XprHelper.h
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00001 // This file is part of Eigen, a lightweight C++ template library
00002 // for linear algebra.
00003 //
00004 // Copyright (C) 2008 Gael Guennebaud <gael.guennebaud@inria.fr>
00005 // Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
00006 //
00007 // This Source Code Form is subject to the terms of the Mozilla
00008 // Public License v. 2.0. If a copy of the MPL was not distributed
00009 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
00010 
00011 #ifndef EIGEN_XPRHELPER_H
00012 #define EIGEN_XPRHELPER_H
00013 
00014 // just a workaround because GCC seems to not really like empty structs
00015 // FIXME: gcc 4.3 generates bad code when strict-aliasing is enabled
00016 // so currently we simply disable this optimization for gcc 4.3
00017 #if (defined __GNUG__) && !((__GNUC__==4) && (__GNUC_MINOR__==3))
00018   #define EIGEN_EMPTY_STRUCT_CTOR(X) \
00019     EIGEN_STRONG_INLINE X() {} \
00020     EIGEN_STRONG_INLINE X(const X& ) {}
00021 #else
00022   #define EIGEN_EMPTY_STRUCT_CTOR(X)
00023 #endif
00024 
00025 namespace Eigen {
00026 
00027 typedef EIGEN_DEFAULT_DENSE_INDEX_TYPE DenseIndex;
00028 
00029 namespace internal {
00030 
00031 //classes inheriting no_assignment_operator don't generate a default operator=.
00032 class no_assignment_operator
00033 {
00034   private:
00035     no_assignment_operator& operator=(const no_assignment_operator&);
00036 };
00037 
00039 template<typename I1, typename I2>
00040 struct promote_index_type
00041 {
00042   typedef typename conditional<(sizeof(I1)<sizeof(I2)), I2, I1>::type type;
00043 };
00044 
00049 template<typename T, int Value> class variable_if_dynamic
00050 {
00051   public:
00052     EIGEN_EMPTY_STRUCT_CTOR(variable_if_dynamic)
00053     explicit variable_if_dynamic(T v) { EIGEN_ONLY_USED_FOR_DEBUG(v); assert(v == T(Value)); }
00054     static T value() { return T(Value); }
00055     void setValue(T) {}
00056 };
00057 
00058 template<typename T> class variable_if_dynamic<T, Dynamic>
00059 {
00060     T m_value;
00061     variable_if_dynamic() { assert(false); }
00062   public:
00063     explicit variable_if_dynamic(T value) : m_value(value) {}
00064     T value() const { return m_value; }
00065     void setValue(T value) { m_value = value; }
00066 };
00067 
00070 template<typename T, int Value> class variable_if_dynamicindex
00071 {
00072   public:
00073     EIGEN_EMPTY_STRUCT_CTOR(variable_if_dynamicindex)
00074     explicit variable_if_dynamicindex(T v) { EIGEN_ONLY_USED_FOR_DEBUG(v); assert(v == T(Value)); }
00075     static T value() { return T(Value); }
00076     void setValue(T) {}
00077 };
00078 
00079 template<typename T> class variable_if_dynamicindex<T, DynamicIndex>
00080 {
00081     T m_value;
00082     variable_if_dynamicindex() { assert(false); }
00083   public:
00084     explicit variable_if_dynamicindex(T value) : m_value(value) {}
00085     T value() const { return m_value; }
00086     void setValue(T value) { m_value = value; }
00087 };
00088 
00089 template<typename T> struct functor_traits
00090 {
00091   enum
00092   {
00093     Cost = 10,
00094     PacketAccess = false,
00095     IsRepeatable = false
00096   };
00097 };
00098 
00099 template<typename T> struct packet_traits;
00100 
00101 template<typename T> struct unpacket_traits
00102 {
00103   typedef T type;
00104   enum {size=1};
00105 };
00106 
00107 template<typename _Scalar, int _Rows, int _Cols,
00108          int _Options = AutoAlign |
00109                           ( (_Rows==1 && _Cols!=1) ? RowMajor
