hetrs.h
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1 //=================================================================================================
33 //=================================================================================================
34 
35 #ifndef _BLAZE_MATH_LAPACK_HETRS_H_
36 #define _BLAZE_MATH_LAPACK_HETRS_H_
37 
38 
39 //*************************************************************************************************
40 // Includes
41 //*************************************************************************************************
42 
43 #include <boost/cast.hpp>
44 #include <blaze/math/Aliases.h>
49 #include <blaze/math/Exception.h>
54 #include <blaze/util/Assert.h>
56 
57 
58 namespace blaze {
59 
60 //=================================================================================================
61 //
62 // LAPACK LDLH-BASED SUBSTITUTION FUNCTIONS (HETRS)
63 //
64 //=================================================================================================
65 
66 //*************************************************************************************************
69 template< typename MT, bool SO, typename VT, bool TF >
70 inline void hetrs( const DenseMatrix<MT,SO>& A, DenseVector<VT,TF>& b, char uplo, const int* ipiv );
71 
72 template< typename MT1, bool SO1, typename MT2, bool SO2 >
73 inline void hetrs( const DenseMatrix<MT1,SO1>& A, DenseMatrix<MT2,SO2>& B,
74  char uplo, const int* ipiv );
76 //*************************************************************************************************
77 
78 
79 //*************************************************************************************************
164 template< typename MT // Type of the system matrix
165  , bool SO // Storage order of the system matrix
166  , typename VT // Type of the right-hand side vector
167  , bool TF > // Transpose flag of the right-hand side vector
168 inline void hetrs( const DenseMatrix<MT,SO>& A, DenseVector<VT,TF>& b, char uplo, const int* ipiv )
169 {
170  using boost::numeric_cast;
171 
179 
180  if( !isSquare( ~A ) ) {
181  BLAZE_THROW_INVALID_ARGUMENT( "Invalid non-square matrix provided" );
182  }
183 
184  if( (~b).size() != (~A).rows() ) {
185  BLAZE_THROW_INVALID_ARGUMENT( "Invalid right-hand side vector provided" );
186  }
187 
188  if( uplo != 'L' && uplo != 'U' ) {
189  BLAZE_THROW_INVALID_ARGUMENT( "Invalid uplo argument provided" );
190  }
191 
192  int n ( numeric_cast<int>( (~A).rows() ) );
193  int nrhs( 1 );
194  int lda ( numeric_cast<int>( (~A).spacing() ) );
195  int ldb ( numeric_cast<int>( (~b).size() ) );
196  int info( 0 );
197 
198  if( n == 0 ) {
199  return;
200  }
201 
203  ( uplo == 'L' )?( uplo = 'U' ):( uplo = 'L' );
204  }
205 
206  hetrs( uplo, n, nrhs, (~A).data(), lda, ipiv, (~b).data(), ldb, &info );
207 
208  BLAZE_INTERNAL_ASSERT( info == 0, "Invalid function argument" );
209 }
210 //*************************************************************************************************
211 
212 
213 //*************************************************************************************************
298 template< typename MT1 // Type of the system matrix
299  , bool SO1 // Storage order of the system matrix
300  , typename MT2 // Type of the right-hand side matrix
301  , bool SO2 > // Storage order of the right-hand side matrix
302 inline void hetrs( const DenseMatrix<MT1,SO1>& A, DenseMatrix<MT2,SO2>& B, char uplo, const int* ipiv )
303 {
304  using boost::numeric_cast;
305 
314 
315  if( !isSquare( ~A ) ) {
316  BLAZE_THROW_INVALID_ARGUMENT( "Invalid non-square matrix provided" );
317  }
318 
319  if( uplo != 'L' && uplo != 'U' ) {
320  BLAZE_THROW_INVALID_ARGUMENT( "Invalid uplo argument provided" );
321  }
322 
323  int n ( numeric_cast<int>( (~A).rows() ) );
324  int mrhs( numeric_cast<int>( SO2 ? (~B).rows() : (~B).columns() ) );
325  int nrhs( numeric_cast<int>( SO2 ? (~B).columns() : (~B).rows() ) );
326  int lda ( numeric_cast<int>( (~A).spacing() ) );
327  int ldb ( numeric_cast<int>( (~B).spacing() ) );
328  int info( 0 );
329 
330  if( n != mrhs ) {
331  BLAZE_THROW_INVALID_ARGUMENT( "Invalid right-hand side matrix provided" );
332  }
333 
334  if( n == 0 ) {
335  return;
336  }
337 
339  ( uplo == 'L' )?( uplo = 'U' ):( uplo = 'L' );
340  }
341 
342  hetrs( uplo, n, nrhs, (~A).data(), lda, ipiv, (~B).data(), ldb, &info );
343 
344  BLAZE_INTERNAL_ASSERT( info == 0, "Invalid function argument" );
345 }
346 //*************************************************************************************************
347 
348 } // namespace blaze
349 
350 #endif
#define BLAZE_THROW_INVALID_ARGUMENT(MESSAGE)
Macro for the emission of a std::invalid_argument exception.This macro encapsulates the default way o...
