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Teuchos_SerialDenseHelpers.hpp
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41 
42 #ifndef _TEUCHOS_SERIALDENSEHELPERS_HPP_
43 #define _TEUCHOS_SERIALDENSEHELPERS_HPP_
44 
49 #include "Teuchos_ScalarTraits.hpp"
50 #include "Teuchos_DataAccess.hpp"
51 #include "Teuchos_ConfigDefs.hpp"
52 #include "Teuchos_Assert.hpp"
57 
58 #include "Teuchos_CommHelpers.hpp"
59 #include "Teuchos_DefaultComm.hpp"
60 
61 namespace Teuchos {
62 
74 template<typename OrdinalType, typename ScalarType>
75 void symMatTripleProduct( ETransp transw, const ScalarType alpha, const SerialSymDenseMatrix<OrdinalType, ScalarType>& A,
77 {
78  // Local variables.
79  // Note: dimemensions of W are obtained so we can compute W^T*A*W for either cases.
80  OrdinalType A_nrowcols = A.numRows(); // A is a symmetric matrix and is assumed square.
81  OrdinalType B_nrowcols = (ETranspChar[transw]!='N') ? W.numCols() : W.numRows();
82  OrdinalType W_nrows = (ETranspChar[transw]!='N') ? W.numRows() : W.numCols();
83  OrdinalType W_ncols = (ETranspChar[transw]!='N') ? W.numCols() : W.numRows();
84 
85  bool isBUpper = B.upper();
86 
87  // Check for consistent dimensions.
88  TEUCHOS_TEST_FOR_EXCEPTION( B_nrowcols != B.numRows(), std::out_of_range,
89  "Teuchos::symMatTripleProduct<>() : "
90  "Num Rows/Cols B (" << B.numRows() << ") inconsistent with W ("<< B_nrowcols << ")");
91  TEUCHOS_TEST_FOR_EXCEPTION( A_nrowcols != W_nrows, std::out_of_range,
92  "Teuchos::symMatTripleProduct<>() : "
93  "Num Rows/Cols A (" << A_nrowcols << ") inconsistent with W ("<< W_nrows << ")");
94 
95  // Scale by zero, initialized B to zeros and return.
96  if ( alpha == ScalarTraits<ScalarType>::zero() )
97  {
98  B.putScalar();
99  return;
100  }
101 
102  // Workspace.
104 
105  // BLAS class.
107  ScalarType one = Teuchos::ScalarTraits<ScalarType>::one();
108  ScalarType zero = Teuchos::ScalarTraits<ScalarType>::zero();
109 
110  // Separate two cases because BLAS only supports symmetric matrix-matrix multply w/o transposes.
111  if (ETranspChar[transw]!='N') {
112  // Size AW to compute A*W
113  AW.shapeUninitialized(A_nrowcols,W_ncols);
114 
115  // A*W
117 
118  // B = W^T*A*W
119  if (isBUpper) {
120  for (OrdinalType j=0; j<B_nrowcols; ++j)
121  blas.GEMV( transw, W_nrows, j+1, one, W.values(), W.stride(), AW[j], 1, zero, &B(0,j), 1 );
122  }
123  else {
124  for (OrdinalType j=0; j<B_nrowcols; ++j)
125  blas.GEMV( transw, W_nrows, B_nrowcols-j, one, W[j], W.stride(), AW[j], 1, zero, &B(j,j), 1 );
126  }
127  }
128  else {
129  // Size AW to compute W*A
130  AW.shapeUninitialized(W_ncols, A_nrowcols);
131 
132  // W*A
134 
135  // B = W*A*W^T
136  if (isBUpper) {
137  for (OrdinalType j=0; j<B_nrowcols; ++j)
138  for (OrdinalType i=0; i<=j; ++i)
139  blas.GEMV( transw, 1, A_nrowcols, one, &AW(i,0), AW.stride(), &W(j,0), W.stride(), zero, &B(i,j), 1 );
140  }
141  else {
142  for (OrdinalType j=0; j<B_nrowcols; ++j)
143  for (OrdinalType i=j; i<B_nrowcols; ++i)
144  blas.GEMV( transw, 1, A_nrowcols, one, &AW(i,0), AW.stride(), &W(j,0), W.stride(), zero, &B(i,j), 1 );
145  }
146  }
147 
148  return;
149 }
150 
160 template<typename OrdinalType, typename ScalarType>
163 {
164  return SerialDenseVector<OrdinalType, ScalarType>(CV, A[col], A.numRows());
165 }
166 
176 template<typename OrdinalType, typename ScalarType>
178  const OrdinalType col,
180 {
181  if (v.length() != A.numRows()) return false;
182 
183  std::copy(v.values(),v.values()+v.length(),A[col]);
184 
185  return true;
186 }
187 
193 template <typename OrdinalType, typename ScalarType>
195 {
198 
199  const OrdinalType procRank = rank(*comm);
200 
201  // Construct a separate serial dense matrix and synchronize it to get around
202  // input matrices that are subviews of a larger matrix.
204  if (procRank == 0)
205  newMatrix.random();
206  else
207  newMatrix.putScalar( Teuchos::ScalarTraits<ScalarType>::zero() );
208 
209  broadcast(*comm, 0, A.numRows()*A.numCols(), newMatrix.values());
210 
211  // Assign the synchronized matrix to the input.
212  A.assign( newMatrix );
213 }
214 
215 
226 template<typename OrdinalType, typename ScalarType>
229  const OrdinalType kl, const OrdinalType ku,
230  const bool factorFormat)
231 {
232  OrdinalType m = A->numRows();
233  OrdinalType n = A->numCols();
234 
235  // Check that the new matrix is consistent.
