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Diffstat (limited to 'runtimes/nn/depend/external/eigen/Eigen/src/Geometry/Homogeneous.h')
| -rw-r--r-- | runtimes/nn/depend/external/eigen/Eigen/src/Geometry/Homogeneous.h | 497 |
1 files changed, 0 insertions, 497 deletions
diff --git a/runtimes/nn/depend/external/eigen/Eigen/src/Geometry/Homogeneous.h b/runtimes/nn/depend/external/eigen/Eigen/src/Geometry/Homogeneous.h deleted file mode 100644 index 5f0da1a9e..000000000 --- a/runtimes/nn/depend/external/eigen/Eigen/src/Geometry/Homogeneous.h +++ /dev/null @@ -1,497 +0,0 @@ -// This file is part of Eigen, a lightweight C++ template library -// for linear algebra. -// -// Copyright (C) 2009-2010 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_HOMOGENEOUS_H -#define EIGEN_HOMOGENEOUS_H - -namespace Eigen { - -/** \geometry_module \ingroup Geometry_Module - * - * \class Homogeneous - * - * \brief Expression of one (or a set of) homogeneous vector(s) - * - * \param MatrixType the type of the object in which we are making homogeneous - * - * This class represents an expression of one (or a set of) homogeneous vector(s). - * It is the return type of MatrixBase::homogeneous() and most of the time - * this is the only way it is used. - * - * \sa MatrixBase::homogeneous() - */ - -namespace internal { - -template<typename MatrixType,int Direction> -struct traits<Homogeneous<MatrixType,Direction> > - : traits<MatrixType> -{ - typedef typename traits<MatrixType>::StorageKind StorageKind; - typedef typename ref_selector<MatrixType>::type MatrixTypeNested; - typedef typename remove_reference<MatrixTypeNested>::type _MatrixTypeNested; - enum { - RowsPlusOne = (MatrixType::RowsAtCompileTime != Dynamic) ? - int(MatrixType::RowsAtCompileTime) + 1 : Dynamic, - ColsPlusOne = (MatrixType::ColsAtCompileTime != Dynamic) ? - int(MatrixType::ColsAtCompileTime) + 1 : Dynamic, - RowsAtCompileTime = Direction==Vertical ? RowsPlusOne : MatrixType::RowsAtCompileTime, - ColsAtCompileTime = Direction==Horizontal ? ColsPlusOne : MatrixType::ColsAtCompileTime, - MaxRowsAtCompileTime = RowsAtCompileTime, - MaxColsAtCompileTime = ColsAtCompileTime, - TmpFlags = _MatrixTypeNested::Flags & HereditaryBits, - Flags = ColsAtCompileTime==1 ? (TmpFlags & ~RowMajorBit) - : RowsAtCompileTime==1 ? (TmpFlags | RowMajorBit) - : TmpFlags - }; -}; - -template<typename MatrixType,typename Lhs> struct homogeneous_left_product_impl; -template<typename MatrixType,typename Rhs> struct homogeneous_right_product_impl; - -} // end namespace internal - -template<typename MatrixType,int _Direction> class Homogeneous - : public MatrixBase<Homogeneous<MatrixType,_Direction> >, internal::no_assignment_operator -{ - public: - - typedef MatrixType NestedExpression; - enum { Direction = _Direction }; - - typedef MatrixBase<Homogeneous> Base; - EIGEN_DENSE_PUBLIC_INTERFACE(Homogeneous) - - EIGEN_DEVICE_FUNC explicit inline Homogeneous(const MatrixType& matrix) - : m_matrix(matrix) - {} - - EIGEN_DEVICE_FUNC inline Index rows() const { return m_matrix.rows() + (int(Direction)==Vertical ? 1 : 0); } - EIGEN_DEVICE_FUNC inline Index cols() const { return m_matrix.cols() + (int(Direction)==Horizontal ? 