00110                           : (_Cols==1 && _Rows!=1) ? ColMajor
00111                           : EIGEN_DEFAULT_MATRIX_STORAGE_ORDER_OPTION ),
00112          int _MaxRows = _Rows,
00113          int _MaxCols = _Cols
00114 > class make_proper_matrix_type
00115 {
00116     enum {
00117       IsColVector = _Cols==1 && _Rows!=1,
00118       IsRowVector = _Rows==1 && _Cols!=1,
00119       Options = IsColVector ? (_Options | ColMajor) & ~RowMajor
00120               : IsRowVector ? (_Options | RowMajor) & ~ColMajor
00121               : _Options
00122     };
00123   public:
00124     typedef Matrix<_Scalar, _Rows, _Cols, Options, _MaxRows, _MaxCols> type;
00125 };
00126 
00127 template<typename Scalar, int Rows, int Cols, int Options, int MaxRows, int MaxCols>
00128 class compute_matrix_flags
00129 {
00130     enum {
00131       row_major_bit = Options&RowMajor ? RowMajorBit : 0,
00132       is_dynamic_size_storage = MaxRows==Dynamic || MaxCols==Dynamic,
00133 
00134       aligned_bit =
00135       (
00136             ((Options&DontAlign)==0)
00137         && (
00138 #if EIGEN_ALIGN_STATICALLY
00139              ((!is_dynamic_size_storage) && (((MaxCols*MaxRows*int(sizeof(Scalar))) % 16) == 0))
00140 #else
00141              0
00142 #endif
00143 
00144           ||
00145 
00146 #if EIGEN_ALIGN
00147              is_dynamic_size_storage
00148 #else
00149              0
00150 #endif
00151 
00152           )
00153       ) ? AlignedBit : 0,
00154       packet_access_bit = packet_traits<Scalar>::Vectorizable && aligned_bit ? PacketAccessBit : 0
00155     };
00156 
00157   public:
00158     enum { ret = LinearAccessBit | LvalueBit | DirectAccessBit | NestByRefBit | packet_access_bit | row_major_bit | aligned_bit };
00159 };
00160 
00161 template<int _Rows, int _Cols> struct size_at_compile_time
00162 {
00163   enum { ret = (_Rows==Dynamic || _Cols==Dynamic) ? Dynamic : _Rows * _Cols };
00164 };
00165 
00166 /* plain_matrix_type : the difference from eval is that plain_matrix_type is always a plain matrix type,
00167  * whereas eval is a const reference in the case of a matrix
00168  */
00169 
00170 template<typename T, typename StorageKind = typename traits<T>::StorageKind> struct plain_matrix_type;
00171 template<typename T, typename BaseClassType> struct plain_matrix_type_dense;
00172 template<typename T> struct plain_matrix_type<T,Dense>
00173 {
00174   typedef typename plain_matrix_type_dense<T,typename traits<T>::XprKind>::type type;
00175 };
00176 
00177 template<typename T> struct plain_matrix_type_dense<T,MatrixXpr>
00178 {
00179   typedef Matrix<typename traits<T>::Scalar,
00180                 traits<T>::RowsAtCompileTime,
00181                 traits<T>::ColsAtCompileTime,
00182                 AutoAlign | (traits<T>::Flags&RowMajorBit ? RowMajor : ColMajor),
00183                 traits<T>::MaxRowsAtCompileTime,
00184                 traits<T>::MaxColsAtCompileTime
00185           > type;
00186 };
00187 
00188 template<typename T> struct plain_matrix_type_dense<T,ArrayXpr>
00189 {
00190   typedef Array<typename traits<T>::Scalar,
00191                 traits<T>::RowsAtCompileTime,
00192                 traits<T>::ColsAtCompileTime,
00193                 AutoAlign | (traits<T>::Flags&RowMajorBit ? RowMajor : ColMajor),
00194                 traits<T>::MaxRowsAtCompileTime,
00195                 traits<T>::MaxColsAtCompileTime
00196           > type;
00197 };
00198 
00199 /* eval : the return type of eval(). For matrices, this is just a const reference
00200  * in order to avoid a useless copy
00201  */
00202 
00203 template<typename T, typename StorageKind = typename traits<T>::StorageKind> struct eval;
