from us must also know to explicitly reference that base class. Doing the initialization explicitly here means that other classes who derive from us need only know about the most derived DataList class.

template<class T , class BASE >
template<class InputIterator >
DataList< T, BASE >::DataList ( InputIterator  first,
InputIterator  last,
SG::OwnershipPolicy  ownPolicy = SG::VIEW_ELEMENTS 
) [inline]

Copy constructor.

Constructor from iterators.

Parameters:
rhs The container from which to copy.

This is a `shallow' copy; the new container will not own its elements. Constructor from iterators.

Parameters:
first The start of the range to put in the new container.
last The end of the range to put in the new container.
ownPolicy The ownership mode for the container.

By default, a DataList will own its elements (and take ownership of the pointers passed to this constructor). To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Parameters:
first The start of the range to put in the new container.
last The end of the range to put in the new container.
ownPolicy The ownership mode for the container.

By default, a DataList will own its elements (and take ownership of the pointers passed to this constructor). To avoid this, pass SG::VIEW_ELEMENTS for ownPolicy.

Note that we do the complete initialization here in the derived class, using the default constructors for the base classes. The reason for this is to be able to deal nicely with the virtual derivation case. We can arrange to call the proper base class from here to get things initialized in the virtual derivation case. But then anyone who derives from us must also know to explicitly reference that base class. Doing the initialization explicitly here means that other classes who derive from us need only know about the most derived DataList class.


Member Function Documentation

template<class T , class BASE >
template<class InputIterator >
void DataList< T, BASE >::assign ( InputIterator  first,
InputIterator  last 
) [inline]

Assign from iterators.

Parameters:
first The start of the range to put in the container.
last The end of the range to put in the container.

Any existing owned elements will be released. The DataList's ownership policy determines whether it will take ownership of the new elements.

template<class T , class BASE >
DataList< T, BASE >::ElementProxy DataList< T, BASE >::back (  )  [inline]

Access the last element in the collection as an lvalue.

Returns:
Proxy to the last element in the collection.

No checking is done to ensure that the container is not empty. Note that we return a proxy object rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
const T * DataList< T, BASE >::back (  )  const [inline]

Access the last element in the collection as an rvalue.

Returns:
The last element in the collection.

No checking is done to ensure that the container is not empty. Note that we return a const T* rather than a reference.

template<class T , class BASE >
DataList< T, BASE >::iterator DataList< T, BASE >::begin (  )  [inline]

Return an iterator pointing at the beginning of the collection.

Returns:
An iterator.

Note that dereferencing the iterator will yield a proxy rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
DataList< T, BASE >::const_iterator DataList< T, BASE >::begin (  )  const [inline]

Return a const_iterator pointing at the beginning of the collection.

Returns:
A const_iterator.

Note that dereferencing the iterator will yield a const T* rather than a reference.

template<class T, class BASE = typename DataListBase<T>::Base>
void DataList< T, BASE >::clear ( SG::OwnershipPolicy  ownPolicy  ) 

Erase all the elements in the collection, and reset the ownership mode.

Parameters:
ownPolicy The new ownership policy of the container.

If the container owns its elements, then the removed elements will be deleted. Any duplicates will be removed in this process, but don't rely on this.

template<class T, class BASE = typename DataListBase<T>::Base>
void DataList< T, BASE >::clear (  ) 

Erase all the elements in the collection.

If the container owns its elements, then the removed elements will be deleted. Any duplicates will be removed in this process, but don't rely on this.

template<class T , class BASE >
void DataList< T, BASE >::clearMostDerived (  )  [inline, protected]

Clear m_isMostDerived for this instance and for all bases.

Called from the constructor after setting m_isMostDerived.

Reimplemented in DataList_detail::VirtBases< B1, DataModel_detail::NoBase, DataModel_detail::NoBase >, DataList_detail::VirtBases< B1, B2, DataModel_detail::NoBase >, and DataList_detail::VirtBases< B1, B2, B3 >.

template<class T , class BASE >
const DataModel_detail::DVLInfoBase & DataList< T, BASE >::dvlinfo (  )  [inline, static]

Return the DV/DL info struct for this class.

This can be used to make sure that it's instantiated.

template<class T , class BASE >
const DataModel_detail::DVLInfoBase & DataList< T, BASE >::dvlinfo_v (  )  const [inline, virtual]

Return the DV/DL info struct for this class.

This can be used to make sure that it's instantiated.

Reimplemented in DataList_detail::VirtBases< B1, DataModel_detail::NoBase, DataModel_detail::NoBase >, DataList_detail::VirtBases< B1, B2, DataModel_detail::NoBase >, and DataList_detail::VirtBases< B1, B2, B3 >.

template<class T , class BASE >
DataList< T, BASE >::iterator DataList< T, BASE >::end (  )  [inline]

Return an iterator pointing past the end of the collection.

