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00010 #ifndef EIGEN_TRANSPOSITIONS_H
00011 #define EIGEN_TRANSPOSITIONS_H
00012
00013 namespace Eigen {
00014
00044 namespace internal {
00045 template<typename TranspositionType, typename MatrixType, int Side, bool Transposed=false> struct transposition_matrix_product_retval;
00046 }
00047
00048 template<typename Derived>
00049 class TranspositionsBase
00050 {
00051 typedef internal::traits<Derived> Traits;
00052
00053 public:
00054
00055 typedef typename Traits::IndicesType IndicesType;
00056 typedef typename IndicesType::Scalar Index;
00057
00058 Derived& derived() { return *static_cast<Derived*>(this); }
00059 const Derived& derived() const { return *static_cast<const Derived*>(this); }
00060
00062 template<typename OtherDerived>
00063 Derived& operator=(const TranspositionsBase<OtherDerived>& other)
00064 {
00065 indices() = other.indices();
00066 return derived();
00067 }
00068
00069 #ifndef EIGEN_PARSED_BY_DOXYGEN
00070
00073 Derived& operator=(const TranspositionsBase& other)
00074 {
00075 indices() = other.indices();
00076 return derived();
00077 }
00078 #endif
00079
00081 inline Index size() const { return indices().size(); }
00082
00084 inline const Index& coeff(Index i) const { return indices().coeff(i); }
00086 inline Index& coeffRef(Index i) { return indices().coeffRef(i); }
00088 inline const Index& operator()(Index i) const { return indices()(i); }
00090 inline Index& operator()(Index i) { return indices()(i); }
00092 inline const Index& operator[](Index i) const { return indices()(i); }
00094 inline Index& operator[](Index i) { return indices()(i); }
00095
00097 const IndicesType& indices() const { return derived().indices(); }
00099 IndicesType& indices() { return derived().indices(); }
00100
00102 inline void resize(int newSize)
00103 {
00104 indices().resize(newSize);
00105 }
00106
00108 void setIdentity()
00109 {
00110 for(int i = 0; i < indices().size(); ++i)
00111 coeffRef(i) = i;
00112 }
00113
00114
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00121
00122
00123
00124
00125
00126
00127
00128
00129
00130
00131
00132
00133
00134
00136 inline Transpose<TranspositionsBase> inverse() const
00137 { return Transpose<TranspositionsBase>(derived()); }
00138
00140 inline Transpose<TranspositionsBase> transpose() const
00141 { return Transpose<TranspositionsBase>(derived()); }
00142
00143 protected:
00144 };
00145
00146 namespace internal {
00147 template<int SizeAtCompileTime, int MaxSizeAtCompileTime, typename IndexType>
00148 struct traits<Transpositions<SizeAtCompileTime,MaxSizeAtCompileTime,IndexType> >
00149 {
00150 typedef IndexType Index;
00151 typedef Matrix<Index, SizeAtCompileTime, 1, 0, MaxSizeAtCompileTime, 1> IndicesType;
00152 };
00153 }
00154
00155 template<int SizeAtCompileTime, int MaxSizeAtCompileTime, typename IndexType>
00156 class Transpositions : public TranspositionsBase<Transpositions<SizeAtCompileTime,MaxSizeAtCompileTime,IndexType> >
00157 {
00158 typedef internal::traits<Transpositions> Traits;
00159 public:
00160
00161 typedef TranspositionsBase<Transpositions> Base;
00162 typedef typename Traits::IndicesType IndicesType;
00163 typedef typename IndicesType::Scalar Index;
00164
00165 inline Transpositions() {}
00166
00168 template<typename OtherDerived>
00169 inline Transpositions(const TranspositionsBase<OtherDerived>& other)
00170 : m_indices(other.indices()) {}
00171
00172 #ifndef EIGEN_PARSED_BY_DOXYGEN
00173
00175 inline Transpositions(const Transpositions& other) : m_indices(other.indices()) {}
00176 #endif
00177
00179 template<typename Other>
00180 explicit inline Transpositions(const MatrixBase<Other>& a_indices) : m_indices(a_indices)
00181 {}
00182
00184 template<typename OtherDerived>
