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bitand_

Synopsis

template<
      typename T1
    , typename T2
    , typename T3 = unspecified
    ...
    , typename Tn = unspecified
    >
struct bitand_
{
    typedef unspecified type;
};

Description

Returns the result of bitwise and (&) operation of its arguments.

Header

#include <boost/mpl/bitand.hpp>
#include <boost/mpl/bitwise.hpp>

Model of

Numeric Metafunction

Parameters

Parameter Requirement Description
T1, T2,... Tn Integral Constant Operation's arguments.

[Note: The requirements listed in this specification are the ones imposed by the default implementation. See Numeric Metafunction concept for the details on how to provide an implementation for a user-defined numeric type that does not satisfy the Integral Constant requirements. — end note]

Expression semantics

For any Integral Constants c1,c2,... cn:

typedef bitand_<c1,...cn>::type r;
Return type:

Integral Constant.

Semantics:

Equivalent to

typedef integral_c<
      typeof(c1::value & c2::value)
    , ( c1::value & c2::value )
    > c;

typedef bitand_<c,c3,...cn>::type r;
typedef bitand_<c1,...cn> r;
Return type:

Integral Constant.

Semantics:

Equivalent to

struct r : bitand_<c1,...cn>::type {};

Complexity

Amortized constant time.

Example

typedef integral_c<unsigned,0> u0;
typedef integral_c<unsigned,1> u1;
typedef integral_c<unsigned,2> u2;
typedef integral_c<unsigned,8> u8;
typedef integral_c<unsigned,0xffffffff> uffffffff;

BOOST_MPL_ASSERT_RELATION( (bitand_<u0,u0>::value), ==, 0 );
BOOST_MPL_ASSERT_RELATION( (bitand_<u1,u0>::value), ==, 0 );
BOOST_MPL_ASSERT_RELATION( (bitand_<u0,u1>::value), ==, 0 );
BOOST_MPL_ASSERT_RELATION( (bitand_<u0,uffffffff>::value), ==, 0 );
BOOST_MPL_ASSERT_RELATION( (bitand_<u1,uffffffff>::value), ==, 1 );
BOOST_MPL_ASSERT_RELATION( (bitand_<u8,uffffffff>::value), ==, 8 );

See also

Bitwise Operations, Numeric Metafunction, numeric_cast, bitor_, bitxor_, shift_left