00204 
00205 template<typename T> struct eval<T,Dense>
00206 {
00207   typedef typename plain_matrix_type<T>::type type;
00208 //   typedef typename T::PlainObject type;
00209 //   typedef T::Matrix<typename traits<T>::Scalar,
00210 //                 traits<T>::RowsAtCompileTime,
00211 //                 traits<T>::ColsAtCompileTime,
00212 //                 AutoAlign | (traits<T>::Flags&RowMajorBit ? RowMajor : ColMajor),
00213 //                 traits<T>::MaxRowsAtCompileTime,
00214 //                 traits<T>::MaxColsAtCompileTime
00215 //           > type;
00216 };
00217 
00218 // for matrices, no need to evaluate, just use a const reference to avoid a useless copy
00219 template<typename _Scalar, int _Rows, int _Cols, int _Options, int _MaxRows, int _MaxCols>
00220 struct eval<Matrix<_Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols>, Dense>
00221 {
00222   typedef const Matrix<_Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols>& type;
00223 };
00224 
00225 template<typename _Scalar, int _Rows, int _Cols, int _Options, int _MaxRows, int _MaxCols>
00226 struct eval<Array<_Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols>, Dense>
00227 {
00228   typedef const Array<_Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols>& type;
00229 };
00230 
00231 
00232 
00233 /* plain_matrix_type_column_major : same as plain_matrix_type but guaranteed to be column-major
00234  */
00235 template<typename T> struct plain_matrix_type_column_major
00236 {
00237   enum { Rows = traits<T>::RowsAtCompileTime,
00238          Cols = traits<T>::ColsAtCompileTime,
00239          MaxRows = traits<T>::MaxRowsAtCompileTime,
00240          MaxCols = traits<T>::MaxColsAtCompileTime
00241   };
00242   typedef Matrix<typename traits<T>::Scalar,
00243                 Rows,
00244                 Cols,
00245                 (MaxRows==1&&MaxCols!=1) ? RowMajor : ColMajor,
00246                 MaxRows,
00247                 MaxCols
00248           > type;
00249 };
00250 
00251 /* plain_matrix_type_row_major : same as plain_matrix_type but guaranteed to be row-major
00252  */
00253 template<typename T> struct plain_matrix_type_row_major
00254 {
00255   enum { Rows = traits<T>::RowsAtCompileTime,
00256          Cols = traits<T>::ColsAtCompileTime,
00257          MaxRows = traits<T>::MaxRowsAtCompileTime,
00258          MaxCols = traits<T>::MaxColsAtCompileTime
00259   };
00260   typedef Matrix<typename traits<T>::Scalar,
00261                 Rows,
00262                 Cols,
00263                 (MaxCols==1&&MaxRows!=1) ? RowMajor : ColMajor,
00264                 MaxRows,
00265                 MaxCols
00266           > type;
00267 };
00268 
00269 // we should be able to get rid of this one too
00270 template<typename T> struct must_nest_by_value { enum { ret = false }; };
00271 
00275 template <typename T>
00276 struct ref_selector
00277 {
00278   typedef typename conditional<
00279     bool(traits<T>::Flags & NestByRefBit),
00280     T const&,
00281     const T
00282   >::type type;
00283 };
00284 
00286 template<typename T1, typename T2>
00287 struct transfer_constness
00288 {
00289   typedef typename conditional<
00290     bool(internal::is_const<T1>::value),
00291     typename internal::add_const_on_value_type<T2>::type,
00292     T2
00293   >::type type;
00294 };
00295 
00316 template<typename T, int n=1, typename PlainObject = typename eval<T>::type> struct nested
00317 {
00318   enum {
00319     // for the purpose of this test, to keep it reasonably simple, we arbitrarily choose a value of Dynamic values.
