Share via


binder1st Class

A template class providing a constructor that converts a binary function object into a unary function object by binding the first argument of the binary function to a specified value.

template<class Operation>
class binder1st
   : public unary_function <
      typename Operation::second_argument_type,
      typename Operation::result_type> 
  {
   public:
   typedef typename Operation::argument_type argument_type;
   typedef typename Operation::result_type result_type;
   binder1st(
      const Operation & _Func,
      const typename Operation::first_argument_type& _Left
   );
   result_type operator()(
      const argument_type& _Right
   ) const;
   result_type operator()(
      const argument_type& _Right
   ) const;
   protected:
   Operation op;
   typename Operation::first_argument_type value;
   };

Parameters

  • _Func
    The binary function object to be converted to a unary function object.

  • _Left
    The value to which the first argument of the binary function object is to be bound.

  • _Right
    The value of the argument that the adapted binary object compares to the fixed value of the second argument.

Return Value

The unary function object that results from binding the first argument of the binary function object to the value _Left.

Remarks

The template class stores a copy of a binary function object _Func in op, and a copy of _Left in value. It defines its member function operator() as returning op(value, _Right).

If _Func is an object of type Operation and c is a constant , then bind1st ( _Func, c ) is equivalent to the binder1st class constructor binder1st<Operation> ( _Func, c ) and more convenient.

Example

// functional_binder1st.cpp
// compile with: /EHsc
#include <vector>
#include <functional>
#include <algorithm>
#include <iostream>

using namespace std;

int main()
{
    vector<int> v1;
    vector<int>::iterator Iter;

    int i;
    for (i = 0; i <= 5; i++)
    {
        v1.push_back(5 * i);
    }

    cout << "The vector v1 = ( ";
    for (Iter = v1.begin(); Iter != v1.end(); Iter++)
        cout << *Iter << " ";
    cout << ")" << endl;

    // Count the number of integers > 10 in the vector
    vector<int>::iterator::difference_type result1;
    result1 = count_if(v1.begin(), v1.end(),
        binder1st<less<int> >(less<int>(), 10));
    cout << "The number of elements in v1 greater than 10 is: "
         << result1 << "." << endl;

    // Compare use of binder2nd fixing 2nd argument:
    // count the number of integers < 10 in the vector
    vector<int>::iterator::difference_type result2;
    result2 = count_if(v1.begin(), v1.end(),
        binder2nd<less<int> >(less<int>(), 10));
    cout << "The number of elements in v1 less than 10 is: "
         << result2 << "." << endl;
}
The vector v1 = ( 0 5 10 15 20 25 )
The number of elements in v1 greater than 10 is: 3.
The number of elements in v1 less than 10 is: 2.

Requirements

Header: <functional>

Namespace: std

See Also

Reference

Thread Safety in the Standard C++ Library

Standard Template Library