/usr/include/blitz/array/indirect.h is in libblitz0-dev 1:0.10-3.2.
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/***************************************************************************
* blitz/array/indirect.h Array indirection
*
* $Id$
*
* Copyright (C) 1997-2011 Todd Veldhuizen <tveldhui@acm.org>
*
* This file is a part of Blitz.
*
* Blitz 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 3
* of the License, or (at your option) any later version.
*
* Blitz 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 Blitz. If not, see <http://www.gnu.org/licenses/>.
*
* Suggestions: blitz-devel@lists.sourceforge.net
* Bugs: blitz-support@lists.sourceforge.net
*
* For more information, please see the Blitz++ Home Page:
* https://sourceforge.net/projects/blitz/
*
****************************************************************************/
#ifndef BZ_ARRAY_INDIRECT_H
#define BZ_ARRAY_INDIRECT_H
#include <blitz/array/asexpr.h>
#include <blitz/array/cartesian.h>
BZ_NAMESPACE(blitz)
template<typename T_array, typename T_index>
class IndirectArray {
public:
IndirectArray(T_array& array, T_index& index)
: array_(array), index_(index)
{ }
template<typename T_expr>
void operator=(T_expr expr);
protected:
T_array& array_;
T_index& index_;
};
// Forward declarations
template<typename T_array, typename T_arrayiter, typename T_subdomain, typename T_expr>
inline void applyOverSubdomain(const T_array& array, T_arrayiter& arrayIter,
T_subdomain subdomain, T_expr expr);
template<typename T_array, typename T_arrayiter, int N_rank, typename T_expr>
inline void applyOverSubdomain(const T_array& array, T_arrayiter& arrayIter,
RectDomain<N_rank> subdomain,
T_expr expr);
template<typename T_array, typename T_index> template<typename T_rhs>
void IndirectArray<T_array, T_index>::operator=(T_rhs rhs)
{
typedef _bz_typename asExpr<T_rhs>::T_expr T_expr;
T_expr expr(rhs);
_bz_typename T_array::T_iterator arrayIter(array_);
_bz_typename T_index::iterator iter = index_.begin(),
end = index_.end();
for (; iter != end; ++iter)
{
_bz_typename T_index::value_type subdomain = *iter;
applyOverSubdomain(array_, arrayIter, subdomain, expr);
}
}
template<typename T_array, typename T_arrayiter, typename T_subdomain, typename T_expr>
inline void applyOverSubdomain(const T_array& BZ_DEBUG_PARAM(array), T_arrayiter& arrayIter,
T_subdomain subdomain, T_expr expr)
{
BZPRECHECK(array.isInRange(subdomain),
"In indirection using an STL container of TinyVector<int,"
<< array.rank() << ">, one of the" << endl << "positions is out of"
" range: " << endl << subdomain << endl
<< "Array lower bounds: " << array.lbound() << endl
<< "Array upper bounds: " << array.ubound() << endl)
arrayIter.moveTo(subdomain);
expr.moveTo(subdomain);
*const_cast<_bz_typename T_arrayiter::T_numtype*>(arrayIter.data()) = *expr;
}
// Specialization for RectDomain<N>
template<typename T_array, typename T_arrayiter, int N_rank, typename T_expr>
inline void applyOverSubdomain(const T_array& BZ_DEBUG_PARAM(array), T_arrayiter& arrayIter,
RectDomain<N_rank> subdomain,
T_expr expr)
{
typedef _bz_typename T_array::T_numtype T_numtype;
// Assume that the RectDomain<N_rank> is a 1-D strip.
