/usr/include/trilinos/Shards_SimpleArrayOps.hpp is in libtrilinos-dev 10.4.0.dfsg-1ubuntu2.
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/* shards : Shared Discretization Tools */
/* Copyright (2008) Sandia Corporation */
/* */
/* Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive */
/* license for use of this work by or on behalf of the U.S. Government. */
/* */
/* This library is free software; you can redistribute it and/or modify */
/* it under the terms of the GNU Lesser General Public License as */
/* published by the Free Software Foundation; either version 2.1 of the */
/* License, or (at your option) any later version. */
/* */
/* This library is distributed in the hope that it will be useful, */
/* but WITHOUT ANY WARRANTY; without even the implied warranty of */
/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU */
/* Lesser General Public License for more details. */
/* */
/* You should have received a copy of the GNU Lesser General Public */
/* License along with this library; if not, write to the Free Software */
/* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 */
/* USA */
/*------------------------------------------------------------------------*/
#ifndef Shards_SimpleArrayOps_hpp
#define Shards_SimpleArrayOps_hpp
namespace shards {
/** \ingroup shards_package
* \defgroup shards_package_simple_array_ops Simple Compile-time Sized Array Operations
*
* \brief Simple operations such as Copy<N>, Sum<N>, Max<N>, etc.
*
* \author H. Carter Edwards <hcedwar@sandia.gov>
*
* \{
*/
/** \brief Copy into an array.
* \tparam n Number of members to copy.
*/
template< unsigned n , unsigned i = 0 >
struct Copy {
enum { N = n , I = i };
/** \brief dst[0..N-1] = src[0..N-1] */
template<typename T>
inline Copy( T * const dst , const T * const src )
{ dst[I] = src[I] ; Copy<N-1,I+1>(dst,src); }
/** \brief dst[0..N-1] = src */
template<typename T>
inline Copy( T * const dst , const T src )
{ dst[I] = src ; Copy<N-1,I+1>(dst,src); }
Copy() {}
};
/** \brief Sum into an array.
* \tparam n Number of members to sum.
*/
template< unsigned n , unsigned i = 0 >
struct Sum {
enum { N = n , I = i };
/** \brief dst[0..N-1] += src[0..N-1] */
template<typename T>
inline Sum( T * const dst , const T * const src )
{ dst[I] += src[I] ; Sum<N-1,I+1>(dst,src); }
/** \brief dst[0..N-1] += a * src[0..N-1] */
template<typename T>
inline Sum( T * const dst , const T a , const T * const src )
{ dst[I] += a * src[I] ; Sum<N-1,I+1>(dst,a,src); }
Sum() {}
};
/** \brief Scale into an array.
* \tparam n Number of members to multiply.
*/
template< unsigned n , unsigned i = 0 >
struct Prod {
enum { N = n , I = i };
/** \brief dst[0..N-1] *= src[0..N-1] */
template<typename T>
inline Prod( T * const dst , const T * const src )
{ dst[I] *= src[I] ; Prod<N-1,I+1>(dst,src); }
Prod() {}
};
/** \brief Bitwise-or into an array.
* \tparam n Number of members to or.
*/
template< unsigned n , unsigned i = 0 >
struct BitOr {
enum { N = n , I = i };
/** \brief dst[0..N-1] |= src[0..N-1] */
template<typename T>
inline BitOr( T * const dst , const T * const src )
{ dst[I] |= src[I] ; BitOr<N-1,I+1>(dst,src); }
BitOr() {}
};
/** \brief Bitwise-and into an array.
* \tparam n Number of members to and.
*/
template< unsigned n , unsigned i = 0 >
struct BitAnd {
enum { N = n , I = i };
/** \brief dst[0..N-1] &= src[0..N-1] */
template<typename T>
inline BitAnd( T * const dst , const T * const src )
{ dst[I] &= src[I] ; BitAnd<N-1,I+1>(dst,src); }
BitAnd() {}
};
/** \brief Take maximum value of each member of two arrays.
* \tparam n Number of members to iterate.
*/
template< unsigned n , unsigned i = 0 >
struct Max {
enum { N = n , I = i };
/** \brief dst[0..N-1] = max( dst[0..N-1] , src[0..N-1] ) */
template<typename T>
inline Max( T * const dst , const T * const src )
{ if ( dst[I] < src[I] ) { dst[I] = src[I] ; } Max<N-1,I+1>(dst,src); }
Max() {}
};
/** \brief Take minimum value of each member of two arrays.
* \tparam n Number of members to iterate.
