bidirectional_iterator<T, Distance>
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Category: iterators |
Component type: type |
Description
Bidirectional_iterator is an iterator base class: it is intended that an
iterator that is a model of Bidirectional Iterator, and whose value type
and distance type are T and Distance, may be defined by inheriting from
bidirectional_iterator<T, Distance> [1]. Bidirectional_iterator is entirely empty: it has no
member functions, member variables, or nested types. It exists solely
to simplify the definition of the functions iterator_category,
distance_type, and value_type.
Example
class my_bidirectional_iterator : public bidirectional_iterator<double>
{
...
};
This declares my_bidirectional_iterator to be a Bidirectional Iterator whose
value type is double and whose distance type is ptrdiff_t.
If Iter is an object of class my_bidirectional_iterator, then
iterator_category(Iter) will return bidirectional_iterator_tag(),
value_type(Iter) will return (double*) 0, and distance_type(Iter)
will return (ptrdiff_t*) 0.
Definition
Defined in the standard header iterator, and in the
nonstandard backward-compatibility header iterator.h.
This class is no longer part of the C++ standard, although
it was present in early drafts of the standard. It is retained
in this implementation for backward compatibility.
Template parameters
Parameter
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Description
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Default
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T
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The iterator's value type
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Distance
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The iterator's distance type
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ptrdiff_t
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Model of
Assignable
Public base classes
None
Type requirements
The distance type must be a signed integral type.
Public base classes
None.
Members
None.
New Members
None.
Notes
[1]
It is not required that a Bidirectional Iterator inherit from
the base bidirectional_iterator. It is, however, required that the
functions iterator_category, distance_type, and
value_type be defined for every Bidirectional Iterator.
(Or, if you are using the iterator_traits mechanism, that
iterator_traits is properly specialized for every
Bidirectional Iterator.) Since those functions are defined for
the base bidirectional_iterator, the easiest way to ensure that are
defined for a new type is to derive that class from
bidirectional_iterator and rely on the derived-to-base standard
conversion of function arguments.
See also
The Iterator Tags overview, iterator_traits,
iterator_category,
value_type, distance_type,
input_iterator, output_iterator,
forward_iterator, random_access_iterator
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