构造从基础迭代器的默认 reverse_iterator 或 reverse_iterator。
reverse_iterator( );
explicit reverse_iterator(
RandomIterator _Right
);
template<class Type>
reverse_iterator(
const reverse_iterator<Type>& _Right
);
参数
- _Right
将满足 reverse_iterator的迭代器。
返回值
默认 reverse_iterator 或调整为基础迭代器的 reverse_iterator。
备注
与其基础迭代器处理所有反向迭代器的标识是:
&* (reverse;iterator (i)) == &* ( i – 1)。
实际上,这意味着在该反向顺序reverse_iterator将引用在(右侧)的迭代器在原始序列引用组件之外的元素的位置。因此,如果迭代器解决了在序列(2,4,6,8),然后 reverse_iterator 元素6将解析该反向顺序(8,6,4,2)的元素4。
示例
// reverse_iterator_reverse_iterator.cpp
// compile with: /EHsc
#include <iterator>
#include <algorithm>
#include <vector>
#include <iostream>
int main( )
{
using namespace std;
int i;
vector<int> vec;
for ( i = 1 ; i < 6 ; ++i )
{
vec.push_back ( i );
}
vector <int>::iterator vIter;
cout << "The vector vec is: ( ";
for ( vIter = vec.begin ( ) ; vIter != vec.end ( ); vIter++)
cout << *vIter << " ";
cout << ")." << endl;
vector <int>::reverse_iterator rvIter;
cout << "The vector vec reversed is: ( ";
for ( rvIter = vec.rbegin( ) ; rvIter != vec.rend( ); rvIter++)
cout << *rvIter << " ";
cout << ")." << endl;
vector <int>::iterator pos;
pos = find ( vec.begin ( ), vec.end ( ), 4 );
cout << "The iterator pos = " << *pos << "." << endl;
vector <int>::reverse_iterator rpos ( pos );
cout << "The reverse_iterator rpos = " << *rpos
<< "." << endl;
}
Output
The vector vec is: ( 1 2 3 4 5 ).
The vector vec reversed is: ( 5 4 3 2 1 ).
The iterator pos = 4.
The reverse_iterator rpos = 3.
要求
标头: <iterator>
命名空间: std