Returns:
An iterator.

Note that dereferencing the iterator will yield a proxy rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
DataList< T, BASE >::const_iterator DataList< T, BASE >::end (  )  const [inline]

Return a const_iterator pointing past the end of the collection.

Returns:
A const_iterator.

Note that dereferencing the iterator will yield a const T* rather than a reference.

template<class T , class BASE >
DataList< T, BASE >::iterator DataList< T, BASE >::erase ( iterator  first,
iterator  last 
) [inline]

Remove a range of elements.

Parameters:
first Iterator pointing to the first element to be removed.
last Iterator pointing one past the last element to be removed.
Returns:
An iterator pointing to the element pointed to by last prior to erasing (or end()).

If the container owns its elements, then the removed elements will be deleted. Any duplicates will be removed in this process, but don't rely on this.

template<class T , class BASE >
DataList< T, BASE >::iterator DataList< T, BASE >::erase ( iterator  position  )  [inline]

Remove element at a given position.

Parameters:
position Iterator pointing to the element to be removed.
Returns:
An iterator pointing to the next element (or end()).

If the container owns its elements, then the pointed-to element will be deleted.

template<class T , class BASE >
DataList< T, BASE >::ElementProxy DataList< T, BASE >::front (  )  [inline]

Access the first element in the collection as an lvalue.

Returns:
Proxy to the first element in the collection.

No checking is done to ensure that the container is not empty. Note that we return a proxy object rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
const T * DataList< T, BASE >::front (  )  const [inline]

Access the first element in the collection as an rvalue.

Returns:
The first element in the collection.

No checking is done to ensure that the container is not empty. Note that we return a const T* rather than a reference.

template<class T , class BASE >
template<class InputIterator >
void DataList< T, BASE >::insert ( iterator  position,
InputIterator  first,
InputIterator  last 
) [inline]

Add a group of new elements to the collection.

Parameters:
position Iterator before which the element will be added.
first The start of the range to put in the container.
last The end of the range to put in the container.

The container's ownership policy will determine if it takes ownership of the new element.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T , class BASE >
DataList< T, BASE >::iterator DataList< T, BASE >::insert ( iterator  position,
value_type  pElem 
) [inline]

Add a new element to the collection.

Parameters:
position Iterator before which the element will be added.
pElem The element to add to the collection.
Returns:
An iterator that points to the inserted data.

The container's ownership policy will determine if it takes ownership of the new element.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T , class BASE >
void DataList< T, BASE >::iter_swap ( iterator  a,
iterator  b 
) [inline, static]

Swap the referents of two DataVector iterators.

Parameters:
a The first iterator for the swap.
b The second iterator for the swap/
template<class T , class BASE >
template<typename COMPARE >
void DataList< T, BASE >::merge ( DataList< T, BASE > &  l,
COMPARE  predicate 
) [inline]

Merge sorted lists according to comparison function.

Parameters:
l Sorted list to merge.
predicate Comparison function defining a sort order (which must be strictly weak ordering).

Assumes that both l and this DataList are sorted according to COMPARE predicate. Merges elements of l into this list in sorted order, leaving l empty when complete. Elements in this list precede elements in x that are equivalent according to StrictWeakOrdering().

Parameters:
l Sorted list to merge.
COMPARE Comparison function defining sort order (which must be strictly weak ordering).

Assumes that both l and this DataList are sorted according to COMPARE predicate. Merges elements of l into this list in sorted order, leaving l empty when complete. Elements in this list precede elements in x that are equivalent according to StrictWeakOrdering().

template<class T , class BASE >
void DataList< T, BASE >::merge ( DataList< T, BASE > &  l  )  [inline]

Merge sorted lists.

Parameters:
l Sorted list to merge.

Assumes that both l and this list are sorted according to operator<(). Merges elements of l into this list in sorted order, leaving l empty when complete. Elements in this list precede elements in l that are equal.

Parameters:
l Sorted list to merge.

Assumes that both l and this list are sorted according to operator<(). Merges elements of l into this list in sorted order, leaving l empty when complete. Elements in this list precede elements in l that are equal.

template<class T , class BASE >
DataList< T, BASE > & DataList< T, BASE >::operator= ( const DataList< T, BASE > &  rhs  )  [inline]

Assignment operator.

Parameters:
rhs The DataList from which to assign.
Returns:
This object.

This is a `shallow' copy; after the completion of this, the DataList will not own its elements. Any elements it owned prior to this call will be released.

Note: this method may only be called using the most derived DataList in the hierarchy.