00320     // the choice of 10000 makes it larger than any practical fixed value and even most dynamic values.
00321     // in extreme cases where these assumptions would be wrong, we would still at worst suffer performance issues
00322     // (poor choice of temporaries).
00323     // it's important that this value can still be squared without integer overflowing.
00324     DynamicAsInteger = 10000,
00325     ScalarReadCost = NumTraits<typename traits<T>::Scalar>::ReadCost,
00326     ScalarReadCostAsInteger = ScalarReadCost == Dynamic ? int(DynamicAsInteger) : int(ScalarReadCost),
00327     CoeffReadCost = traits<T>::CoeffReadCost,
00328     CoeffReadCostAsInteger = CoeffReadCost == Dynamic ? int(DynamicAsInteger) : int(CoeffReadCost),
00329     NAsInteger = n == Dynamic ? int(DynamicAsInteger) : n,
00330     CostEvalAsInteger   = (NAsInteger+1) * ScalarReadCostAsInteger + CoeffReadCostAsInteger,
00331     CostNoEvalAsInteger = NAsInteger * CoeffReadCostAsInteger
00332   };
00333 
00334   typedef typename conditional<
00335       ( (int(traits<T>::Flags) & EvalBeforeNestingBit) ||
00336         int(CostEvalAsInteger) < int(CostNoEvalAsInteger)
00337       ),
00338       PlainObject,
00339       typename ref_selector<T>::type
00340   >::type type;
00341 };
00342 
00343 template<typename T>
00344 T* const_cast_ptr(const T* ptr)
00345 {
00346   return const_cast<T*>(ptr);
00347 }
00348 
00349 template<typename Derived, typename XprKind = typename traits<Derived>::XprKind>
00350 struct dense_xpr_base
00351 {
00352   /* dense_xpr_base should only ever be used on dense expressions, thus falling either into the MatrixXpr or into the ArrayXpr cases */
00353 };
00354 
00355 template<typename Derived>
00356 struct dense_xpr_base<Derived, MatrixXpr>
00357 {
00358   typedef MatrixBase<Derived> type;
00359 };
00360 
00361 template<typename Derived>
00362 struct dense_xpr_base<Derived, ArrayXpr>
00363 {
00364   typedef ArrayBase<Derived> type;
00365 };
00366 
00369 template<typename Derived,typename Scalar,typename OtherScalar,
00370          bool EnableIt = !is_same<Scalar,OtherScalar>::value >
00371 struct special_scalar_op_base : public DenseCoeffsBase<Derived>
00372 {
00373   // dummy operator* so that the
00374   // "using special_scalar_op_base::operator*" compiles
00375   void operator*() const;
00376 };
00377 
00378 template<typename Derived,typename Scalar,typename OtherScalar>
00379 struct special_scalar_op_base<Derived,Scalar,OtherScalar,true>  : public DenseCoeffsBase<Derived>
00380 {
00381   const CwiseUnaryOp<scalar_multiple2_op<Scalar,OtherScalar>, Derived>
00382   operator*(const OtherScalar& scalar) const
00383   {
00384     return CwiseUnaryOp<scalar_multiple2_op<Scalar,OtherScalar>, Derived>
00385       (*static_cast<const Derived*>(this), scalar_multiple2_op<Scalar,OtherScalar>(scalar));
00386   }
00387 
00388   inline friend const CwiseUnaryOp<scalar_multiple2_op<Scalar,OtherScalar>, Derived>
00389   operator*(const OtherScalar& scalar, const Derived& matrix)
00390   { return static_cast<const special_scalar_op_base&>(matrix).operator*(scalar); }
00391 };
00392 
00393 template<typename XprType, typename CastType> struct cast_return_type
00394 {
00395   typedef typename XprType::Scalar CurrentScalarType;