// Find the dimension in which the strip is oriented. This
// variable is static so that we cache the value; likely to be
// the same for all strips within a container.
static int stripDim = 0;
if (subdomain.lbound(stripDim) == subdomain.ubound(stripDim))
{
// Cached value was wrong, find the correct value of stripDim
for (stripDim=0; stripDim < N_rank; ++stripDim)
if (subdomain.lbound(stripDim) != subdomain.ubound(stripDim))
break;
// Handle case where the strip is just a single point
if (stripDim == N_rank)
stripDim = 0;
}
#ifdef BZ_DEBUG
// Check that this is in fact a 1D strip
for (int i=0; i < N_rank; ++i)
if ((i != stripDim) && (subdomain.lbound(i) != subdomain.ubound(i)))
BZPRECHECK(0, "In indirection using an STL container of RectDomain<"
<< N_rank << ">, one of" << endl << "the RectDomain objects was not"
" a one-dimensional strip:" << endl << "RectDomain<" << N_rank
<< ">::lbound() = " << subdomain.lbound() << endl
<< "RectDomain<" << N_rank << ">::ubound() = " << subdomain.ubound())
#endif
// Check that the start and end position are in range
BZPRECHECK(array.isInRange(subdomain.lbound()),
"In indirection using an STL container of RectDomain<"
<< N_rank << ">, one of" << endl << "the RectDomain objects has a"
" lbound which is out of range:" << endl
<< subdomain.lbound() << endl
<< "Array lower bounds: " << array.lbound() << endl
<< "Array upper bounds: " << array.ubound() << endl)
BZPRECHECK(array.isInRange(subdomain.ubound()),
"In indirection using an STL container of RectDomain<"
<< N_rank << ">, one of" << endl << "the RectDomain objects has a"
" ubound which is out of range:" << endl
<< subdomain.lbound() << endl
<< "Array lower bounds: " << array.lbound() << endl
<< "Array upper bounds: " << array.ubound() << endl)
// Position at the beginning of the strip
arrayIter.moveTo(subdomain.lbound());
expr.moveTo(subdomain.lbound());
// Loop through the strip
#ifdef BZ_USE_FAST_READ_ARRAY_EXPR
bool useUnitStride = arrayIter.isUnitStride(stripDim)
&& expr.isUnitStride(stripDim);
int lbound = subdomain.lbound(stripDim);
int ubound = subdomain.ubound(stripDim);
if (useUnitStride)
{
T_numtype* restrict data = const_cast<T_numtype*>(arrayIter.data());
int length = ubound - lbound + 1;
for (int i=0; i < length; ++i)
*data++ = expr.fastRead(i);
}
else {
#endif
arrayIter.loadStride(stripDim);
expr.loadStride(stripDim);
for (int i=lbound; i <= ubound; ++i)
{
*const_cast<_bz_typename T_arrayiter::T_numtype*>(arrayIter.data())
= *expr;
expr.advance();
arrayIter.advance();
}
#ifdef BZ_USE_FAST_READ_ARRAY_EXPR
}
#endif
}
// Global functions for cartesian product of index sets
template<typename T_container>
CartesianProduct<TinyVector<int,2>,T_container,2>
indexSet(const T_container& container0, const T_container& container1)
{
return CartesianProduct<TinyVector<int,2>,T_container,2>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1));
}
template<typename T_container>
CartesianProduct<TinyVector<int,3>,T_container,3>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2)
{
return CartesianProduct<TinyVector<int,3>,T_container,3>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2));
}
template<typename T_container>
CartesianProduct<TinyVector<int,4>,T_container,4>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3)
{
return CartesianProduct<TinyVector<int,4>,T_container,4>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3));
}
template<typename T_container>
CartesianProduct<TinyVector<int,5>,T_container,5>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4)
{
return CartesianProduct<TinyVector<int,5>,T_container,5>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4));
}
template<typename T_container>
CartesianProduct<TinyVector<int,6>,T_container,6>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5)
{
return CartesianProduct<TinyVector<int,6>,T_container,6>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5));
}
template<typename T_container>
CartesianProduct<TinyVector<int,7>,T_container,7>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5,
const T_container& container6)
{
return CartesianProduct<TinyVector<int,7>,T_container,7>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5),