*/
template< unsigned n , unsigned i = 0 >
struct Min {
enum { N = n , I = i };
/** \brief dst[0..N-1] = min( dst[0..N-1] , src[0..N-1] ) */
template<typename T>
inline Min( T * const dst , const T * const src )
{ if ( src[I] < dst[I] ) { dst[I] = src[I] ; } Min<N-1,I+1>(dst,src); }
Min() {}
};
/** \brief Inner product of two arrays
* \tparam n Number of members to iterate.
*/
template< unsigned n , unsigned i = 0 >
struct InnerProduct {
enum { N = n , I = i };
/** \brief value += sum[ k = 0..N-1 ]( x[k] * y[k] ) */
template<typename T>
inline InnerProduct( T & value , const T * const x , const T * const y )
{ value += x[I] * y[I] ; InnerProduct<N-1,I+1>( value , x , y ); }
InnerProduct() {}
};
/** \brief Lexicographical comparison of two arrays.
* \tparam n Number of members to iterate.
*/
template< unsigned n , unsigned i = 0 >
struct Compare {
enum { N = n , I = i };
/** \brief All members are equal */
template<typename T>
inline static bool equal( const T * const x , const T * const y )
{ return x[I] == y[I] && Compare<N-1,I+1>::equal(x,y); }
/** \brief All members are not equal */
template<typename T>
inline static bool not_equal( const T * const x , const T * const y )
{ return x[I] != y[I] || Compare<N-1,I+1>::not_equal(x,y); }
/** \brief First non-equal members satisfy x[k] < y[k] */
template<typename T>
inline static bool less( const T * const x , const T * const y )
{
return x[I] != y[I] ? x[I] < y[I] : Compare<N-1,I+1>::less(x,y);
}
/** \brief First non-equal members satisfies x[k] <= y[k] */
template<typename T>
inline static bool less_equal( const T * const x , const T * const y )
{
return x[I] != y[I] ? x[I] < y[I] : Compare<N-1,I+1>::less_equal(x,y);
}
/** \brief First non-equal members satisfies x[k] > y[k] */
template<typename T>
inline static bool greater( const T * const x , const T * const y )
{
return x[I] != y[I] ? x[I] > y[I] : Compare<N-1,I+1>::greater(x,y);
}
/** \brief First non-equal members satisfies x[k] >= y[k] */
template<typename T>
inline static bool greater_equal( const T * const x , const T * const y )
{
return x[I] != y[I] ? x[I] > y[I] : Compare<N-1,I+1>::greater_equal(x,y);
}
Compare() {}
};
/** \} */
//----------------------------------------------------------------------
#ifndef DOXYGEN_COMPILE
template<unsigned i>
struct Copy<0,i> {
enum { N = 0 };
Copy() {}
template<typename T> inline Copy( T * const , const T * const ) {}
template<typename T> inline Copy( T * const , const T ) {}
};
template<unsigned i>
struct Sum<0,i> {
enum { N = 0 };
Sum() {}
template<typename T> inline Sum( T * const , const T * const ) {}
template<typename T> inline Sum( T * const , const T , const T * const ) {}
};
template<unsigned i>
struct Prod<0,i> {
enum { N = 0 };
Prod() {}
template<typename T> inline Prod( T * const , const T * const ) {}
};
template<unsigned i>
struct Max<0,i> {
enum { N = 0 };
Max() {}
template<typename T> inline Max( T * const , const T * const ) {}
};
template<unsigned i>
struct Min<0,i> {
enum { N = 0 };
Min() {}
template<typename T> inline Min( T * const , const T * const ) {}
};
template<unsigned i>
struct BitOr<0,i> {
enum { N = 0 };
BitOr() {}
template<typename T> inline BitOr( T * const , const T * const ) {}
};
template<unsigned i>
struct BitAnd<0,i> {
enum { N = 0 };
BitAnd() {}
template<typename T> inline BitAnd( T * const , const T * const ) {}
};
template<unsigned i>
struct InnerProduct<0,i> {
enum { N = 0 };
InnerProduct() {}
template<typename T>
inline InnerProduct( T & , const T * const , const T * const ) {}
};
template<unsigned i>
struct Compare<0,i> {
enum { N = 0 };
Compare() {}
template<typename T>
inline static bool equal( const T * const , const T * const )
{ return true ; }
template<typename T>
inline static bool not_equal( const T * const , const T * const )
{ return false ; }
template<typename T>
inline static bool less( const T * const , const T * const )
{ return false ; }
template<typename T>
inline static bool less_equal( const T * const , const T * const )
{ return true ; }
template<typename T>
inline static bool greater( const T * const , const T * const )
{ return false ; }
template<typename T>
inline static bool greater_equal( const T * const , const T * const )
{ return true ; }
};
#endif /* DOXYGEN_COMPILE */
} // namespace shards
#endif
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