.. Iterators/Concepts//Forward Iterator |10 Forward Iterator ================ Description ----------- A |Forward Iterator| ``i`` is a type that represents a positional reference to an element of a |Forward Sequence|. It allows to access the element through a dereference operation, and provides a way to obtain an iterator to the next element in a sequence. .. A [Forward Iterator] guarantees a linear traversal over the sequence. Definitions ----------- * An iterator can be `dereferenceable`, meaning that ``deref::type`` is a well-defined expression. * An iterator is `past-the-end` if it points beyond the last element of a sequence; past-the-end iterators are non-dereferenceable. * An iterator ``i`` is `incrementable` if there is a "next" iterator, that is, if ``next::type`` expression is well-defined; past-the-end iterators are not incrementable. * Two iterators into the same sequence are `equivalent` if they have the same type. * An iterator ``j`` is `reachable` from an iterator ``i`` if , after recursive application of ``next`` metafunction to ``i`` a finite number of times, ``i`` is equivalent to ``j``. * The notation [``i``,\ ``j``) refers to a `range` of iterators beginning with ``i`` and up to but not including ``j``. * The range [``i``,\ ``j``) is a `valid range` if ``j`` is reachable from ``i``. Expression requirements ----------------------- +-----------------------+-------------------------------------------+---------------------------+ | Expression | Type | Complexity | +=======================+===========================================+===========================+ | ``deref::type`` | Any type | Amortized constant time | +-----------------------+-------------------------------------------+---------------------------+ | ``next::type`` | |Forward Iterator| | Amortized constant time | +-----------------------+-------------------------------------------+---------------------------+ | ``i::category`` | |Integral Constant|, convertible | Constant time | | | to ``forward_iterator_tag`` | | +-----------------------+-------------------------------------------+---------------------------+ Expression semantics -------------------- .. parsed-literal:: typedef deref::type j; :Precondition: ``i`` is dereferenceable :Semantics: ``j`` is identical to the type of the pointed element .. .......................................................................... .. parsed-literal:: typedef next::type j; :Precondition: ``i`` is incrementable :Semantics: ``j`` is the next iterator in a sequence :Postcondition: ``j`` is dereferenceable or past-the-end .. .......................................................................... .. parsed-literal:: typedef i::category c; :Semantics: ``c`` is identical to the iterator's category tag Invariants ---------- For any forward iterators ``i`` and ``j`` the following invariants always hold: * ``i`` and ``j`` are equivalent if and only if they are pointing to the same element. * If ``i`` is dereferenceable, and ``j`` is equivalent to ``i``, then ``j`` is dereferenceable as well. * If ``i`` and ``j`` are equivalent and dereferenceable, then ``deref::type`` and ``deref::type`` are identical. * If ``i`` is incrementable, and ``j`` is equivalent to ``i``, then ``j`` is incrementable as well. * If ``i`` and ``j`` are equivalent and incrementable, then ``next::type`` and ``next::type`` are equivalent. See also -------- |Iterators|, |Bidirectional Iterator|, |Forward Sequence|, |deref|, |next| .. copyright:: Copyright © 2001-2009 Aleksey Gurtovoy and David Abrahams Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)