According to their name, MPL's *transformation*, or *sequence-building algorithms* provide the tools for building new sequences from the existing ones by performing some kind of transformation. A typical transformation alogrithm takes one or more input sequences and a transformation metafunction/predicate, and returns a new sequence built according to the algorithm's semantics through the means of its |Inserter| argument, which plays a role similar to the role of run-time |Output Iterator|. .. Say something about optionality of Inserters/their default behavior Every transformation algorithm is a |Reversible Algorithm|, providing an accordingly named ``reverse_`` counterpart carrying the transformation in the reverse order. Thus, all sequence-building algorithms come in pairs, for instance ``replace`` / ``reverse_replace``. In presence of variability of the output sequence's properties such as front or backward extensibility, the existence of the bidirectional algorithms allows for the most efficient way to perform the required transformation. .. |Transformation Algorithms| replace:: `Transformation Algorithms`_ .. |transformation algorithm| replace:: `transformation algorithm`_ .. _transformation algorithm: `Transformation Algorithms`_ .. |transformation algorithms| replace:: `transformation algorithms`_ .. 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)