00396   typedef typename remove_all<CastType>::type _CastType;
00397   typedef typename _CastType::Scalar NewScalarType;
00398   typedef typename conditional<is_same<CurrentScalarType,NewScalarType>::value,
00399                               const XprType&,CastType>::type type;
00400 };
00401 
00402 template <typename A, typename B> struct promote_storage_type;
00403 
00404 template <typename A> struct promote_storage_type<A,A>
00405 {
00406   typedef A ret;
00407 };
00408 
00412 template<typename ExpressionType, typename Scalar = typename ExpressionType::Scalar>
00413 struct plain_row_type
00414 {
00415   typedef Matrix<Scalar, 1, ExpressionType::ColsAtCompileTime,
00416                  ExpressionType::PlainObject::Options | RowMajor, 1, ExpressionType::MaxColsAtCompileTime> MatrixRowType;
00417   typedef Array<Scalar, 1, ExpressionType::ColsAtCompileTime,
00418                  ExpressionType::PlainObject::Options | RowMajor, 1, ExpressionType::MaxColsAtCompileTime> ArrayRowType;
00419 
00420   typedef typename conditional<
00421     is_same< typename traits<ExpressionType>::XprKind, MatrixXpr >::value,
00422     MatrixRowType,
00423     ArrayRowType 
00424   >::type type;
00425 };
00426 
00427 template<typename ExpressionType, typename Scalar = typename ExpressionType::Scalar>
00428 struct plain_col_type
00429 {
00430   typedef Matrix<Scalar, ExpressionType::RowsAtCompileTime, 1,
00431                  ExpressionType::PlainObject::Options & ~RowMajor, ExpressionType::MaxRowsAtCompileTime, 1> MatrixColType;
00432   typedef Array<Scalar, ExpressionType::RowsAtCompileTime, 1,
00433                  ExpressionType::PlainObject::Options & ~RowMajor, ExpressionType::MaxRowsAtCompileTime, 1> ArrayColType;
00434 
00435   typedef typename conditional<
00436     is_same< typename traits<ExpressionType>::XprKind, MatrixXpr >::value,
00437     MatrixColType,
00438     ArrayColType 
00439   >::type type;
00440 };
00441 
00442 template<typename ExpressionType, typename Scalar = typename ExpressionType::Scalar>
00443 struct plain_diag_type
00444 {
00445   enum { diag_size = EIGEN_SIZE_MIN_PREFER_DYNAMIC(ExpressionType::RowsAtCompileTime, ExpressionType::ColsAtCompileTime),
00446          max_diag_size = EIGEN_SIZE_MIN_PREFER_FIXED(ExpressionType::MaxRowsAtCompileTime, ExpressionType::MaxColsAtCompileTime)
00447   };
00448   typedef Matrix<Scalar, diag_size, 1, ExpressionType::PlainObject::Options & ~RowMajor, max_diag_size, 1> MatrixDiagType;
00449   typedef Array<Scalar, diag_size, 1, ExpressionType::PlainObject::Options & ~RowMajor, max_diag_size, 1> ArrayDiagType;
00450 
00451   typedef typename conditional<
00452     is_same< typename traits<ExpressionType>::XprKind, MatrixXpr >::value,
00453     MatrixDiagType,
00454     ArrayDiagType 
00455   >::type type;
00456 };
00457 
00458 template<typename ExpressionType>
00459 struct is_lvalue
00460 {
00461   enum { value = !bool(is_const<ExpressionType>::value) &&
00462                  bool(traits<ExpressionType>::Flags & LvalueBit) };
00463 };
00464 
00465 } // end namespace internal
00466 
00467 } // end namespace Eigen
00468 
00469 #endif // EIGEN_XPRHELPER_H


acado
Author(s): Milan Vukov, Rien Quirynen
autogenerated on Thu Aug 27 2015 12:01:33