00185 Transpositions& operator=(const TranspositionsBase<OtherDerived>& other)
00186 {
00187 return Base::operator=(other);
00188 }
00189
00190 #ifndef EIGEN_PARSED_BY_DOXYGEN
00191
00194 Transpositions& operator=(const Transpositions& other)
00195 {
00196 m_indices = other.m_indices;
00197 return *this;
00198 }
00199 #endif
00200
00203 inline Transpositions(Index size) : m_indices(size)
00204 {}
00205
00207 const IndicesType& indices() const { return m_indices; }
00209 IndicesType& indices() { return m_indices; }
00210
00211 protected:
00212
00213 IndicesType m_indices;
00214 };
00215
00216
00217 namespace internal {
00218 template<int SizeAtCompileTime, int MaxSizeAtCompileTime, typename IndexType, int _PacketAccess>
00219 struct traits<Map<Transpositions<SizeAtCompileTime,MaxSizeAtCompileTime,IndexType>,_PacketAccess> >
00220 {
00221 typedef IndexType Index;
00222 typedef Map<const Matrix<Index,SizeAtCompileTime,1,0,MaxSizeAtCompileTime,1>, _PacketAccess> IndicesType;
00223 };
00224 }
00225
00226 template<int SizeAtCompileTime, int MaxSizeAtCompileTime, typename IndexType, int PacketAccess>
00227 class Map<Transpositions<SizeAtCompileTime,MaxSizeAtCompileTime,IndexType>,PacketAccess>
00228 : public TranspositionsBase<Map<Transpositions<SizeAtCompileTime,MaxSizeAtCompileTime,IndexType>,PacketAccess> >
00229 {
00230 typedef internal::traits<Map> Traits;
00231 public:
00232
00233 typedef TranspositionsBase<Map> Base;
00234 typedef typename Traits::IndicesType IndicesType;
00235 typedef typename IndicesType::Scalar Index;
00236
00237 inline Map(const Index* indicesPtr)
00238 : m_indices(indicesPtr)
00239 {}
00240
00241 inline Map(const Index* indicesPtr, Index size)
00242 : m_indices(indicesPtr,size)
00243 {}
00244
00246 template<typename OtherDerived>
00247 Map& operator=(const TranspositionsBase<OtherDerived>& other)
00248 {
00249 return Base::operator=(other);
00250 }
00251
00252 #ifndef EIGEN_PARSED_BY_DOXYGEN
00253
00256 Map& operator=(const Map& other)
00257 {
00258 m_indices = other.m_indices;
00259 return *this;
00260 }
00261 #endif
00262
00264 const IndicesType& indices() const { return m_indices; }
00265
00267 IndicesType& indices() { return m_indices; }
00268
00269 protected:
00270
00271 IndicesType m_indices;
00272 };
00273
00274 namespace internal {
00275 template<typename _IndicesType>
00276 struct traits<TranspositionsWrapper<_IndicesType> >
00277 {
00278 typedef typename _IndicesType::Scalar Index;
00279 typedef _IndicesType IndicesType;
00280 };
00281 }
00282
00283 template<typename _IndicesType>
00284 class TranspositionsWrapper
00285 : public TranspositionsBase<TranspositionsWrapper<_IndicesType> >
00286 {
00287 typedef internal::traits<TranspositionsWrapper> Traits;
00288 public:
00289
00290 typedef TranspositionsBase<TranspositionsWrapper> Base;
00291 typedef typename Traits::IndicesType IndicesType;
00292 typedef typename IndicesType::Scalar Index;
00293
00294 inline TranspositionsWrapper(IndicesType& a_indices)
00295 : m_indices(a_indices)
00296 {}
00297
00299 template<typename OtherDerived>
00300 TranspositionsWrapper& operator=(const TranspositionsBase<OtherDerived>& other)
00301 {
00302 return Base::operator=(other);
00303 }
00304
00305 #ifndef EIGEN_PARSED_BY_DOXYGEN
00306
00309 TranspositionsWrapper& operator=(const TranspositionsWrapper& other)
00310 {
00311 m_indices = other.m_indices;
00312 return *this;
00313 }
00314 #endif
00315
00317 const IndicesType& indices() const { return m_indices; }
00318
00320 IndicesType& indices() { return m_indices; }
00321
00322 protected:
00323
00324 const typename IndicesType::Nested m_indices;
00325 };
00326
00329 template<typename Derived, typename TranspositionsDerived>
00330 inline const internal::transposition_matrix_product_retval<TranspositionsDerived, Derived, OnTheRight>