Parameters:
rhs The DataList from which to assign.
Returns:
This object.

This is a `shallow' copy; after the completion of this, the DataList will not own its elements. Any elements it owned prior to this call will be released.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T, class BASE = typename DataListBase<T>::Base>
void DataList< T, BASE >::pop_back (  ) 

Remove the last element from the collection.

If the container owns its elements, then the removed element will be deleted.

template<class T, class BASE = typename DataListBase<T>::Base>
void DataList< T, BASE >::pop_front (  ) 

Remove the first element from the collection.

If the container owns its elements, then the removed element will be deleted.

template<class T , class BASE >
void DataList< T, BASE >::push_back ( value_type  pElem  )  [inline]

Add an element to the end of the collection.

Parameters:
pElem The element to add to the collection.

The container's ownership policy will determine if it takes ownership of the new element.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T , class BASE >
void DataList< T, BASE >::push_front ( value_type  pElem  )  [inline]

Add an element at the beginning of the collection.

Add an element to the beginning of the collection.

Parameters:
pElem The element to add to the collection.

The container's ownership policy will determine if it takes ownership of the new element.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T , class BASE >
DataList< T, BASE >::reverse_iterator DataList< T, BASE >::rbegin (  )  [inline]

Return a reverse_iterator pointing past the end of the collection.

Returns:
A reverse_iterator.

Note that dereferencing the iterator will yield a proxy rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
DataList< T, BASE >::const_reverse_iterator DataList< T, BASE >::rbegin (  )  const [inline]

Return a const_reverse_iterator pointing past the end of the collection.

Returns:
A const_reverse_iterator.

Note that dereferencing the iterator will yield a const T* rather than a reference.

template<class T , class BASE >
void DataList< T, BASE >::remove ( const value_type value  )  [inline]

Remove all elements equal to value.

Parameters:
value The value to remove.

Removes every element in the list equal to value. Remaining elements stay in list order.

template<class T , class BASE >
template<typename PREDICATE >
void DataList< T, BASE >::remove_if ( PREDICATE  pred  )  [inline]

Remove all elements satisfying a predicate.

Parameters:
p Unary predicate function or object.

Removes every element in the list for which the predicate returns true. Remaining elements stay in list order.

Parameters:
pred Unary predicate function or object.

Removes every element in the list for which the predicate returns true. Remaining elements stay in list order.

template<class T , class BASE >
DataList< T, BASE >::reverse_iterator DataList< T, BASE >::rend (  )  [inline]

Return a reverse_iterator pointing at the beginning of the collection.

Returns:
A reverse_iterator.

Note that dereferencing the iterator will yield a proxy rather than a reference; the proxy will handle deleting an owned element if it's assigned to.

template<class T , class BASE >
DataList< T, BASE >::const_reverse_iterator DataList< T, BASE >::rend (  )  const [inline]

Return a const_reverse_iterator pointing at the beginning of the collection.

Returns:
A const_reverse_iterator.

Note that dereferencing the iterator will yield a const T* rather than a reference.

template<class T, class BASE = typename DataListBase<T>::Base>
void DataList< T, BASE >::resize ( size_type  sz  ) 

Resizes the collection to the specified number of elements.

Parameters:
sz The new size of the collection.

Note that this function differs from the standard in that it does not allow specifying the value of any inserted elements. They will always be 0.

If the container is shrunk, elements will be deleted as with erase().

template<class T , class BASE >
void DataList< T, BASE >::resortAux ( iterator  beg,
iterator  end 
) [inline]

Reset indices / reorder aux data after elements have been permuted.

Parameters:
beg Start of the range of elements to process.
end End of the range of elements to process.

This is a no-op for DataList.

template<class T , class BASE >
void DataList< T, BASE >::reverse (  )  [inline]

Reverse the elements in list.

Reverse the order of elements in the list in linear time.

template<class T , class BASE >
void DataList< T, BASE >::setMostDerived (  )  [inline, protected, virtual]

Set m_isMostDerived for this instance and clear it for all bases.

Called from testInsert if the test fails. The flag may not have been set if this container was made via copy construction, so set it appropriately now so we can test again.

Reimplemented in DataList_detail::VirtBases< B1, DataModel_detail::NoBase, DataModel_detail::NoBase >, DataList_detail::VirtBases< B1, B2, DataModel_detail::NoBase >, and DataList_detail::VirtBases< B1, B2, B3 >.

template<class T , class BASE >
template<class COMPARE >
void DataList< T, BASE >::sort ( COMPARE  comp  )  [inline]

Sort the container with a user-specified comparison operator.

Parameters:
comp Functional to compare two values.
template<class T , class BASE >
void DataList< T, BASE >::sort (  )  [inline]

Sort the container.

