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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN"> <html> <head> <title>Concepts</title> <meta name="GENERATOR" content="Microsoft Visual Studio .NET 7.1"> <meta name="vs_targetSchema" content="http://schemas.microsoft.com/intellisense/ie5"> </head> <body bgcolor = "white"> <h1>Concepts</h1> <p> Following are some concepts used throughout the documentation. </p> <ol> <li><a href = "#concepts_null_policies">Null Policy Classes</a></li> <li><a href = "#concepts_find_and_range_iterators">Find and Range Iterators</a></li> <li><a href = "#concepts_mapping_levels">Mapping Levels</a></li> </ol> <h2><a name = "concepts_null_policies">Null Policy Classes</a></h2> <p> Associative containers are typically parameterized by various policies. For example, a hash-based associative container is parameterized by a hash-functor, transforming each key into an non-negative numerical type. Each such value is then further mapped into a position within the table. The mapping of a key into a position within the table is therefore a two-step process. </p> <p> In some cases, instantiations are <i>redundant</i>. For example, when the keys are integers, it is possible to use a <i>redundant</i> hash policy, which transforms each key into its value. </p> <p> In some other cases, these policies are <i>irrelevent</i>. For example, a hash-based associative container might transform keys into positions within a table by a different method than the two-step method described above. In such a case, the hash functor is simply irrelevent. </p> <p> <tt>pb_assoc</tt> uses special pre-defined "null policies" classes for these cases. Some null policies in <tt>pb_assoc</tt> are: </p> <ol> <li <a href = "null_data_type.html"><tt>null_data_type</tt></a></li> <li><a href = "null_node_updator.html"><tt>null_node_updator</tt></a></li> <li><a href = "null_hash_fn.html"><tt>null_hash_fn</tt></a></li> <li><a href = "null_probe_fn.html"><tt>null_probe_fn</tt></a></li> </ol> <p> A "set" in <tt>pb_assoc</tt> is an associative container with its <tt>Data_Parameter</tt> instantiated by <a href = "null_data_type.html"><tt>null_data_type</tt></a>. <a href = "tree_based_containers.html#node_invariants.html">Tree-Based Containers::Node Invariants</a> explains another case where a null policy is needed. </p> <h2><a name = "concepts_find_and_range_iterators">Find and Range Methods and Iterators</a></h2> <p> Associative containers allow access to their elements via iterators. <i>E.g.</i>, <tt>find</tt> returns an iterator to an element with a given key and <tt>begin</tt> returns an iterator to the first element in the container. </p> <p> In general, there are two types of methods: <i>find types</i>, and <i>range types</i>. Find-type methods return iterators corresponding to elements which have been found in some sense, as the container searched for them in order to access them (<i>i.e.</i>, via the <tt>find</tt> method) or searched for their location in order to insert them (<i>i.e.</i>, via the <tt>insert</tt> method). Range-type methods return iterators which can be used to traverse the range of all stored elements, (<i>i.e.</i>, via the <tt>begin</tt> and <tt>end</tt> methods). </p> <p>Correspondingly, in <tt>pb_assoc</tt> there are two types of iterators: <i>find type</i> iterators are returned by find methods, and range iterators are returned by range methods. For example, if <tt>T</tt> is any associative container with integer keys, and <tt>t</tt> is a container of type <tt>T</tt>, then the following snippet is valid: </p> <pre> <b>typename</b> T::find_iterator it0 = t.find(3); <b>typename</b> T::const_find_iterator it0 = t.find(3); <b>typename</b> T::iterator it0 = t.begin(); <b>typename</b> T::const_iterator it0 = t.begin(); </pre> <p> This is motivated and explained further in <a href = "ds_gen.html#find_range">Data-Structure Genericity::Find-Type and Range-Type Methods and Iterators</a>, which also explains the relationship between find-type and range-type iterators. </p> <h2><a href = "#concepts_mapping_levels">Mapping Levels</a></h2> <p> In <tt>pb_assoc</tt> "multimaps" are "maps" of "sets". While this design allows efficient operations, it makes for cumbersome use at points. For example a "multimap" of integers to characters does not directly support <tt>inser(std::make_pair(2, 'b')</tt>, since 2 is mapped to a "set" of characters, and not to a character. </p> <p> Consequently, <tt>pb_assoc</tt> contains a rebind-like mechanism so that containers can support such operations. To dispel ambiguity, container types are assigned mapping levels. "Maps" and "sets" have a mapping level 1, since they use a single association level. The "multimap" above has a mapping level 2, since it uses two association levels: one for integers, and one for characters. The rebind mechanism can be used to alter the association level. This is described in <a href = "ms_gen.html">Mapping Semantics</a>. </p> </body> </html>