1 : 0); } - - EIGEN_DEVICE_FUNC const NestedExpression& nestedExpression() const { return m_matrix; } - - template<typename Rhs> - EIGEN_DEVICE_FUNC inline const Product<Homogeneous,Rhs> - operator* (const MatrixBase<Rhs>& rhs) const - { - eigen_assert(int(Direction)==Horizontal); - return Product<Homogeneous,Rhs>(*this,rhs.derived()); - } - - template<typename Lhs> friend - EIGEN_DEVICE_FUNC inline const Product<Lhs,Homogeneous> - operator* (const MatrixBase<Lhs>& lhs, const Homogeneous& rhs) - { - eigen_assert(int(Direction)==Vertical); - return Product<Lhs,Homogeneous>(lhs.derived(),rhs); - } - - template<typename Scalar, int Dim, int Mode, int Options> friend - EIGEN_DEVICE_FUNC inline const Product<Transform<Scalar,Dim,Mode,Options>, Homogeneous > - operator* (const Transform<Scalar,Dim,Mode,Options>& lhs, const Homogeneous& rhs) - { - eigen_assert(int(Direction)==Vertical); - return Product<Transform<Scalar,Dim,Mode,Options>, Homogeneous>(lhs,rhs); - } - - template<typename Func> - EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE typename internal::result_of<Func(Scalar,Scalar)>::type - redux(const Func& func) const - { - return func(m_matrix.redux(func), Scalar(1)); - } - - protected: - typename MatrixType::Nested m_matrix; -}; - -/** \geometry_module \ingroup Geometry_Module - * - * \returns a vector expression that is one longer than the vector argument, with the value 1 symbolically appended as the last coefficient. - * - * This can be used to convert affine coordinates to homogeneous coordinates. - * - * \only_for_vectors - * - * Example: \include MatrixBase_homogeneous.cpp - * Output: \verbinclude MatrixBase_homogeneous.out - * - * \sa VectorwiseOp::homogeneous(), class Homogeneous - */ -template<typename Derived> -EIGEN_DEVICE_FUNC inline typename MatrixBase<Derived>::HomogeneousReturnType -MatrixBase<Derived>::homogeneous() const -{ - EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived); - return HomogeneousReturnType(derived()); -} - -/** \geometry_module \ingroup Geometry_Module - * - * \returns an expression where the value 1 is symbolically appended as the final coefficient to each column (or row) of the matrix. - * - * This can be used to convert affine coordinates to homogeneous coordinates. - * - * Example: \include VectorwiseOp_homogeneous.cpp - * Output: \verbinclude VectorwiseOp_homogeneous.out - * - * \sa MatrixBase::homogeneous(), class Homogeneous */ -template<typename ExpressionType, int Direction> -EIGEN_DEVICE_FUNC inline Homogeneous<ExpressionType,Direction> -VectorwiseOp<ExpressionType,Direction>::homogeneous() const -{ - return HomogeneousReturnType(_expression()); -} - -/** \geometry_module \ingroup Geometry_Module - * - * \brief homogeneous normalization - * - * \returns a vector expression of the N-1 first coefficients of \c *this divided by that last coefficient. - * - * This can be used to convert homogeneous coordinates to affine coordinates. - * - * It is essentially a shortcut for: - * \code - this->head(this->size()-1)/this->coeff(this->size()-1); - \endcode - * - * Example: \include MatrixBase_hnormalized.cpp - * Output: \verbinclude MatrixBase_hnormalized.out - * - * \sa VectorwiseOp::hnormalized() */ -template<typename Derived> -EIGEN_DEVICE_FUNC inline const typename MatrixBase<Derived>::HNormalizedReturnType -MatrixBase<Derived>::hnormalized() const -{ - EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived); - return ConstStartMinusOne(derived(),0,0, - ColsAtCompileTime==1?size()-1:1, - ColsAtCompileTime==1?1:size()-1) / coeff(size()-1); -} - -/** \geometry_module \ingroup Geometry_Module - * - * \brief column or row-wise homogeneous normalization - * - * \returns an expression of the first N-1 coefficients of each column (or row) of \c *this divided by the last coefficient of each column (or row). - * - * This can be used to convert homogeneous coordinates to affine coordinates. - * - * It is conceptually equivalent to calling MatrixBase::hnormalized() to each column (or row) of \c *this. - * - * Example: \include DirectionWise_hnormalized.cpp - * Output: \verbinclude DirectionWise_hnormalized.out - * - * \sa MatrixBase::hnormalized() */ -template<typename ExpressionType, int Direction> -EIGEN_DEVICE_FUNC inline const typename VectorwiseOp<ExpressionType,Direction>::HNormalizedReturnType -VectorwiseOp<ExpressionType,Direction>::hnormalized() const -{ - return HNormalized_Block(_expression(),0,0, - Direction==Vertical ? _expression().rows()-1 : _expression().rows(), - Direction==Horizontal ? _expression().cols()-1 : _expression().cols()).cwiseQuotient( - Replicate<HNormalized_Factors, - Direction==Vertical ? HNormalized_SizeMinusOne : 1, - Direction==Horizontal ? HNormalized_SizeMinusOne : 1> - (HNormalized_Factors(_expression(), - Direction==Vertical ? _expression().rows()-1:0, - Direction==Horizontal ? _expression().cols()-1:0, - Direction==Vertical ? 1 : _expression().rows(), - Direction==Horizontal ? 1 : _expression().cols()), - Direction==Vertical ? _expression().rows()-1 : 1, - Direction==Horizontal ? _expression().cols()-1 : 1)); -} - -namespace internal { - -template<typename MatrixOrTransformType> -struct take_matrix_for_product -{ - typedef MatrixOrTransformType type; - EIGEN_DEVICE_FUNC static const type& run(const type &x) { return x; } -}; - -template<typename Scalar, int Dim, int Mode,int Options> -struct take_matrix_for_product<Transform<Scalar, Dim, Mode, Options> > -{ - typedef Transform<Scalar, Dim, Mode, Options> TransformType; - typedef typename internal::add_const<typename TransformType::ConstAffinePart>::type type; - EIGEN_DEVICE_FUNC static type run (const TransformType& x) { return x.affine(); } -}; - -template<typename Scalar, int Dim, int Options> -struct take_matrix_for_product<Transform<Scalar, Dim, Projective, Options> > -{ - typedef Transform<Scalar, Dim, Projective, Options> TransformType; - typedef typename TransformType::MatrixType type; - EIGEN_DEVICE_FUNC static const type& run (const TransformType& x) { return x.matrix(); } -}; - -template<typename MatrixType,typename Lhs> -struct traits<homogeneous_left_product_impl<Homogeneous<MatrixType,Vertical>,Lhs> > -{ - typedef typename take_matrix_for_product<Lhs>::type LhsMatrixType; - typedef typename remove_all<MatrixType>::type MatrixTypeCleaned; - typedef typename remove_all<LhsMatrixType>::type LhsMatrixTypeCleaned; - typedef typename make_proper_matrix_type< - typename traits<MatrixTypeCleaned>::Scalar, - LhsMatrixTypeCleaned::RowsAtCompileTime, - MatrixTypeCleaned::ColsAtCompileTime, - MatrixTypeCleaned::PlainObject::Options, - LhsMatrixTypeCleaned::MaxRowsAtCompileTime, - MatrixTypeCleaned::MaxColsAtCompileTime>::type ReturnType; -}; - -template<typename MatrixType,typename Lhs> -struct homogeneous_left_product_impl<Homogeneous<MatrixType,Vertical>,Lhs> - : public ReturnByValue<homogeneous_left_product_impl<Homogeneous<MatrixType,Vertical>,Lhs> > -{ - typedef