cnorxz/src/include/xfor/xfor.h

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#ifndef __xfor_h__
#define __xfor_h__
#include <cstdlib>
#include <memory>
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#include <tuple>
#include "xfor/for_type.h"
#include "xfor/for_utils.h"
#include "xfor/exttype.h"
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#define VCHECK(a) std::cout << __FILE__ << ": @" << __LINE__ \
<< " in " << __func__ << ": " << #a << " = " << a << std::endl;
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namespace MultiArrayHelper
{
// 'HIDDEN FOR' CLASS for nested for loops in contractions a.s.o.
// (NO COUNTING OF MASTER POSITION !!!!!)
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typedef std::pair<size_t const*,size_t> DExt;
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inline MExt<void> mkExt(size_t s) { return MExt<void>(s); }
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class ExpressionBase
{
public:
ExpressionBase() = default;
ExpressionBase(const ExpressionBase& in) = default;
ExpressionBase(ExpressionBase&& in) = default;
ExpressionBase& operator=(const ExpressionBase& in) = default;
ExpressionBase& operator=(ExpressionBase&& in) = default;
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virtual void operator()(size_t mlast, DExt last) const = 0;
virtual void operator()(size_t mlast = 0) const = 0;
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virtual DExt dRootSteps(std::intptr_t iPtrNum = 0) const = 0;
virtual DExt dExtension() const = 0;
};
template <ForType FT = ForType::DEFAULT>
struct PosForward
{
static inline size_t valuex(size_t last, size_t step, size_t pos)
{
return last + pos * step;
}
static inline size_t value(size_t last, size_t max, size_t pos)
{
return last * max + pos;
}
};
template <>
struct PosForward<ForType::HIDDEN>
{
static inline size_t valuex(size_t last, size_t step, size_t pos)
{
return last;
}
static inline size_t value(size_t last, size_t max, size_t pos)
{
return last;
}
};
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template <size_t ISSTATIC>
struct ForBound
{
template <size_t BOUND>
static inline size_t bound(size_t bound)
{
return bound;
}
};
template <>
struct ForBound<1>
{
template <size_t BOUND>
static constexpr size_t bound(size_t bound)
{
return BOUND;
}
};
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template <class IndexClass, class Expr>
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class SingleExpression : public ExpressionBase
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{
private:
SingleExpression() = default;
const IndexClass* mIndPtr;
size_t mSPos;
size_t mMax;
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Expr mExpr;
typedef decltype(mExpr.rootSteps()) ExtType;
ExtType mExt;
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mutable ExtType mRootSteps;
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public:
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typedef ExpressionBase EB;
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static constexpr size_t LAYER = Expr::LAYER + 1;
static constexpr size_t SIZE = Expr::SIZE;
SingleExpression(const SingleExpression& in) = default;
SingleExpression& operator=(const SingleExpression& in) = default;
SingleExpression(SingleExpression&& in) = default;
SingleExpression& operator=(SingleExpression&& in) = default;
SingleExpression(const std::shared_ptr<IndexClass>& indPtr,
Expr expr);
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SingleExpression(const IndexClass* indPtr,
Expr expr);
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inline void operator()(size_t mlast, DExt last) const override final;
inline void operator()(size_t mlast, ExtType last) const;
inline void operator()(size_t mlast = 0) const override final;
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DExt dRootSteps(std::intptr_t iPtrNum = 0) const override final;
DExt dExtension() const override final;
auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
auto extension() const -> ExtType;
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};
template <class IndexClass, class Expr>
class SubExpr : public ExpressionBase
{
private:
SubExpr() = default;
const IndexClass* mIndPtr;
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std::intptr_t mSIPtr;
size_t mSPos;
size_t mMax;
Expr mExpr;
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typedef decltype(mkExt(0).extend(mExpr.rootSteps())) ExtType;
ExtType mExt;
const std::vector<size_t>* mSubSet;
mutable ExtType mRootSteps;
public:
typedef ExpressionBase EB;
static constexpr size_t LAYER = Expr::LAYER + 1;
static constexpr size_t SIZE = Expr::SIZE;
