pair Structure
The latest version of this topic can be found at pair Structure.
A struct that provides for the ability to treat two objects as a single object.
Syntax
struct pair { typedef T1 first_type; typedef T2 second_type; T1 first; T2 second; constexpr pair(); constexpr pair( const T1& Val1, const T2& Val2); template <class Other1, class Other2> constexpr pair( const pair<Other1, Other2>& Right); template <class Other1, class Other2> constexpr pair( const pair <Other1 Val1, Other2 Val2>&& Right); template <class Other1, class Other2> constexpr pair( Other1&& Val1, Other2&& Val2); };
Parameters
Val1
Value initializing the first element of pair
.
Val2
Value initializing the second element of pair
.
Right
A pair whose values are to be used to initialize the elements of another pair.
Return Value
The first (default) constructor initializes first element of the pair to the default of type T1 and second element to default of type T2.
The second constructor initializes first element of the pair to Val1
and second to Val2.
The third (template) constructor initializes first element of the pair to Right
. first and second to Right
. second.
The fourth constructor initializes first element of the pair to Val1
and second to Val2 using Rvalue Reference Declarator: &&.
Remarks
The template struct stores a pair of objects of type T1 and T2, respectively. The type first_type is the same as the template parameter T1 and the type second_type is the same as the template parameter T2. T1 and T2 each need supply only a default constructor, a single-argument constructor, and a destructor. All members of the type pair
are public, because the type is declared as a struct
rather than as a class. The two most common uses for a pair are as return types for functions that return two values and as elements for the associative container classes map Class and multimap Class that have both a key and a value type associated with each element. The latter satisfies the requirements for a pair associative container and has a value type of the form pair
< constkey_type
, mapped_type
>.
Example
// utility_pair.cpp
// compile with: /EHsc
#include <utility>
#include <map>
#include <iomanip>
#include <iostream>
int main( )
{
using namespace std;
// Using the constructor to declare and initialize a pair
pair <int, double> p1 ( 10, 1.1e-2 );
// Compare using the helper function to declare and initialize a pair
pair <int, double> p2;
p2 = make_pair ( 10, 2.22e-1 );
// Making a copy of a pair
pair <int, double> p3 ( p1 );
cout.precision ( 3 );
cout << "The pair p1 is: ( " << p1.first << ", "
<< p1.second << " )." << endl;
cout << "The pair p2 is: ( " << p2.first << ", "
<< p2.second << " )." << endl;
cout << "The pair p3 is: ( " << p3.first << ", "
<< p3.second << " )." << endl;
// Using a pair for a map element
map <int, int> m1;
map <int, int>::iterator m1_Iter;
typedef pair <int, int> Map_Int_Pair;
m1.insert ( Map_Int_Pair ( 1, 10 ) );
m1.insert ( Map_Int_Pair ( 2, 20 ) );
m1.insert ( Map_Int_Pair ( 3, 30 ) );
cout << "The element pairs of the map m1 are:";
for ( m1_Iter = m1.begin( ); m1_Iter != m1.end( ); m1_Iter++ )
cout << " ( " << m1_Iter -> first << ", "
<< m1_Iter -> second << " )";
cout << "." << endl;
// Using pair as a return type for a function
pair< map<int,int>::iterator, bool > pr1, pr2;
pr1 = m1.insert ( Map_Int_Pair ( 4, 40 ) );
pr2 = m1.insert ( Map_Int_Pair (1, 10 ) );
if( pr1.second == true )
{
cout << "The element (4,40) was inserted successfully in m1."
<< endl;
}
else
{
cout << "The element with a key value of\n"
<< " ( (pr1.first) -> first ) = " << ( pr1.first ) -> first
<< " is already in m1,\n so the insertion failed." << endl;
}
if( pr2.second == true )
{
cout << "The element (1,10) was inserted successfully in m1."
<< endl;
}
else
{
cout << "The element with a key value of\n"
<< " ( (pr2.first) -> first ) = " << ( pr2.first ) -> first
<< " is already in m1,\n so the insertion failed." << endl;
}
}
\* Output:
The pair p1 is: ( 10, 0.011 ).
The pair p2 is: ( 10, 0.222 ).
The pair p3 is: ( 10, 0.011 ).
The element pairs of the map m1 are: ( 1, 10 ) ( 2, 20 ) ( 3, 30 ).
The element (4,40) was inserted successfully in m1.
The element with a key value of
( (pr2.first) -> first ) = 1 is already in m1,
so the insertion failed.
*\
Requirements
Header: <utility>
Namespace: std
See Also
Pair Logical Operator
Thread Safety in the C++ Standard Library