Definition: Exception.h:235
Constraint on the data type.
BLAZE_ALWAYS_INLINE size_t spacing(const DenseMatrix< MT, SO > &dm) noexcept
Returns the spacing between the beginning of two rows/columns.
Definition: DenseMatrix.h:102
Header file for auxiliary alias declarations.
Data type constraint.
#define BLAZE_CONSTRAINT_MUST_HAVE_MUTABLE_DATA_ACCESS(T)
Constraint on the data type.In case the given data type T does not provide low-level data access to m...
Definition: MutableDataAccess.h:61
BLAZE_ALWAYS_INLINE size_t size(const Vector< VT, TF > &vector) noexcept
Returns the current size/dimension of the vector.
Definition: Vector.h:261
#define BLAZE_CONSTRAINT_MUST_NOT_BE_COMPUTATION_TYPE(T)
Constraint on the data type.In case the given data type T is a computational expression (i...
Definition: Computation.h:81
Header file for the DenseVector base class.
void hetrs(char uplo, int n, int nrhs, const complex< float > *A, int lda, const int *ipiv, complex< float > *B, int ldb, int *info)
LAPACK kernel for the substitution step of solving a symmetric indefinite single precision complex li...
Definition: hetrs.h:121
Header file for the CLAPACK hetrs wrapper functions.
Constraint on the data type.
#define BLAZE_CONSTRAINT_MUST_NOT_BE_ADAPTOR_TYPE(T)
Constraint on the data type.In case the given data type T is an adaptor type (as for instance LowerMa...
Definition: Adaptor.h:81
Base class for dense matrices.The DenseMatrix class is a base class for all dense matrix classes...
Definition: DenseMatrix.h:71
Constraint on the data type.
Namespace of the Blaze C++ math library.
Definition: Blaze.h:57
Compile time check for row-major matrix types.This type trait tests whether or not the given template...
Definition: IsRowMajorMatrix.h:83
Header file for the DenseMatrix base class.
typename T::ElementType ElementType_
Alias declaration for nested ElementType type definitions.The ElementType_ alias declaration provides...
Definition: Aliases.h:163
Base class for N-dimensional dense vectors.The DenseVector class is a base class for all arbitrarily ...
Definition: DenseVector.h:70
#define BLAZE_CONSTRAINT_MUST_BE_SAME_TYPE(A, B)
Data type constraint.In case the two types A and B are not the same (ignoring all cv-qualifiers of bo...
Definition: SameType.h:71
BLAZE_ALWAYS_INLINE size_t columns(const Matrix< MT, SO > &matrix) noexcept
Returns the current number of columns of the matrix.
Definition: Matrix.h:336
Header file for the exception macros of the math module.
Constraint on the data type.
Header file for run time assertion macros.
#define BLAZE_CONSTRAINT_MUST_BE_BLAS_COMPATIBLE_TYPE(T)
Constraint on the data type.In case the given data type T is not a BLAS compatible data type (i...
Definition: BLASCompatible.h:61
BLAZE_ALWAYS_INLINE size_t rows(const Matrix< MT, SO > &matrix) noexcept
Returns the current number of rows of the matrix.
Definition: Matrix.h:320
Header file for the IsRowMajorMatrix type trait.
BLAZE_ALWAYS_INLINE bool isSquare(const Matrix< MT, SO > &matrix) noexcept
Checks if the given matrix is a square matrix.
Definition: Matrix.h:677
#define BLAZE_INTERNAL_ASSERT(expr, msg)
Run time assertion macro for internal checks.In case of an invalid run time expression, the program execution is terminated. The BLAZE_INTERNAL_ASSERT macro can be disabled by setting the BLAZE_USER_ASSERTION flag to zero or by defining NDEBUG during the compilation.
Definition: Assert.h:101