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search, search_n
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search, search_n
Algorithm
Summary
Finds a sub-sequence within a sequence of values that is element-wise equal to the values in an indicated range.
Data Type and Member Function Indexes
(exclusive of constructors and destructors)
None
Synopsis
#include <algorithm>
template <class ForwardIterator1, class ForwardIterator2>
ForwardIterator1 search (ForwardIterator1 first1,
ForwardIterator1 last1,
ForwardIterator2 first2,
ForwardIterator2 last2);
template <class ForwardIterator1,
class ForwardIterator2,
class BinaryPredicate>
ForwardIterator1 search (ForwardIterator1 first1,
ForwardIterator1 last1,
ForwardIterator2 first2,
ForwardIterator2 last2,
BinaryPredicate binary_pred);
template <class ForwardIterator,
class Size,
class T>
ForwardIterator search_n (ForwardIterator first,
ForwardIterator last,
Size count, const T& value);
template <class ForwardIterator,
class Size,
class T,
class BinaryPredicate>
ForwardIterator search_n (ForwardIterator first,
ForwardIterator last,
Size count, const T& value,
BinaryPredicate pred)
Description
The search and search_n are used for searching for a sub-sequence within a sequence. The search algorithm searches for a sub-sequence [first2, last2) within a sequence [first1, last1), and returns the beginning location of the sub-sequence. If it does not find the sub-sequence, search returns last1. The first version of search uses the equality (==) operator as a default, and the second version allows you to specify a binary predicate to perform the comparison.
The search_n algorithm searches for the sub-sequence composed of count occurrences of value within a sequence [first, last), and returns first if this sub-sequence is found. If it does not find the sub-sequence, search_n returns last. The first version of search_n uses the equality (==) operator as a default, and the second version allows you to specify a binary predicate to perform the comparison.
Complexity
search performs at most (last1 - first1)*(last2-first2) applications of the corresponding predicate.
search_n performs at most (last - first) applications of the corresponding predicate.
Example
//
// search.cpp
//
#include <algorithm>
#include <list>
#include <iostream.h>
int main()
{
// Initialize a list sequence and
// sub-sequence with characters
char seq[40] = "Here's a string with a substring in it";
char subseq[10] = "substring";
list<char> sequence(seq, seq+39);
list<char> subseqnc(subseq, subseq+9);
//Print out the original sequence
cout << endl << "The sub-sequence, " << subseq
<< ", was found at the ";
cout << endl << "location identified by a '*'"
<< endl << " ";
// Create an iterator to identify the location of
// sub-sequence within sequence
list<char>::iterator place;
//Do search
place = search(sequence.begin(), sequence.end(),
subseqnc.begin(), subseqnc.end());
//Identify result by marking first character with a '*'
*place = '*';
//Output sequence to display result
for(list<char>::iterator i = sequence.begin();
i != sequence.end(); i++)
cout << *i;
cout << endl;
return 0;
}
Output :
The sub-sequence, substring, was found at the
location identified by a '*'
Here's a string with a *substring in it
Warning
If your compiler does not support default template parameters, then you need to always supply the Allocator template argument. For instance, you will need to write :
list<char, allocator<char> >
instead of :
list<char>
©Copyright 1996, Rogue Wave Software, Inc.