typename traits<homogeneous_left_product_impl>::LhsMatrixType LhsMatrixType; - typedef typename remove_all<LhsMatrixType>::type LhsMatrixTypeCleaned; - typedef typename remove_all<typename LhsMatrixTypeCleaned::Nested>::type LhsMatrixTypeNested; - EIGEN_DEVICE_FUNC homogeneous_left_product_impl(const Lhs& lhs, const MatrixType& rhs) - : m_lhs(take_matrix_for_product<Lhs>::run(lhs)), - m_rhs(rhs) - {} - - EIGEN_DEVICE_FUNC inline Index rows() const { return m_lhs.rows(); } - EIGEN_DEVICE_FUNC inline Index cols() const { return m_rhs.cols(); } - - template<typename Dest> EIGEN_DEVICE_FUNC void evalTo(Dest& dst) const - { - // FIXME investigate how to allow lazy evaluation of this product when possible - dst = Block<const LhsMatrixTypeNested, - LhsMatrixTypeNested::RowsAtCompileTime, - LhsMatrixTypeNested::ColsAtCompileTime==Dynamic?Dynamic:LhsMatrixTypeNested::ColsAtCompileTime-1> - (m_lhs,0,0,m_lhs.rows(),m_lhs.cols()-1) * m_rhs; - dst += m_lhs.col(m_lhs.cols()-1).rowwise() - .template replicate<MatrixType::ColsAtCompileTime>(m_rhs.cols()); - } - - typename LhsMatrixTypeCleaned::Nested m_lhs; - typename MatrixType::Nested m_rhs; -}; - -template<typename MatrixType,typename Rhs> -struct traits<homogeneous_right_product_impl<Homogeneous<MatrixType,Horizontal>,Rhs> > -{ - typedef typename make_proper_matrix_type<typename traits<MatrixType>::Scalar, - MatrixType::RowsAtCompileTime, - Rhs::ColsAtCompileTime, - MatrixType::PlainObject::Options, - MatrixType::MaxRowsAtCompileTime, - Rhs::MaxColsAtCompileTime>::type ReturnType; -}; - -template<typename MatrixType,typename Rhs> -struct homogeneous_right_product_impl<Homogeneous<MatrixType,Horizontal>,Rhs> - : public ReturnByValue<homogeneous_right_product_impl<Homogeneous<MatrixType,Horizontal>,Rhs> > -{ - typedef typename remove_all<typename Rhs::Nested>::type RhsNested; - EIGEN_DEVICE_FUNC homogeneous_right_product_impl(const MatrixType& lhs, const Rhs& rhs) - : m_lhs(lhs), m_rhs(rhs) - {} - - EIGEN_DEVICE_FUNC inline Index rows() const { return m_lhs.rows(); } - EIGEN_DEVICE_FUNC inline Index cols() const { return m_rhs.cols(); } - - template<typename Dest> EIGEN_DEVICE_FUNC void evalTo(Dest& dst) const - { - // FIXME investigate how to allow lazy evaluation of this product when possible - dst = m_lhs * Block<const RhsNested, - RhsNested::RowsAtCompileTime==Dynamic?Dynamic:RhsNested::RowsAtCompileTime-1, - RhsNested::ColsAtCompileTime> - (m_rhs,0,0,m_rhs.rows()-1,m_rhs.cols()); - dst += m_rhs.row(m_rhs.rows()-1).colwise() - .template replicate<MatrixType::RowsAtCompileTime>(m_lhs.rows()); - } - - typename MatrixType::Nested m_lhs; - typename Rhs::Nested m_rhs; -}; - -template<typename ArgType,int Direction> -struct evaluator_traits<Homogeneous<ArgType,Direction> > -{ - typedef typename storage_kind_to_evaluator_kind<typename ArgType::StorageKind>::Kind Kind; - typedef HomogeneousShape Shape; -}; - -template<> struct AssignmentKind<DenseShape,HomogeneousShape> { typedef Dense2Dense Kind; }; - - -template<typename ArgType,int Direction> -struct unary_evaluator<Homogeneous<ArgType,Direction>, IndexBased> - : evaluator<typename Homogeneous<ArgType,Direction>::PlainObject > -{ - typedef Homogeneous<ArgType,Direction> XprType; - typedef typename XprType::PlainObject PlainObject; - typedef evaluator<PlainObject> Base; - - EIGEN_DEVICE_FUNC explicit unary_evaluator(const