const_cast<T_container&>(container6));
}
template<typename T_container>
CartesianProduct<TinyVector<int,8>,T_container,8>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5,
const T_container& container6, const T_container& container7)
{
return CartesianProduct<TinyVector<int,8>,T_container,8>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5),
const_cast<T_container&>(container6),
const_cast<T_container&>(container7));
}
template<typename T_container>
CartesianProduct<TinyVector<int,9>,T_container,9>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5,
const T_container& container6, const T_container& container7,
const T_container& container8)
{
return CartesianProduct<TinyVector<int,9>,T_container,9>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5),
const_cast<T_container&>(container6),
const_cast<T_container&>(container7),
const_cast<T_container&>(container8));
}
template<typename T_container>
CartesianProduct<TinyVector<int,10>,T_container,10>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5,
const T_container& container6, const T_container& container7,
const T_container& container8, const T_container& container9)
{
return CartesianProduct<TinyVector<int,10>,T_container,10>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5),
const_cast<T_container&>(container6),
const_cast<T_container&>(container7),
const_cast<T_container&>(container8),
const_cast<T_container&>(container9));
}
template<typename T_container>
CartesianProduct<TinyVector<int,11>,T_container,11>
indexSet(const T_container& container0, const T_container& container1,
const T_container& container2, const T_container& container3,
const T_container& container4, const T_container& container5,
const T_container& container6, const T_container& container7,
const T_container& container8, const T_container& container9,
const T_container& container10)
{
return CartesianProduct<TinyVector<int,11>,T_container,11>(
const_cast<T_container&>(container0),
const_cast<T_container&>(container1),
const_cast<T_container&>(container2),
const_cast<T_container&>(container3),
const_cast<T_container&>(container4),
const_cast<T_container&>(container5),
const_cast<T_container&>(container6),
const_cast<T_container&>(container7),
const_cast<T_container&>(container8),
const_cast<T_container&>(container9),
const_cast<T_container&>(container10));
}
// Mixture of singletons and containers, e.g. A[indexSet(I,3,K)]
// cp_findContainerType<T1,T2,T3,...,Tn>::T_container
// The set of parameters T1, T2, T3, ... Tn is a mixture of
// int and T_container. This traits class finds the container
// type, and sets T_container.
//
// e.g. cp_findContainerType<int,int,list<int>,int>::T_container is list<int>
// cp_findContainerType<int,deque<int>,deque<int>>::T_container
// is deque<int>
template<typename T1, typename T2, typename T3=int, typename T4=int,
typename T5=int, typename T6=int, typename T7=int, typename T8=int,
typename T9=int, typename T10=int, typename T11=int>
struct cp_findContainerType {
typedef T1 T_container;
};
template<typename T2, typename T3, typename T4, typename T5, typename T6,
typename T7, typename T8, typename T9, typename T10, typename T11>
struct cp_findContainerType<int,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> {
typedef _bz_typename
cp_findContainerType<T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>::T_container
T_container;
};
// The cp_traits class handles promotion of singleton integers to
// containers. It takes two template parameters:
// T = argument type
// T2 = container type
// If T is an integer, then a container of type T2 is created and the
// integer is inserted. This container is returned.
// Otherwise, T is assumed to be the same type as T2, and the original
// container is returned.
template<typename T, typename T2>
struct cp_traits {
typedef T T_container;
static const T_container& make(const T& x)
{ return x; }
};
template<typename T2>
struct cp_traits<int,T2> {
typedef T2 T_container;
static T2 make(int x)
{
T2 singleton;
singleton.push_back(x);
return singleton;
}
};
// These versions of indexSet() allow mixtures of integer
// and container arguments. At least one integer must be
// specified.