This just sorts by pointer value, so it's probably not very useful.

template<class T , class BASE >
void DataList< T, BASE >::splice ( iterator  position,
DataList< T, BASE > &  l,
iterator  first,
iterator  last 
) [inline]

Insert range from another list.

Parameters:
position Iterator referencing the element to insert before.
l Source list.
first Iterator referencing the start of range in l.
last Iterator referencing the end of range in l.

Removes elements in the range [first, last ) and inserts them before position in constant time.

Undefined if position is in [first, last ).

template<class T , class BASE >
void DataList< T, BASE >::splice ( iterator  position,
DataList< T, BASE > &  l,
iterator  i 
) [inline]

Insert element from another list.

Parameters:
position Iterator referencing the element to insert before.
l Source list.
i Iterator referencing the element to move.

Removes the element in list l referenced by i and inserts it into the current list before position.

template<class T , class BASE >
void DataList< T, BASE >::splice ( iterator  position,
DataList< T, BASE > &  l 
) [inline]

Insert contents of another list.

Parameters:
position Iterator referencing the element to insert before.
l Source list.

The elements of l are inserted in constant time in front of the element referenced by position. l becomes an empty list.

template<class T, class BASE = typename DataListBase<T>::Base>
const PtrList & DataList< T, BASE >::stdcont (  )  const

Return the underlying std::list of the container.

Returns:
Reference to the std::list actually holding the collection.

Note that DataList<T>::stdcont does not necessarily return a std::list<T*> if DataList inheritance is being used.

template<class T , class BASE >
void DataList< T, BASE >::swap ( DataList< T, BASE > &  rhs  )  [inline]

Swap this collection with another.

Parameters:
rhs The collection with which to swap.

Ownership is swapped along with the collection content.

Note: this method may only be called using the most-derived DataList in the hierarchy. The rhs must also be referenced using the most-derived DataList.

template<class T , class BASE >
void DataList< T, BASE >::swapElement ( iterator  pos,
value_type  newElem,
reference  oldElem 
) [inline]

Swap one element out of the container.

Parameters:
pos The element in the container to swap.
newElem New element to put in the container. May be 0.
oldElem Reference to receive the element removed from the container.

Reference oldElem is initialized with element pos of the collection (no bounds checking). Then element index is set to newElem. If the collection owns its elements, then it will take ownership of newElem and release (without deleting) the element returned through oldElem.

Note: this method may only be called using the most derived DataList in the hierarchy.

template<class T , class BASE >
void DataList< T, BASE >::testInsert ( const char *  op  )  [inline]

Test if we can insert; raise an exception if not.

Parameters:
op Description of the attempted operation.

In order to maintain type-safety, we can only allow insertions using the most-derived instance of DataList. This checks this by testing the m_isMostDerived, which is set by the constructors to true only for the most-derived instance. If the test fails, we call to potentially out-of-line code to continue.

template<class T , class BASE >
void DataList< T, BASE >::testInsertOol ( const char *  op  )  [inline]

Test if we can insert; raise an exception if not.

Parameters:
op Description of the attempted operation.

This continues the test of testInsert. There is one case where m_isMostDerived may not be set correctly. If this container was made via copy construction, then all the m_isMostDerived flags will be false. So we call setMostDerived to set the flags correctly and test again. If the test fails again, then we raise an exception.

template<class T, class BASE = typename DataListBase<T>::Base>
template<typename BinaryPredicate >
void DataList< T, BASE >::unique ( BinaryPredicate  p  )  [inline]

Remove consecutive elements satisfying a predicate.

Parameters:
BinaryPredicate Binary predicate function or object.

For each consecutive set of elements [first,last) that satisfy predicate(first,i) where i is an iterator in [first,last), remove all but the first one. Remaining elements stay in list order.

template<class T, class BASE = typename DataListBase<T>::Base>
template<typename BINARY_PREDICATE >
void DataList< T, BASE >::unique ( BINARY_PREDICATE  p  )  [inline]

Remove consecutive elements satisfying a predicate.

Parameters:
p Binary predicate function or object.

For each consecutive set of elements [first,last) that satisfy predicate(first,i) where i is an iterator in [first,last), remove all but the first one. Remaining elements stay in list order.

template<class T , class BASE >
void DataList< T, BASE >::unique (  )  [inline]

Remove consecutive duplicate elements.

For each consecutive set of elements with the same value, remove all but the first one. Remaining elements stay in list order.


Member Data Documentation

template<class T, class BASE = typename DataListBase<T>::Base>
const bool DataList< T, BASE >::has_virtual = BASE::has_virtual [inline, static]

The documentation for this class was generated from the following files:
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