00331 operator*(const MatrixBase<Derived>& matrix,
00332 const TranspositionsBase<TranspositionsDerived> &transpositions)
00333 {
00334 return internal::transposition_matrix_product_retval
00335 <TranspositionsDerived, Derived, OnTheRight>
00336 (transpositions.derived(), matrix.derived());
00337 }
00338
00341 template<typename Derived, typename TranspositionDerived>
00342 inline const internal::transposition_matrix_product_retval
00343 <TranspositionDerived, Derived, OnTheLeft>
00344 operator*(const TranspositionsBase<TranspositionDerived> &transpositions,
00345 const MatrixBase<Derived>& matrix)
00346 {
00347 return internal::transposition_matrix_product_retval
00348 <TranspositionDerived, Derived, OnTheLeft>
00349 (transpositions.derived(), matrix.derived());
00350 }
00351
00352 namespace internal {
00353
00354 template<typename TranspositionType, typename MatrixType, int Side, bool Transposed>
00355 struct traits<transposition_matrix_product_retval<TranspositionType, MatrixType, Side, Transposed> >
00356 {
00357 typedef typename MatrixType::PlainObject ReturnType;
00358 };
00359
00360 template<typename TranspositionType, typename MatrixType, int Side, bool Transposed>
00361 struct transposition_matrix_product_retval
00362 : public ReturnByValue<transposition_matrix_product_retval<TranspositionType, MatrixType, Side, Transposed> >
00363 {
00364 typedef typename remove_all<typename MatrixType::Nested>::type MatrixTypeNestedCleaned;
00365 typedef typename TranspositionType::Index Index;
00366
00367 transposition_matrix_product_retval(const TranspositionType& tr, const MatrixType& matrix)
00368 : m_transpositions(tr), m_matrix(matrix)
00369 {}
00370
00371 inline int rows() const { return m_matrix.rows(); }
00372 inline int cols() const { return m_matrix.cols(); }
00373
00374 template<typename Dest> inline void evalTo(Dest& dst) const
00375 {
00376 const int size = m_transpositions.size();
00377 Index j = 0;
00378
00379 if(!(is_same<MatrixTypeNestedCleaned,Dest>::value && extract_data(dst) == extract_data(m_matrix)))
00380 dst = m_matrix;
00381
00382 for(int k=(Transposed?size-1:0) ; Transposed?k>=0:k<size ; Transposed?--k:++k)
00383 if((j=m_transpositions.coeff(k))!=k)
00384 {
00385 if(Side==OnTheLeft)
00386 dst.row(k).swap(dst.row(j));
00387 else if(Side==OnTheRight)
00388 dst.col(k).swap(dst.col(j));
00389 }
00390 }
00391
00392 protected:
00393 const TranspositionType& m_transpositions;
00394 typename MatrixType::Nested m_matrix;
00395 };
00396
00397 }
00398
00399
00400
00401 template<typename TranspositionsDerived>
00402 class Transpose<TranspositionsBase<TranspositionsDerived> >
00403 {
00404 typedef TranspositionsDerived TranspositionType;
00405 typedef typename TranspositionType::IndicesType IndicesType;
00406 public:
00407
00408 Transpose(const TranspositionType& t) : m_transpositions(t) {}
00409
00410 inline int size() const { return m_transpositions.size(); }
00411
00414 template<typename Derived> friend
00415 inline const internal::transposition_matrix_product_retval<TranspositionType, Derived, OnTheRight, true>
00416 operator*(const MatrixBase<Derived>& matrix, const Transpose& trt)
00417 {
00418 return internal::transposition_matrix_product_retval<TranspositionType, Derived, OnTheRight, true>(trt.m_transpositions, matrix.derived());
00419 }
00420
00423 template<typename Derived>
00424 inline const internal::transposition_matrix_product_retval<TranspositionType, Derived, OnTheLeft, true>
00425 operator*(const MatrixBase<Derived>& matrix) const
00426 {
00427 return internal::transposition_matrix_product_retval<TranspositionType, Derived, OnTheLeft, true>(m_transpositions, matrix.derived());
00428 }
00429
00430 protected:
00431 const TranspositionType& m_transpositions;
00432 };
00433
00434 }
00435
00436 #endif // EIGEN_TRANSPOSITIONS_H