XprType& op) - : Base(), m_temp(op) - { - ::new (static_cast<Base*>(this)) Base(m_temp); - } - -protected: - PlainObject m_temp; -}; - -// dense = homogeneous -template< typename DstXprType, typename ArgType, typename Scalar> -struct Assignment<DstXprType, Homogeneous<ArgType,Vertical>, internal::assign_op<Scalar,typename ArgType::Scalar>, Dense2Dense> -{ - typedef Homogeneous<ArgType,Vertical> SrcXprType; - EIGEN_DEVICE_FUNC static void run(DstXprType &dst, const SrcXprType &src, const internal::assign_op<Scalar,typename ArgType::Scalar> &) - { - Index dstRows = src.rows(); - Index dstCols = src.cols(); - if((dst.rows()!=dstRows) || (dst.cols()!=dstCols)) - dst.resize(dstRows, dstCols); - - dst.template topRows<ArgType::RowsAtCompileTime>(src.nestedExpression().rows()) = src.nestedExpression(); - dst.row(dst.rows()-1).setOnes(); - } -}; - -// dense = homogeneous -template< typename DstXprType, typename ArgType, typename Scalar> -struct Assignment<DstXprType, Homogeneous<ArgType,Horizontal>, internal::assign_op<Scalar,typename ArgType::Scalar>, Dense2Dense> -{ - typedef Homogeneous<ArgType,Horizontal> SrcXprType; - EIGEN_DEVICE_FUNC static void run(DstXprType &dst, const SrcXprType &src, const internal::assign_op<Scalar,typename ArgType::Scalar> &) - { - Index dstRows = src.rows(); - Index dstCols = src.cols(); - if((dst.rows()!=dstRows) || (dst.cols()!=dstCols)) - dst.resize(dstRows, dstCols); - - dst.template leftCols<ArgType::ColsAtCompileTime>(src.nestedExpression().cols()) = src.nestedExpression(); - dst.col(dst.cols()-1).setOnes(); - } -}; - -template<typename LhsArg, typename Rhs, int ProductTag> -struct generic_product_impl<Homogeneous<LhsArg,Horizontal>, Rhs, HomogeneousShape, DenseShape, ProductTag> -{ - template<typename Dest> - EIGEN_DEVICE_FUNC static void evalTo(Dest& dst, const Homogeneous<LhsArg,Horizontal>& lhs, const Rhs& rhs) - { - homogeneous_right_product_impl<Homogeneous<LhsArg,Horizontal>, Rhs>(lhs.nestedExpression(), rhs).evalTo(dst); - } -}; - -template<typename Lhs,typename Rhs> -struct homogeneous_right_product_refactoring_helper -{ - enum { - Dim = Lhs::ColsAtCompileTime, - Rows = Lhs::RowsAtCompileTime - }; - typedef typename Rhs::template ConstNRowsBlockXpr<Dim>::Type LinearBlockConst; - typedef typename remove_const<LinearBlockConst>::type LinearBlock; - typedef typename Rhs::ConstRowXpr ConstantColumn; - typedef Replicate<const ConstantColumn,Rows,1> ConstantBlock; - typedef Product<Lhs,LinearBlock,LazyProduct> LinearProduct; - typedef CwiseBinaryOp<internal::scalar_sum_op<typename Lhs::Scalar,typename Rhs::Scalar>, const LinearProduct, const ConstantBlock> Xpr; -}; - -template<typename Lhs, typename Rhs, int ProductTag> -struct product_evaluator<Product<Lhs, Rhs, LazyProduct>, ProductTag, HomogeneousShape, DenseShape> - : public evaluator<typename homogeneous_right_product_refactoring_helper<typename Lhs::NestedExpression,Rhs>::Xpr> -{ - typedef Product<Lhs, Rhs, LazyProduct> XprType; - typedef homogeneous_right_product_refactoring_helper<typename Lhs::NestedExpression,Rhs> helper; - typedef typename helper::ConstantBlock ConstantBlock; - typedef typename helper::Xpr RefactoredXpr; - typedef evaluator<RefactoredXpr> Base; - - EIGEN_DEVICE_FUNC explicit product_evaluator(const XprType& xpr) - : Base( xpr.lhs().nestedExpression() .lazyProduct( xpr.rhs().template