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template <class InIter, class OutIter, class Func> OutIter transform(InIter start, InIter end, OutIter result, Func unaryfunc); template <class InIter1, class InIter2, class OutIter, class Func> OutIter transform(InIter1 start1, InIter1 end1, InIter2 start2, OutIter result, Func binaryfunc);
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The transform( ) algorithm applies a function to a range of elements and stores the outcome in result In the first form, the range is specified by start and end The function to be applied is specified by unaryfunc This function receives the value of an element in its parameter and it must return its transformation In the second form, the transformation is applied using a binary operator function that receives the value of an element from the sequence to be transformed in its first parameter and an element from the second sequence as its second parameter Both versions return an iterator to the end of the resulting sequence
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unique and unique_copy
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template <class ForIter> ForIter unique(ForIter start, ForIter end); template <class ForIter, class BinPred> ForIter unique(ForIter start, ForIter end, BinPred pfn); template <class ForIter, class OutIter> OutIter unique_copy(ForIter start, ForIter end, OutIter result); template <class ForIter, class OutIter, class BinPred> OutIter unique_copy(ForIter start, ForIter end, OutIter result, BinPred pfn);
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The STL Algorithms
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The unique( ) algorithm eliminates duplicate elements from the specified range The second form allows you to specify a binary predicate that determines when one element is equal to another unique( ) returns an iterator to the end of the range The unique_copy( ) algorithm copies the range specified by start1 and end1, eliminating duplicate elements in the process The outcome is put into result The second form allows you to specify a binary predicate that determines when one element is equal to another unique_copy( ) returns an iterator to the end of the range
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upper_bound
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template <class ForIter, class T> ForIter upper_bound(ForIter start, ForIter end, const T &val); template <class ForIter, class T, class Comp> ForIter upper_bound(ForIter start, ForIter end, const T &val, Comp cmpfn);
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The upper_bound( ) algorithm finds the last point in the sequence defined by start and end that is not greater than val It returns an iterator to this point The second form allows you to specify a comparison function that determines when one element is less than another
THE STANDARD C++ CLASS LIBRARY
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STL Iterators, Allocators, and Function Objects
Copyright 2003 by The McGraw-Hill Companies Click here for terms of use
C++: The Complete Reference
his chapter describes the classes and functions that support iterators, allocators, and function objects These components are part of the standard template library They may also be used for other purposes
Iterators
While containers and algorithms form the foundation of the standard template library, iterators are the glue that holds it together An iterator is a generalization (or perhaps more precisely, an abstraction) of a pointer Iterators are handled in your program like pointers, and they implement the standard pointer operators They give you the ability to cycle through the contents of a container in much the same way that you would use a pointer to cycle through an array Standard C++ defines a set of classes and functions that support iterators However, for the vast majority of STL-based programming tasks, you will not use these classes directly Instead, you will use the iterators provided by the various containers in the STL, manipulating them like you would any other pointer The preceding notwithstanding, it is still valuable to have a general understanding of the iterator classes and their contents For example, it is possible to create your own iterators that accommodate special situations Also, developers of third-party libraries will find the iterator classes useful Iterators use the header <iterator>
The Basic Iterator Types
There are five types of iterators:
Iterator
Random Access Bidirectional Forward Input Output
Access Allowed
Store and retrieve values Elements may be accessed randomly Store and retrieve values Forward and backward moving Store and retrieve values Forward moving only Retrieve but not store values Forward moving only Store but not retrieve values Forward moving only
In general, an iterator that has greater access capabilities can be used in place of one that has lesser capabilities For example, a forward iterator can be used in place of an input iterator The STL also supports reverse iterators Reverse iterators are either bidirectional or random-access iterators that move through a sequence in the reverse direction Thus, if
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