SubExpr(const SubExpr& in) = default;
SubExpr& operator=(const SubExpr& in) = default;
SubExpr(SubExpr&& in) = default;
SubExpr& operator=(SubExpr&& in) = default;
SubExpr(const std::shared_ptr<IndexClass>& indPtr,
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std::intptr_t siptr,
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const std::vector<size_t>* subset, Expr expr);
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SubExpr(const IndexClass* indPtr, std::intptr_t siptr,
const std::vector<size_t>* subset, Expr expr);
inline void operator()(size_t mlast, DExt last) const override final;
inline void operator()(size_t mlast, ExtType last) const;
inline void operator()(size_t mlast = 0) const override final;
DExt dRootSteps(std::intptr_t iPtrNum = 0) const override final;
DExt dExtension() const override final;
auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
auto extension() const -> ExtType;
};
template <class IndexClass, class Expr, ForType FT>
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class For : public ExpressionBase
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{
private:
For() = default;
const IndexClass* mIndPtr;
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size_t mSPos;
size_t mMax;
size_t mStep;
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Expr mExpr;
typedef decltype(mExpr.rootSteps()) ExtType;
ExtType mExt;
mutable ExtType mRootSteps;
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public:
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typedef ExpressionBase EB;
static constexpr size_t LAYER = Expr::LAYER + 1;
static constexpr size_t SIZE = Expr::SIZE;
For(const For& in) = default;
For& operator=(const For& in) = default;
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For(For&& in) = default;
For& operator=(For&& in) = default;
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For(const std::shared_ptr<IndexClass>& indPtr,
size_t step, Expr expr);
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For(const IndexClass* indPtr,
size_t step, Expr expr);
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inline void operator()(size_t mlast, DExt last) const override final;
inline void operator()(size_t mlast, ExtType last) const;
inline void operator()(size_t mlast = 0) const override final;
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DExt dRootSteps(std::intptr_t iPtrNum = 0) const override final;
DExt dExtension() const override final;
auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
auto extension() const -> ExtType;
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};
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template <size_t N>
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inline size_t exceptMax(size_t max) { return max; }
template <>
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inline size_t exceptMax<1>(size_t max) { return 1; }
class DynamicExpression : public ExpressionBase
{
private:
DynamicExpression() = default;
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std::shared_ptr<ExpressionBase> mNext;
public:
DynamicExpression(const DynamicExpression& in) = default;
DynamicExpression(DynamicExpression&& in) = default;
DynamicExpression& operator=(const DynamicExpression& in) = default;
DynamicExpression& operator=(DynamicExpression&& in) = default;
DynamicExpression(const std::shared_ptr<ExpressionBase>& next) :
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mNext(next)
{}
template <class Expr>
DynamicExpression(Expr ex) : mNext( std::make_shared<Expr>(ex) ) {}
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inline void operator()(size_t mlast, DExt last) const override final;
inline void operator()(size_t mlast = 0) const override final;
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inline DExt dRootSteps(std::intptr_t iPtrNum = 0) const override final;
inline DExt dExtension() const override final;
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};
template <class Expr>
class ExpressionHolder : public ExpressionBase
{
private:
ExpressionHolder() = default;
DynamicExpression mExpr;
typedef decltype(std::declval<Expr>().rootSteps()) ExtType;
ExtType mExt;
mutable ExtType mRootSteps;
public:
typedef ExpressionBase EB;
static constexpr size_t LAYER = Expr::LAYER + 1;
static constexpr size_t SIZE = Expr::SIZE;
ExpressionHolder(const ExpressionHolder& in) = default;
ExpressionHolder(ExpressionHolder&& in) = default;
ExpressionHolder& operator=(const ExpressionHolder& in) = default;
ExpressionHolder& operator=(ExpressionHolder&& in) = default;
ExpressionHolder(DynamicExpression expr);
inline void operator()(size_t mlast, DExt last) const override final;
