boost-react-native-bundle

<?xml version="1.0"?> <concept name="BidirectionalIterator" category="Iterator"> <param name="Iter" role="iterator-type"/> <use-header name="iterator"/> <models-sentence>The iterator type <arg num="1"/> must be a model of <self/>.</models-sentence> <description> <para>A bidirectional iterator is an iterator that can read through a sequence of values. It can move in either direction through the sequence, and can be either mutable (data pointed to by it can be changed) or not mutable.</para> <para>An iterator represents a position in a sequence. Therefore, the iterator can point into the sequence (returning a value when dereferenced and being incrementable), or be off-the-end (and not dereferenceable or incrementable).</para> </description> <associated-type name="value_type"> <get-member-type name="value_type"> <apply-template name="std::iterator_traits"> <type name="Iter"/> </apply-template> </get-member-type> <description><simpara>The value type of the iterator</simpara></description> </associated-type> <refines const="no" concept="ForwardIterator"/> <notation variables="i j"> <sample-value> <type name="Iter"/> </sample-value> </notation> <associated-type name="category"> <get-member-type name="iterator_category"> <apply-template name="std::iterator_traits"> <type name="Iter"/> </apply-template> </get-member-type> <description><simpara>The category of the iterator</simpara></description> </associated-type> <notation variables="x"> <sample-value> <type name="value_type"/> </sample-value> </notation> <valid-type-expression name="Category tag"> <description/> <type name="category"/> <return-type> <derived-from testable="yes"> <type name="std::bidirectional_iterator_tag"/> </derived-from> </return-type> </valid-type-expression> <valid-expression name="Predecrement"> <predecrement> <sample-value><reference-to><type name="Iter"/></reference-to></sample-value> </predecrement> <return-type> <require-same-type testable="yes"> <reference-to><type name="Iter"/></reference-to> </require-same-type> </return-type> <precondition><code>i</code> is incrementable (not off-the-end) and some dereferenceable iterator <code>j</code> exists such that <code>i == ++j</code></precondition> </valid-expression> <valid-expression name="Postdecrement"> <postdecrement> <sample-value><reference-to><type name="Iter"/></reference-to></sample-value> </postdecrement> <return-type> <require-same-type testable="yes"><type name="Iter"/></require-same-type> </return-type> <precondition>Same as for predecrement</precondition> <semantics>Equivalent to <code>{Iter j = i; --i; return j;}</code></semantics> <postcondition><code>i</code> is dereferenceable or off-the-end</postcondition> </valid-expression> <complexity> All iterator operations must take amortized constant time. </complexity> <invariant name="Predecrement must return object"> <code>&i = &(--i)</code> </invariant> <invariant name="Unique path through sequence"> <code>i == j</code> implies <code>--i == --j</code> </invariant> <invariant name="Increment and decrement are inverses"> <code>++i; --i;</code> and <code>--i; ++i;</code> must end up with the value of <code>i</code> unmodified, if <code>i</code> both of the operations in the pair are valid. </invariant> <example-model> <pointer-to> <type name="T"/> </pointer-to> </example-model> <example-model> <get-member-type name="iterator"> <apply-template name="std::list"> <type name="T"/> </apply-template> </get-member-type> </example-model> <see-also concept="RandomAccessIterator"/> </concept>