next_permutation
重新排列在范围内的元素,以便原始顺序进行了字典地下更大的范围替换,如果存在,其中明年 五月意义指定是二进制性质。
template<class BidirectionalIterator>
bool next_permutation(
BidirectionalIterator _First,
BidirectionalIterator _Last
);
template<class BidirectionalIterator, class BinaryPredicate>
bool next_permutation(
BidirectionalIterator _First,
BidirectionalIterator _Last,
BinaryPredicate _Comp
);
参数
_First
指向第一个元素的位置的双向迭代器将交换的范围。_Last
指向通过最终元素的位置的一双向迭代器将交换的范围。_Comp
定义连续的元素将足够的比较条件顺序的用户定义的谓词函数对象。 二进制谓词采用两个参数并返回 true ,在满足和 false,在未满足。
返回值
true,如果字典地下对现有和替换原始排序该范围;否则,false,在排序转换为字典的最小范围情况下。
备注
引用的范围必须是有效的;所有指针必须dereferenceable,并在该序列中最后位置以访问按增量。
默认二进制谓词比和在范围的组件必须程度低于可比较的确保小于下排列是显式定义的。
复杂是线性与至多(_Last – _First) /2 (交换。
示例
// alg_next_perm.cpp
// compile with: /EHsc
#include <vector>
#include <deque>
#include <algorithm>
#include <iostream>
#include <ostream>
using namespace std;
class CInt;
ostream& operator<<( ostream& osIn, const CInt& rhs );
class CInt
{
public:
CInt( int n = 0 ) : m_nVal( n ){}
CInt( const CInt& rhs ) : m_nVal( rhs.m_nVal ){}
CInt& operator=( const CInt& rhs ) {m_nVal =
rhs.m_nVal; return *this;}
bool operator<( const CInt& rhs ) const
{ return ( m_nVal < rhs.m_nVal );}
friend ostream& operator<<( ostream& osIn, const CInt& rhs );
private:
int m_nVal;
};
inline ostream& operator<<( ostream& osIn, const CInt& rhs )
{
osIn << "CInt( " << rhs.m_nVal << " )";
return osIn;
}
// Return whether modulus of elem1 is less than modulus of elem2
bool mod_lesser ( int elem1, int elem2 )
{
if ( elem1 < 0 )
elem1 = - elem1;
if ( elem2 < 0 )
elem2 = - elem2;
return elem1 < elem2;
};
int main( )
{
// Reordering the elements of type CInt in a deque
// using the prev_permutation algorithm
CInt c1 = 5, c2 = 1, c3 = 10;
bool deq1Result;
deque<CInt> deq1, deq2, deq3;
deque<CInt>::iterator d1_Iter;
deq1.push_back ( c1 );
deq1.push_back ( c2 );
deq1.push_back ( c3 );
cout << "The original deque of CInts is deq1 = (";
for ( d1_Iter = deq1.begin( ); d1_Iter != --deq1.end( ); d1_Iter++ )
cout << " " << *d1_Iter << ",";
d1_Iter = --deq1.end( );
cout << " " << *d1_Iter << " )." << endl;
deq1Result = next_permutation ( deq1.begin ( ) , deq1.end ( ) );
if ( deq1Result )
cout << "The lexicographically next permutation "
<< "exists and has\nreplaced the original "
<< "ordering of the sequence in deq1." << endl;
else
cout << "The lexicographically next permutation doesn't "
<< "exist\n and the lexicographically "
<< "smallest permutation\n has replaced the "
<< "original ordering of the sequence in deq1." << endl;
cout << "After one application of next_permutation,\n deq1 = (";
for ( d1_Iter = deq1.begin( ); d1_Iter != --deq1.end( ); d1_Iter++ )
cout << " " << *d1_Iter << ",";
d1_Iter = --deq1.end( );
cout << " " << *d1_Iter << " )." << endl << endl;
// Permuting vector elements with binary function mod_lesser
vector <int> v1;
vector <int>::iterator Iter1;
int i;
for ( i = -3 ; i <= 3 ; i++ )
{
v1.push_back( i );
}
cout << "Vector v1 is ( " ;
for ( Iter1 = v1.begin( ) ; Iter1 != v1.end( ) ; Iter1++ )
cout << *Iter1 << " ";
cout << ")." << endl;
next_permutation ( v1.begin ( ) , v1.end ( ) , mod_lesser );
cout << "After the first next_permutation, vector v1 is:\n v1 = ( " ;
for ( Iter1 = v1.begin( ) ; Iter1 != v1.end( ) ; Iter1++ )
cout << *Iter1 << " ";
cout << ")." << endl;
int iii = 1;
while ( iii <= 5 ) {
next_permutation ( v1.begin ( ) , v1.end ( ) , mod_lesser );
cout << "After another next_permutation of vector v1,\n v1 = ( " ;
for ( Iter1 = v1.begin( ) ; Iter1 != v1.end( ) ;Iter1 ++ )
cout << *Iter1 << " ";
cout << ")." << endl;
iii++;
}
}
要求
标头: <algorithm>
命名空间: std
请参见
参考
next_permutation (STL Samples)