inline void operator()(size_t mlast, ExtType last) const;
inline void operator()(size_t mlast = 0) const override final;
DExt dRootSteps(std::intptr_t iPtrNum = 0) const override final;
DExt dExtension() const override final;
auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
auto extension() const -> ExtType;
};
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} // namespace MultiArrayHelper
/* ========================= *
* --- TEMPLATE CODE --- *
* ========================= */
#include <iostream>
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namespace MultiArrayHelper
{
/*****************
* F o r *
*****************/
template <class IndexClass, class Expr, ForType FT>
For<IndexClass,Expr,FT>::For(const std::shared_ptr<IndexClass>& indPtr,
size_t step, Expr expr) :
mIndPtr(indPtr.get()), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()), mStep(step),
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mExpr(expr), mExt(mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )))
{
assert(mIndPtr != nullptr);
}
template <class IndexClass, class Expr, ForType FT>
For<IndexClass,Expr,FT>::For(const IndexClass* indPtr,
size_t step, Expr expr) :
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mIndPtr(indPtr), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()), mStep(step),
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mExpr(expr), mExt(mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )))
{
assert(mIndPtr != nullptr);
}
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template <class IndexClass, class Expr, ForType FT>
inline void For<IndexClass,Expr,FT>::operator()(size_t mlast, DExt last) const
{
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operator()(mlast, *reinterpret_cast<ExtType const*>(last.first));
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}
template <class IndexClass, class Expr, ForType FT>
inline void For<IndexClass,Expr,FT>::operator()(size_t mlast,
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ExtType last) const
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{
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typedef typename IndexClass::RangeType RangeType;
for(size_t pos = 0u; pos != ForBound<RangeType::ISSTATIC>::template bound<RangeType::SIZE>(mMax); ++pos){
//for(size_t pos = mSPos; pos != mMax; ++pos){
//const size_t mnpos = PosForward<FT>::value(mlast, mMax, pos);
const size_t mnpos = PosForward<FT>::valuex(mlast, mStep, pos);
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const ExtType npos = last + mExt*pos;
mExpr(mnpos, npos);
}
}
template <class IndexClass, class Expr, ForType FT>
inline void For<IndexClass,Expr,FT>::operator()(size_t mlast) const
{
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typedef typename IndexClass::RangeType RangeType;
const ExtType last;
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for(size_t pos = 0u; pos != ForBound<RangeType::ISSTATIC>::template bound<RangeType::SIZE>(mMax); ++pos){
//for(size_t pos = mSPos; pos != mMax; ++pos){
//const size_t mnpos = PosForward<FT>::value(mlast, mMax, pos);
const size_t mnpos = PosForward<FT>::valuex(mlast, mStep, pos);
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const ExtType npos = last + mExt*pos;
mExpr(mnpos, npos);
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}
}
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template <class IndexClass, class Expr, ForType FT>
auto For<IndexClass,Expr,FT>::rootSteps(std::intptr_t iPtrNum) const
-> ExtType
{
return mExpr.rootSteps(iPtrNum);
}
template <class IndexClass, class Expr, ForType FT>
auto For<IndexClass,Expr,FT>::extension() const
-> ExtType
{
return mExt;
}
template <class IndexClass, class Expr, ForType FT>
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DExt For<IndexClass,Expr,FT>::dRootSteps(std::intptr_t iPtrNum) const
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{
mRootSteps = rootSteps(iPtrNum);
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return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mRootSteps),
sizeof(ExtType)/sizeof(size_t));
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}
template <class IndexClass, class Expr, ForType FT>
DExt For<IndexClass,Expr,FT>::dExtension() const
{
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return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mExt),
sizeof(ExtType)/sizeof(size_t));
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}
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/************************
* SingleExpression *
************************/
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template <class IndexClass, class Expr>
