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Diffstat (limited to 'extern/Eigen3/Eigen/src/SparseCore/SparseRef.h')
-rw-r--r-- | extern/Eigen3/Eigen/src/SparseCore/SparseRef.h | 397 |
1 files changed, 397 insertions, 0 deletions
diff --git a/extern/Eigen3/Eigen/src/SparseCore/SparseRef.h b/extern/Eigen3/Eigen/src/SparseCore/SparseRef.h new file mode 100644 index 00000000000..d91f38f97ce --- /dev/null +++ b/extern/Eigen3/Eigen/src/SparseCore/SparseRef.h @@ -0,0 +1,397 @@ +// This file is part of Eigen, a lightweight C++ template library +// for linear algebra. +// +// Copyright (C) 2015 Gael Guennebaud <gael.guennebaud@inria.fr> +// +// This Source Code Form is subject to the terms of the Mozilla +// Public License v. 2.0. If a copy of the MPL was not distributed +// with this file, You can obtain one at http://mozilla.org/MPL/2.0/. + +#ifndef EIGEN_SPARSE_REF_H +#define EIGEN_SPARSE_REF_H + +namespace Eigen { + +enum { + StandardCompressedFormat = 2 /**< used by Ref<SparseMatrix> to specify whether the input storage must be in standard compressed form */ +}; + +namespace internal { + +template<typename Derived> class SparseRefBase; + +template<typename MatScalar, int MatOptions, typename MatIndex, int _Options, typename _StrideType> +struct traits<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > + : public traits<SparseMatrix<MatScalar,MatOptions,MatIndex> > +{ + typedef SparseMatrix<MatScalar,MatOptions,MatIndex> PlainObjectType; + enum { + Options = _Options, + Flags = traits<PlainObjectType>::Flags | CompressedAccessBit | NestByRefBit + }; + + template<typename Derived> struct match { + enum { + StorageOrderMatch = PlainObjectType::IsVectorAtCompileTime || Derived::IsVectorAtCompileTime || ((PlainObjectType::Flags&RowMajorBit)==(Derived::Flags&RowMajorBit)), + MatchAtCompileTime = (Derived::Flags&CompressedAccessBit) && StorageOrderMatch + }; + typedef typename internal::conditional<MatchAtCompileTime,internal::true_type,internal::false_type>::type type; + }; + +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int _Options, typename _StrideType> +struct traits<Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > + : public traits<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > +{ + enum { + Flags = (traits<SparseMatrix<MatScalar,MatOptions,MatIndex> >::Flags | CompressedAccessBit | NestByRefBit) & ~LvalueBit + }; +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int _Options, typename _StrideType> +struct traits<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > + : public traits<SparseVector<MatScalar,MatOptions,MatIndex> > +{ + typedef SparseVector<MatScalar,MatOptions,MatIndex> PlainObjectType; + enum { + Options = _Options, + Flags = traits<PlainObjectType>::Flags | CompressedAccessBit | NestByRefBit + }; + + template<typename Derived> struct match { + enum { + MatchAtCompileTime = (Derived::Flags&CompressedAccessBit) && Derived::IsVectorAtCompileTime + }; + typedef typename internal::conditional<MatchAtCompileTime,internal::true_type,internal::false_type>::type type; + }; + +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int _Options, typename _StrideType> +struct traits<Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > + : public traits<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, _Options, _StrideType> > +{ + enum { + Flags = (traits<SparseVector<MatScalar,MatOptions,MatIndex> >::Flags | CompressedAccessBit | NestByRefBit) & ~LvalueBit + }; +}; + +template<typename Derived> +struct traits<SparseRefBase<Derived> > : public traits<Derived> {}; + +template<typename Derived> class SparseRefBase + : public SparseMapBase<Derived> +{ +public: + + typedef SparseMapBase<Derived> Base; + EIGEN_SPARSE_PUBLIC_INTERFACE(SparseRefBase) + + SparseRefBase() + : Base(RowsAtCompileTime==Dynamic?0:RowsAtCompileTime,ColsAtCompileTime==Dynamic?0:ColsAtCompileTime, 0, 0, 0, 0, 0) + {} + +protected: + + template<typename Expression> + void construct(Expression& expr) + { + if(expr.outerIndexPtr()==0) + ::new (static_cast<Base*>(this)) Base(expr.size(), expr.nonZeros(), expr.innerIndexPtr(), expr.valuePtr()); + else + ::new (static_cast<Base*>(this)) Base(expr.rows(), expr.cols(), expr.nonZeros(), expr.outerIndexPtr(), expr.innerIndexPtr(), expr.valuePtr(), expr.innerNonZeroPtr()); + } +}; + +} // namespace internal + + +/** + * \ingroup SparseCore_Module + * + * \brief A sparse matrix expression referencing an existing sparse expression + * + * \tparam SparseMatrixType the equivalent sparse matrix type of the referenced data, it must be a template instance of class SparseMatrix. + * \tparam Options specifies whether the a standard compressed format is required \c Options is \c #StandardCompressedFormat, or \c 0. + * The default is \c 0. + * + * \sa class Ref + */ +#ifndef EIGEN_PARSED_BY_DOXYGEN +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +class Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType > + : public internal::SparseRefBase<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType > > +#else +template<typename SparseMatrixType, int Options> +class Ref<SparseMatrixType, Options> + : public SparseMapBase<Derived,WriteAccessors> // yes, that's weird to use Derived here, but that works! +#endif +{ + typedef SparseMatrix<MatScalar,MatOptions,MatIndex> PlainObjectType; + typedef internal::traits<Ref> Traits; + template<int OtherOptions> + inline Ref(const SparseMatrix<MatScalar,OtherOptions,MatIndex>& expr); + template<int OtherOptions> + inline Ref(const MappedSparseMatrix<MatScalar,OtherOptions,MatIndex>& expr); + public: + + typedef internal::SparseRefBase<Ref> Base; + EIGEN_SPARSE_PUBLIC_INTERFACE(Ref) + + + #ifndef EIGEN_PARSED_BY_DOXYGEN + template<int OtherOptions> + inline Ref(SparseMatrix<MatScalar,OtherOptions,MatIndex>& expr) + { + EIGEN_STATIC_ASSERT(bool(Traits::template match<SparseMatrix<MatScalar,OtherOptions,MatIndex> >::MatchAtCompileTime), STORAGE_LAYOUT_DOES_NOT_MATCH); + eigen_assert( ((Options & int(StandardCompressedFormat))==0) || (expr.isCompressed()) ); + Base::construct(expr.derived()); + } + + template<int OtherOptions> + inline Ref(MappedSparseMatrix<MatScalar,OtherOptions,MatIndex>& expr) + { + EIGEN_STATIC_ASSERT(bool(Traits::template match<SparseMatrix<MatScalar,OtherOptions,MatIndex> >::MatchAtCompileTime), STORAGE_LAYOUT_DOES_NOT_MATCH); + eigen_assert( ((Options & int(StandardCompressedFormat))==0) || (expr.isCompressed()) ); + Base::construct(expr.derived()); + } + + template<typename Derived> + inline Ref(const SparseCompressedBase<Derived>& expr) + #else + /** Implicit constructor from any sparse expression (2D matrix or 1D vector) */ + template<typename Derived> + inline Ref(SparseCompressedBase<Derived>& expr) + #endif + { + EIGEN_STATIC_ASSERT(bool(internal::is_lvalue<Derived>::value), THIS_EXPRESSION_IS_NOT_A_LVALUE__IT_IS_READ_ONLY); + EIGEN_STATIC_ASSERT(bool(Traits::template match<Derived>::MatchAtCompileTime), STORAGE_LAYOUT_DOES_NOT_MATCH); + eigen_assert( ((Options & int(StandardCompressedFormat))==0) || (expr.isCompressed()) ); + Base::construct(expr.const_cast_derived()); + } +}; + +// this is the const ref version +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +class Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> + : public internal::SparseRefBase<Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > +{ + typedef SparseMatrix<MatScalar,MatOptions,MatIndex> TPlainObjectType; + typedef internal::traits<Ref> Traits; + public: + + typedef internal::SparseRefBase<Ref> Base; + EIGEN_SPARSE_PUBLIC_INTERFACE(Ref) + + template<typename Derived> + inline Ref(const SparseMatrixBase<Derived>& expr) : m_hasCopy(false) + { + construct(expr.derived(), typename Traits::template match<Derived>::type()); + } + + inline Ref(const Ref& other) : Base(other), m_hasCopy(false) { + // copy constructor shall not copy the m_object, to avoid unnecessary malloc and copy + } + + template<typename OtherRef> + inline Ref(const RefBase<OtherRef>& other) : m_hasCopy(false) { + construct(other.derived(), typename Traits::template match<OtherRef>::type()); + } + + ~Ref() { + if(m_hasCopy) { + TPlainObjectType* obj = reinterpret_cast<TPlainObjectType*>(m_object_bytes); + obj->~TPlainObjectType(); + } + } + + protected: + + template<typename Expression> + void construct(const Expression& expr,internal::true_type) + { + if((Options & int(StandardCompressedFormat)) && (!expr.isCompressed())) + { + TPlainObjectType* obj = reinterpret_cast<TPlainObjectType*>(m_object_bytes); + ::new (obj) TPlainObjectType(expr); + m_hasCopy = true; + Base::construct(*obj); + } + else + { + Base::construct(expr); + } + } + + template<typename Expression> + void construct(const Expression& expr, internal::false_type) + { + TPlainObjectType* obj = reinterpret_cast<TPlainObjectType*>(m_object_bytes); + ::new (obj) TPlainObjectType(expr); + m_hasCopy = true; + Base::construct(*obj); + } + + protected: + char m_object_bytes[sizeof(TPlainObjectType)]; + bool m_hasCopy; +}; + + + +/** + * \ingroup SparseCore_Module + * + * \brief A sparse vector expression referencing an existing sparse vector expression + * + * \tparam SparseVectorType the equivalent sparse vector type of the referenced data, it must be a template instance of class SparseVector. + * + * \sa class Ref + */ +#ifndef EIGEN_PARSED_BY_DOXYGEN +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +class Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType > + : public internal::SparseRefBase<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType > > +#else +template<typename SparseVectorType> +class Ref<SparseVectorType> + : public SparseMapBase<Derived,WriteAccessors> +#endif +{ + typedef SparseVector<MatScalar,MatOptions,MatIndex> PlainObjectType; + typedef internal::traits<Ref> Traits; + template<int