topRows<helper::Dim>(xpr.lhs().nestedExpression().cols()) ) - + ConstantBlock(xpr.rhs().row(xpr.rhs().rows()-1),xpr.lhs().rows(), 1) ) - {} -}; - -template<typename Lhs, typename RhsArg, int ProductTag> -struct generic_product_impl<Lhs, Homogeneous<RhsArg,Vertical>, DenseShape, HomogeneousShape, ProductTag> -{ - template<typename Dest> - EIGEN_DEVICE_FUNC static void evalTo(Dest& dst, const Lhs& lhs, const Homogeneous<RhsArg,Vertical>& rhs) - { - homogeneous_left_product_impl<Homogeneous<RhsArg,Vertical>, Lhs>(lhs, rhs.nestedExpression()).evalTo(dst); - } -}; - -// TODO: the following specialization is to address a regression from 3.2 to 3.3 -// In the future, this path should be optimized. -template<typename Lhs, typename RhsArg, int ProductTag> -struct generic_product_impl<Lhs, Homogeneous<RhsArg,Vertical>, TriangularShape, HomogeneousShape, ProductTag> -{ - template<typename Dest> - static void evalTo(Dest& dst, const Lhs& lhs, const Homogeneous<RhsArg,Vertical>& rhs) - { - dst.noalias() = lhs * rhs.eval(); - } -}; - -template<typename Lhs,typename Rhs> -struct homogeneous_left_product_refactoring_helper -{ - enum { - Dim = Rhs::RowsAtCompileTime, - Cols = Rhs::ColsAtCompileTime - }; - typedef typename Lhs::template ConstNColsBlockXpr<Dim>::Type LinearBlockConst; - typedef typename remove_const<LinearBlockConst>::type LinearBlock; - typedef typename Lhs::ConstColXpr ConstantColumn; - typedef Replicate<const ConstantColumn,1,Cols> ConstantBlock; - typedef Product<LinearBlock,Rhs,LazyProduct> LinearProduct; - typedef CwiseBinaryOp<internal::scalar_sum_op<typename Lhs::Scalar,typename Rhs::Scalar>, const LinearProduct, const ConstantBlock> Xpr; -}; - -template<typename Lhs, typename Rhs, int ProductTag> -struct product_evaluator<Product<Lhs, Rhs, LazyProduct>, ProductTag, DenseShape, HomogeneousShape> - : public evaluator<typename homogeneous_left_product_refactoring_helper<Lhs,typename Rhs::NestedExpression>::Xpr> -{ - typedef Product<Lhs, Rhs, LazyProduct> XprType; - typedef homogeneous_left_product_refactoring_helper<Lhs,typename Rhs::NestedExpression> helper; - typedef typename helper::ConstantBlock ConstantBlock; - typedef typename helper::Xpr RefactoredXpr; - typedef evaluator<RefactoredXpr> Base; - - EIGEN_DEVICE_FUNC explicit product_evaluator(const XprType& xpr) - : Base( xpr.lhs().template leftCols<helper::Dim>(xpr.rhs().nestedExpression().rows()) .lazyProduct( xpr.rhs().nestedExpression() ) - + ConstantBlock(xpr.lhs().col(xpr.lhs().cols()-1),1,xpr.rhs().cols()) ) - {} -}; - -template<typename Scalar, int Dim, int Mode,int Options, typename RhsArg, int ProductTag> -struct generic_product_impl<Transform<Scalar,Dim,Mode,Options>, Homogeneous<RhsArg,Vertical>, DenseShape, HomogeneousShape, ProductTag> -{ - typedef Transform<Scalar,Dim,Mode,Options> TransformType; - template<typename Dest> - EIGEN_DEVICE_FUNC static void evalTo(Dest& dst, const TransformType& lhs, const Homogeneous<RhsArg,Vertical>& rhs) - { - homogeneous_left_product_impl<Homogeneous<RhsArg,Vertical>, TransformType>(lhs, rhs.nestedExpression()).evalTo(dst); - } -}; - -template<typename ExpressionType, int Side, bool Transposed> -struct permutation_matrix_product<ExpressionType, Side, Transposed, HomogeneousShape> - : public permutation_matrix_product<ExpressionType, Side, Transposed, DenseShape> -{}; - -} // end namespace internal - -} // end namespace Eigen - -#endif // EIGEN_HOMOGENEOUS_H |