dune-common 2.9.0
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Public Types | Public Member Functions | List of all members
Dune::GenericIterator< C, T, R, D, IteratorFacade > Class Template Reference

Generic class for stl-conforming iterators for container classes with operator[]. More...

#include <dune/common/genericiterator.hh>

Inheritance diagram for Dune::GenericIterator< C, T, R, D, IteratorFacade >:
Inheritance graph

Public Types

typedef C Container
 The type of container we are an iterator for.
 
typedef T Value
 The value type of the iterator.
 
typedef D DifferenceType
 The type of the difference between two positions.
 
typedef R Reference
 The type of the reference to the values accessed.
 

Public Member Functions

 GenericIterator ()
 
 GenericIterator (Container &cont, DifferenceType pos)
 Constructor.
 
 GenericIterator (const MutableIterator &other)
 Copy constructor.
 
 GenericIterator (const ConstIterator &other)
 Copy constructor.
 
bool equals (const MutableIterator &other) const
 
bool equals (const ConstIterator &other) const
 
Reference dereference () const
 
void increment ()
 
void decrement ()
 
Reference elementAt (DifferenceType i) const
 
void advance (DifferenceType n)
 
DifferenceType distanceTo (const MutableIterator &other) const
 
DifferenceType distanceTo (const ConstIterator &other) const
 

Detailed Description

template<class C, class T, class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
class Dune::GenericIterator< C, T, R, D, IteratorFacade >

Generic class for stl-conforming iterators for container classes with operator[].

If template parameter C has a const qualifier we are a const iterator, otherwise we are a mutable iterator.

Member Typedef Documentation

◆ Container

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
typedef C Dune::GenericIterator< C, T, R, D, IteratorFacade >::Container

The type of container we are an iterator for.

The container type must provide an operator[] method.

If C has a const qualifier we are a const iterator, otherwise we are a mutable iterator.

◆ DifferenceType

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
typedef D Dune::GenericIterator< C, T, R, D, IteratorFacade >::DifferenceType

The type of the difference between two positions.

◆ Reference

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
typedef R Dune::GenericIterator< C, T, R, D, IteratorFacade >::Reference

The type of the reference to the values accessed.

◆ Value

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
typedef T Dune::GenericIterator< C, T, R, D, IteratorFacade >::Value

The value type of the iterator.

This is the return type when dereferencing the iterator.

Constructor & Destructor Documentation

◆ GenericIterator() [1/4]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Dune::GenericIterator< C, T, R, D, IteratorFacade >::GenericIterator ( )
inline

◆ GenericIterator() [2/4]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Dune::GenericIterator< C, T, R, D, IteratorFacade >::GenericIterator ( Container cont,
DifferenceType  pos 
)
inline

Constructor.

Parameters
contReference to the container we are an iterator for
posThe position the iterator will be positioned to (e.g. 0 for an iterator returned by Container::begin() or the size of the container for an iterator returned by Container::end()

◆ GenericIterator() [3/4]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Dune::GenericIterator< C, T, R, D, IteratorFacade >::GenericIterator ( const MutableIterator other)
inline

Copy constructor.

This is somehow hard to understand, therefore play with the cases:

  1. if we are mutable this is the only valid copy constructor, as the argument is a mutable iterator
  2. if we are a const iterator the argument is a mutable iterator => This is the needed conversion to initialize a const iterator from a mutable one.

◆ GenericIterator() [4/4]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Dune::GenericIterator< C, T, R, D, IteratorFacade >::GenericIterator ( const ConstIterator other)
inline

Copy constructor.

Warning
Calling this method results in a compiler error, if this is a mutable iterator.

This is somehow hard to understand, therefore play with the cases:

  1. if we are mutable the arguments is a const iterator and therefore calling this method is mistake in the user's code and results in a (probably not understandable) compiler error
  2. If we are a const iterator this is the default copy constructor as the argument is a const iterator too.

Member Function Documentation

◆ advance()

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
void Dune::GenericIterator< C, T, R, D, IteratorFacade >::advance ( DifferenceType  n)
inline

◆ decrement()

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
void Dune::GenericIterator< C, T, R, D, IteratorFacade >::decrement ( )
inline

◆ dereference()

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Reference Dune::GenericIterator< C, T, R, D, IteratorFacade >::dereference ( ) const
inline

◆ distanceTo() [1/2]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
DifferenceType Dune::GenericIterator< C, T, R, D, IteratorFacade >::distanceTo ( const ConstIterator other) const
inline

◆ distanceTo() [2/2]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
DifferenceType Dune::GenericIterator< C, T, R, D, IteratorFacade >::distanceTo ( const MutableIterator other) const
inline

◆ elementAt()

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
Reference Dune::GenericIterator< C, T, R, D, IteratorFacade >::elementAt ( DifferenceType  i) const
inline

◆ equals() [1/2]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
bool Dune::GenericIterator< C, T, R, D, IteratorFacade >::equals ( const ConstIterator other) const
inline

◆ equals() [2/2]

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
bool Dune::GenericIterator< C, T, R, D, IteratorFacade >::equals ( const MutableIterator other) const
inline

◆ increment()

template<class C , class T , class R = T&, class D = std::ptrdiff_t, template< class, class, class, class > class IteratorFacade = RandomAccessIteratorFacade>
void Dune::GenericIterator< C, T, R, D, IteratorFacade >::increment ( )
inline

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