OtherOptions> + inline Ref(const SparseVector<MatScalar,OtherOptions,MatIndex>& expr); + public: + + typedef internal::SparseRefBase<Ref> Base; + EIGEN_SPARSE_PUBLIC_INTERFACE(Ref) + + #ifndef EIGEN_PARSED_BY_DOXYGEN + template<int OtherOptions> + inline Ref(SparseVector<MatScalar,OtherOptions,MatIndex>& expr) + { + EIGEN_STATIC_ASSERT(bool(Traits::template match<SparseVector<MatScalar,OtherOptions,MatIndex> >::MatchAtCompileTime), STORAGE_LAYOUT_DOES_NOT_MATCH); + Base::construct(expr.derived()); + } + + template<typename Derived> + inline Ref(const SparseCompressedBase<Derived>& expr) + #else + /** Implicit constructor from any 1D sparse vector expression */ + template<typename Derived> + inline Ref(SparseCompressedBase<Derived>& expr) + #endif + { + EIGEN_STATIC_ASSERT(bool(internal::is_lvalue<Derived>::value), THIS_EXPRESSION_IS_NOT_A_LVALUE__IT_IS_READ_ONLY); + EIGEN_STATIC_ASSERT(bool(Traits::template match<Derived>::MatchAtCompileTime), STORAGE_LAYOUT_DOES_NOT_MATCH); + Base::construct(expr.const_cast_derived()); + } +}; + +// this is the const ref version +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +class Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> + : public internal::SparseRefBase<Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > +{ + typedef SparseVector<MatScalar,MatOptions,MatIndex> TPlainObjectType; + typedef internal::traits<Ref> Traits; + public: + + typedef internal::SparseRefBase<Ref> Base; + EIGEN_SPARSE_PUBLIC_INTERFACE(Ref) + + template<typename Derived> + inline Ref(const SparseMatrixBase<Derived>& expr) : m_hasCopy(false) + { + construct(expr.derived(), typename Traits::template match<Derived>::type()); + } + + inline Ref(const Ref& other) : Base(other), m_hasCopy(false) { + // copy constructor shall not copy the m_object, to avoid unnecessary malloc and copy + } + + template<typename OtherRef> + inline Ref(const RefBase<OtherRef>& other) : m_hasCopy(false) { + construct(other.derived(), typename Traits::template match<OtherRef>::type()); + } + + ~Ref() { + if(m_hasCopy) { + TPlainObjectType* obj = reinterpret_cast<TPlainObjectType*>(m_object_bytes); + obj->~TPlainObjectType(); + } + } + + protected: + + template<typename Expression> + void construct(const Expression& expr,internal::true_type) + { + Base::construct(expr); + } + + template<typename Expression> + void construct(const Expression& expr, internal::false_type) + { + TPlainObjectType* obj = reinterpret_cast<TPlainObjectType*>(m_object_bytes); + ::new (obj) TPlainObjectType(expr); + m_hasCopy = true; + Base::construct(*obj); + } + + protected: + char m_object_bytes[sizeof(TPlainObjectType)]; + bool m_hasCopy; +}; + +namespace internal { + +// FIXME shall we introduce a general evaluatior_ref that we can specialize for any sparse object once, and thus remove this copy-pasta thing... + +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +struct evaluator<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > + : evaluator<SparseCompressedBase<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > +{ + typedef evaluator<SparseCompressedBase<Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; + typedef Ref<SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; + evaluator() : Base() {} + explicit evaluator(const XprType &mat) : Base(mat) {} +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +struct evaluator<Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > + : evaluator<SparseCompressedBase<Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > +{ + typedef evaluator<SparseCompressedBase<Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; + typedef Ref<const SparseMatrix<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; + evaluator() : Base() {} + explicit evaluator(const XprType &mat) : Base(mat) {} +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +struct evaluator<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > + : evaluator<SparseCompressedBase<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > +{ + typedef evaluator<SparseCompressedBase<Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; + typedef Ref<SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; + evaluator() : Base() {} + explicit evaluator(const XprType &mat) : Base(mat) {} +}; + +template<typename MatScalar, int MatOptions, typename MatIndex, int Options, typename StrideType> +struct evaluator<Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > + : evaluator<SparseCompressedBase<Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > +{ + typedef evaluator<SparseCompressedBase<Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> > > Base; + typedef Ref<const SparseVector<MatScalar,MatOptions,MatIndex>, Options, StrideType> XprType; + evaluator() : Base() {} + explicit evaluator(const XprType &mat) : Base(mat) {} +}; + +} + +} // end namespace Eigen + +#endif // EIGEN_SPARSE_REF_H |