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Predicate Version of adjacent_find

Ilustra como usar a versão predicada a adjacent_find função de biblioteca STL (Standard Template) no Visual C++.

template<class ForwardIterator, class BinaryPredicate> inline
   ForwardIterator adjacent_find(
      ForwardIterator First,
      ForwardIterator Last,
      BinaryPredicate Binary_Pred
   ) ;

Comentários

ObservaçãoObservação

Nomes de classe/parâmetro o protótipo não coincidem com a versão no arquivo de cabeçalho.Alguns foram modificados para melhorar a legibilidade.

O adjacent_find algoritmo localiza pares consecutivos de elementos correspondentes em uma seqüência.adjacent_findRetorna um iterador referenciando o primeiro elemento correspondente consecutivo no intervalo [First, Last), ou se há elementos desse tipo.Comparação é feita usando o binary_pred funcione nesta versão do algoritmo.O binary_pred função pode ser qualquer função definida pelo usuário.Você também pode usar um dos objetos binários função fornecidos pela STL.

Exemplo

// adfind2.cpp
// compile with: /EHsc
// Illustrates how to use the predicate version of
// adjacent_find function.
//
// Functions:
//   adjacent_find  - Locate a consecutive sequence in a range.

// disable warning C4786: symbol greater than 255 character,
// okay to ignore
#pragma warning(disable: 4786)

#include <iostream>
#include <algorithm>
#include <functional>
#include <string>
#include <vector>

using namespace std;


int main()
{
    const int VECTOR_SIZE = 5 ;

    // Define a template class vector of strings
    typedef vector<string > StringVector ;

    //Define an iterator for template class vector of strings
    typedef StringVector::iterator StringVectorIt ;

    StringVector NamesVect(VECTOR_SIZE) ;   //vector containing names

    StringVectorIt location ;   // stores the position for the
                                 // first pair of matching
                                 // consecutive elements.

    StringVectorIt start, end, it ;

    // Initialize vector NamesVect
    NamesVect[0] = "Aladdin" ;
    NamesVect[1] = "Jasmine" ;
    NamesVect[2] = "Mickey" ;
    NamesVect[3] = "Minnie" ;
    NamesVect[4] = "Goofy" ;

    start = NamesVect.begin() ;   // location of first
                                  // element of NamesVect

    end = NamesVect.end() ;       // one past the location
                                  // last element of NamesVect

    // print content of NamesVect
    cout << "NamesVect { " ;
    for(it = start; it != end; it++)
        cout << *it << ", " ;
    cout << " }\n" << endl ;

    // Find the first name that is lexicographically greater
    // than the following name in the range [first, last + 1).
    // This version performs matching using binary predicate
    // function greater<string>
    location = adjacent_find(start, end, greater<string>()) ;

    // print the first pair of strings such that the first name is
    // lexicographically greater than the second.
    if (location != end)
        cout << "(" << *location << ", " << *(location + 1) << ")"
        << " the first pair of strings in NamesVect such that\n"
        << "the first name is lexicographically greater than "
        << "the second\n" << endl ;
    else
        cout << "No consecutive pair of strings found such that\n"
        << "the first name is lexicographically greater than "
        << "the second\n" << endl ;

}

Saída

NamesVect { Aladdin, Jasmine, Mickey, Minnie, Goofy,  }

(Minnie, Goofy) the first pair of strings in NamesVect such that
the first name is lexicographically greater than the second

Requisitos

Cabeçalho: <algorithm>

Consulte também

Conceitos

Exemplos de biblioteca de modelo padrão