SingleExpression<IndexClass,Expr>::SingleExpression(const std::shared_ptr<IndexClass>& indPtr,
Expr expr) :
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mIndPtr(indPtr.get()), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()),
mExpr(expr), mExt(mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )))
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{
assert(mIndPtr != nullptr);
//VCHECK(mIndPtr->id());
//VCHECK(mIndPtr->max());
}
template <class IndexClass, class Expr>
SingleExpression<IndexClass,Expr>::SingleExpression(const IndexClass* indPtr,
Expr expr) :
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mIndPtr(indPtr), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()),
mExpr(expr), mExt(mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )))
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{
assert(mIndPtr != nullptr);
//VCHECK(mIndPtr->id());
//VCHECK(mIndPtr->max());
}
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template <class IndexClass, class Expr>
inline void SingleExpression<IndexClass,Expr>::operator()(size_t mlast, DExt last) const
{
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operator()(mlast, *reinterpret_cast<ExtType const*>(last.first));
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}
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template <class IndexClass, class Expr>
inline void SingleExpression<IndexClass,Expr>::operator()(size_t mlast,
ExtType last) const
{
//typedef typename IndexClass::RangeType RangeType;
const size_t pos = mIndPtr->pos();
const size_t mnpos = PosForward<ForType::DEFAULT>::value(mlast, mMax, pos);
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const ExtType npos = last + mExt*pos;
mExpr(mnpos, npos);
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}
template <class IndexClass, class Expr>
inline void SingleExpression<IndexClass,Expr>::operator()(size_t mlast) const
{
//typedef typename IndexClass::RangeType RangeType;
const ExtType last;
const size_t pos = mIndPtr->pos();
const size_t mnpos = PosForward<ForType::DEFAULT>::value(mlast, mMax, pos);
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const ExtType npos = last + mExt*pos;
mExpr(mlast, last);
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}
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template <class IndexClass, class Expr>
auto SingleExpression<IndexClass,Expr>::rootSteps(std::intptr_t iPtrNum) const
-> ExtType
{
return mExpr.rootSteps(iPtrNum);
}
template <class IndexClass, class Expr>
auto SingleExpression<IndexClass,Expr>::extension() const
-> ExtType
{
return mExt;
}
template <class IndexClass, class Expr>
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DExt SingleExpression<IndexClass,Expr>::dRootSteps(std::intptr_t iPtrNum) const
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{
mRootSteps = rootSteps(iPtrNum);
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return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mRootSteps),
sizeof(ExtType)/sizeof(size_t));
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}
template <class IndexClass, class Expr>
DExt SingleExpression<IndexClass,Expr>::dExtension() const
{
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return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mExt),
sizeof(ExtType)/sizeof(size_t));
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}
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/****************
* SubExpr *
****************/
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template <class IndexClass, class Expr>
SubExpr<IndexClass,Expr>::SubExpr(const std::shared_ptr<IndexClass>& indPtr,
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std::intptr_t siptr,
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const std::vector<size_t>* subset, Expr expr) :
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mIndPtr(indPtr.get()), mSIPtr(siptr), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()),
mExpr(expr),
mExt( mkExt(0).extend( mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )) ) ),
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mSubSet(subset)
{
assert(mIndPtr != nullptr);
}
template <class IndexClass, class Expr>
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SubExpr<IndexClass,Expr>::SubExpr(const IndexClass* indPtr, std::intptr_t siptr,
const std::vector<size_t>* subset, Expr expr) :
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mIndPtr(indPtr), mSIPtr(siptr), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()),
mExpr(expr),
mExt( mkExt(0).extend( mExpr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr )) ) ),
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mSubSet(subset)
{
assert(mIndPtr != nullptr);