template<typename T1, typename T2>
CartesianProduct<TinyVector<int,2>, _bz_typename
cp_findContainerType<T1,T2>::T_container,2>
indexSet(const T1& c1, const T2& c2)
{
typedef _bz_typename cp_findContainerType<T1,T2>::T_container
T_container;
return CartesianProduct<TinyVector<int,2>, T_container, 2>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2));
}
template<typename T1, typename T2, typename T3>
CartesianProduct<TinyVector<int,3>, _bz_typename
cp_findContainerType<T1,T2,T3>::T_container, 3>
indexSet(const T1& c1, const T2& c2, const T3& c3)
{
typedef _bz_typename cp_findContainerType<T1,T2,T3>::T_container
T_container;
return CartesianProduct<TinyVector<int,3>, T_container, 3>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3));
}
template<typename T1, typename T2, typename T3, typename T4>
CartesianProduct<TinyVector<int,4>, _bz_typename
cp_findContainerType<T1,T2,T3,T4>::T_container, 4>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4)
{
typedef _bz_typename cp_findContainerType<T1,T2,T3,T4>::T_container
T_container;
return CartesianProduct<TinyVector<int,4>, T_container, 4>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5>
CartesianProduct<TinyVector<int,5>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5>::T_container, 5>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5)
{
typedef _bz_typename cp_findContainerType<T1,T2,T3,T4,T5>::T_container
T_container;
return CartesianProduct<TinyVector<int,5>, T_container, 5>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6>
CartesianProduct<TinyVector<int,6>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6>::T_container, 6>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6)
{
typedef _bz_typename cp_findContainerType<T1,T2,T3,T4,T5,T6>::T_container
T_container;
return CartesianProduct<TinyVector<int,6>, T_container, 6>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6, typename T7>
CartesianProduct<TinyVector<int,7>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7>::T_container, 7>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6, const T7& c7)
{
typedef _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7>::T_container
T_container;
return CartesianProduct<TinyVector<int,7>, T_container, 7>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6),
cp_traits<T7,T_container>::make(c7));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6, typename T7, typename T8>
CartesianProduct<TinyVector<int,8>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8>::T_container, 8>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6, const T7& c7, const T8& c8)
{
typedef _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8>::T_container
T_container;
return CartesianProduct<TinyVector<int,8>, T_container, 8>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6),
cp_traits<T7,T_container>::make(c7),
cp_traits<T8,T_container>::make(c8));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6, typename T7, typename T8, typename T9>
CartesianProduct<TinyVector<int,9>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9>::T_container, 9>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6, const T7& c7, const T8& c8, const T9& c9)
{
typedef _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9>::T_container
T_container;
return CartesianProduct<TinyVector<int,9>, T_container, 9>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6),
cp_traits<T7,T_container>::make(c7),
cp_traits<T8,T_container>::make(c8),
cp_traits<T9,T_container>::make(c9));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6, typename T7, typename T8, typename T9, typename T10>
CartesianProduct<TinyVector<int,10>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>::T_container, 10>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6, const T7& c7, const T8& c8, const T9& c9, const T10& c10)
{
typedef _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>::T_container
T_container;
return CartesianProduct<TinyVector<int,10>, T_container, 10>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6),
cp_traits<T7,T_container>::make(c7),
cp_traits<T8,T_container>::make(c8),
cp_traits<T9,T_container>::make(c9),
cp_traits<T10,T_container>::make(c10));
}
template<typename T1, typename T2, typename T3, typename T4, typename T5,
typename T6, typename T7, typename T8, typename T9, typename T10,
typename T11>
CartesianProduct<TinyVector<int,11>, _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>::T_container, 11>
indexSet(const T1& c1, const T2& c2, const T3& c3, const T4& c4, const T5& c5,
const T6& c6, const T7& c7, const T8& c8, const T9& c9, const T10& c10,
const T11& c11)
{
typedef _bz_typename
cp_findContainerType<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>::T_container
T_container;
return CartesianProduct<TinyVector<int,11>, T_container, 11>(
cp_traits<T1,T_container>::make(c1),
cp_traits<T2,T_container>::make(c2),
cp_traits<T3,T_container>::make(c3),
cp_traits<T4,T_container>::make(c4),
cp_traits<T5,T_container>::make(c5),
cp_traits<T6,T_container>::make(c6),
cp_traits<T7,T_container>::make(c7),
cp_traits<T8,T_container>::make(c8),
cp_traits<T9,T_container>::make(c9),
cp_traits<T10,T_container>::make(c10),
cp_traits<T11,T_container>::make(c11));
}
BZ_NAMESPACE_END
#endif // BZ_ARRAY_INDIRECT_H
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