}
template <class IndexClass, class Expr>
inline void SubExpr<IndexClass,Expr>::operator()(size_t mlast, DExt last) const
{
operator()(mlast, *reinterpret_cast<ExtType const*>(last.first));
}
template <class IndexClass, class Expr>
inline void SubExpr<IndexClass,Expr>::operator()(size_t mlast,
ExtType last) const
{
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const size_t pos = (*mSubSet)[last.val()];
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const size_t mnpos = mlast;
const ExtType npos = last + mExt*pos;
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mExpr(mnpos, Getter<1>::template getX<ExtType>( npos ));
}
template <class IndexClass, class Expr>
inline void SubExpr<IndexClass,Expr>::operator()(size_t mlast) const
{
const ExtType last;
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const size_t pos = (*mSubSet)[last.val()];
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const size_t mnpos = mlast;
const ExtType npos = last + mExt*pos;
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mExpr(mnpos, Getter<1>::template getX<ExtType>( npos ));
}
template <class IndexClass, class Expr>
auto SubExpr<IndexClass,Expr>::rootSteps(std::intptr_t iPtrNum) const
-> ExtType
{
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return mkExt(iPtrNum == mSIPtr ? 1 : 0).extend(mExpr.rootSteps(iPtrNum));
}
template <class IndexClass, class Expr>
auto SubExpr<IndexClass,Expr>::extension() const
-> ExtType
{
return mExt;
}
template <class IndexClass, class Expr>
DExt SubExpr<IndexClass,Expr>::dRootSteps(std::intptr_t iPtrNum) const
{
mRootSteps = rootSteps(iPtrNum);
return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mRootSteps),
sizeof(ExtType)/sizeof(size_t));
}
template <class IndexClass, class Expr>
DExt SubExpr<IndexClass,Expr>::dExtension() const
{
return std::make_pair<size_t const*,size_t>(reinterpret_cast<size_t const*>(&mExt),
sizeof(ExtType)/sizeof(size_t));
}
/***************************
* DynamicExpression *
***************************/
inline void DynamicExpression::operator()(size_t mlast, DExt last) const
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{
(*mNext)(mlast,last);
}
inline void DynamicExpression::operator()(size_t mlast) const
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{
(*mNext)(mlast);
}
inline DExt DynamicExpression::dRootSteps(std::intptr_t iPtrNum) const
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{
return mNext->dRootSteps(iPtrNum);
}
inline DExt DynamicExpression::dExtension() const
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{
return mNext->dExtension();
}
/************************
* ExpressionHolder *
************************/
template <class Expr>
ExpressionHolder<Expr>::ExpressionHolder(DynamicExpression expr) : mExpr(expr) {}
template <class Expr>
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inline void ExpressionHolder<Expr>::operator()(size_t mlast, DExt last) const
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{
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mExpr(mlast,last);
}
template <class Expr>
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inline void ExpressionHolder<Expr>::operator()(size_t mlast, ExtType last) const
{
mExpr(mlast,
std::make_pair<size_t const*,size_t>
(reinterpret_cast<size_t const*>(&last),
sizeof(ExtType)/sizeof(size_t)));
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}
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template <class Expr>
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inline void ExpressionHolder<Expr>::operator()(size_t mlast) const
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{
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mExpr(mlast);
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}
template <class Expr>
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DExt ExpressionHolder<Expr>::dRootSteps(std::intptr_t iPtrNum) const
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{
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return mExpr.dRootSteps(iPtrNum);
}
template <class Expr>
DExt ExpressionHolder<Expr>::dExtension() const
{
return mExpr.dExtension();
}
template <class Expr>
auto ExpressionHolder<Expr>::rootSteps(std::intptr_t iPtrNum) const
-> ExtType
{
return *reinterpret_cast<ExtType const*>( mExpr.dRootSteps(iPtrNum).first );
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}
template <class Expr>
auto ExpressionHolder<Expr>::extension() const
-> ExtType
{
return *reinterpret_cast<ExtType const*>( mExpr.dExtension().first );
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}
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} // namespace MultiArrayHelper
#endif