236  TEUCHOS_TEST_FOR_EXCEPTION(A->values()==0, std::invalid_argument,
237  "SerialBandDenseSolver<T>::generalToBanded: A is an empty SerialDenseMatrix<T>!");
238  TEUCHOS_TEST_FOR_EXCEPTION(kl<0 || kl>m, std::invalid_argument,
239  "SerialBandDenseSolver<T>::generalToBanded: The lower bandwidth kl is invalid!");
240  TEUCHOS_TEST_FOR_EXCEPTION(ku<0 || ku>n, std::invalid_argument,
241  "SerialBandDenseSolver<T>::generalToBanded: The upper bandwidth ku is invalid!");
242 
243  OrdinalType extraBands = (factorFormat ? kl : 0);
245  rcp( new SerialBandDenseMatrix<OrdinalType,ScalarType>(m,n,kl,extraBands+ku,true));
246 
247  for (OrdinalType j = 0; j < n; j++) {
248  for (OrdinalType i=TEUCHOS_MAX(0,j-ku); i<=TEUCHOS_MIN(m-1,j+kl); i++) {
249  (*AB)(i,j) = (*A)(i,j);
250  }
251  }
252  return(AB);
253 }
254 
262 template<typename OrdinalType, typename ScalarType>
265 {
266 
267  OrdinalType m = AB->numRows();
268  OrdinalType n = AB->numCols();
269  OrdinalType kl = AB->lowerBandwidth();
270  OrdinalType ku = AB->upperBandwidth();
271 
272  // Check that the new matrix is consistent.
273  TEUCHOS_TEST_FOR_EXCEPTION(AB->values()==0, std::invalid_argument,
274  "SerialBandDenseSolver<T>::bandedToGeneral: AB is an empty SerialBandDenseMatrix<T>!");
275 
277  for (OrdinalType j = 0; j < n; j++) {
278  for (OrdinalType i=TEUCHOS_MAX(0,j-ku); i<=TEUCHOS_MIN(m-1,j+kl); i++) {
279  (*A)(i,j) = (*AB)(i,j);
280  }
281  }
282  return(A);
283 }
284 
285 } // namespace Teuchos
286 
287 #endif /* _TEUCHOS_SERIALDENSEHELPERS_HPP_ */
ScalarType * values() const
Data array access method.
bool setCol(const SerialDenseVector< OrdinalType, ScalarType > &v, const OrdinalType col, SerialDenseMatrix< OrdinalType, ScalarType > &A)
A templated, non-member, helper function for setting a SerialDenseMatrix column using a SerialDenseVe...
bool upper() const
Returns true if upper triangular part of this matrix has and will be used.
Templated serial dense matrix class.
void randomSyncedMatrix(Teuchos::SerialDenseMatrix< OrdinalType, ScalarType > &A)
A templated, non-member, helper function for generating a random SerialDenseMatrix that is synchroniz...
int shapeUninitialized(OrdinalType numRows, OrdinalType numCols)
Same as shape() except leaves uninitialized.
void GEMV(ETransp trans, const OrdinalType &m, const OrdinalType &n, const alpha_type alpha, const A_type *A, const OrdinalType &lda, const x_type *x, const OrdinalType &incx, const beta_type beta, ScalarType *y, const OrdinalType &incy) const
Performs the matrix-vector operation: y &lt;- alpha*A*x+beta*y or y &lt;- alpha*A&#39;*x+beta*y where A is a gene...
void symMatTripleProduct(ETransp transw, const ScalarType alpha, const SerialSymDenseMatrix< OrdinalType, ScalarType > &A, const SerialDenseMatrix< OrdinalType, ScalarType > &W, SerialSymDenseMatrix< OrdinalType, ScalarType > &B)
A templated, non-member, helper function for computing the matrix triple-product: B = alpha*W^T*A*W o...
int multiply(ETransp transa, ETransp transb, ScalarType alpha, const SerialDenseMatrix< OrdinalType, ScalarType > &A, const SerialDenseMatrix< OrdinalType, ScalarType > &B, ScalarType beta)
Multiply A * B and add them to this; this = beta * this + alpha*A*B.
#define TEUCHOS_TEST_FOR_EXCEPTION(throw_exception_test, Exception, msg)
Macro for throwing an exception with breakpointing to ease debugging.
SerialDenseVector< OrdinalType, ScalarType > getCol(DataAccess CV, SerialDenseMatrix< OrdinalType, ScalarType > &A, const OrdinalType col)
A templated, non-member, helper function for viewing or copying a column of a SerialDenseMatrix as a ...
Teuchos header file which uses auto-configuration information to include necessary C++ headers...
Templated BLAS wrapper.
This class creates and provides basic support for symmetric, positive-definite dense matrices of temp...
OrdinalType numRows() const
Returns the row dimension of this matrix.
static Teuchos::RCP< const Comm< OrdinalType > > getComm()
Return the default global communicator.
This class creates and provides basic support for dense vectors of templated type as a specialization...
This structure defines some basic traits for a scalar field type.
Templated serial dense matrix class.
Teuchos::RCP< SerialDenseMatrix< OrdinalType, ScalarType > > bandedToGeneral(const RCP< SerialBandDenseMatrix< OrdinalType, ScalarType > > &AB)
A templated, non-member, helper function for converting a SerialBandDenseMatrix to a SerialDenseMatri...
TEUCHOS_DEPRECATED RCP< T > rcp(T *p, Dealloc_T dealloc, bool owns_mem)
Deprecated.
int putScalar(const ScalarType value=Teuchos::ScalarTraits< ScalarType >::zero(), bool fullMatrix=false)
Set all values in the matrix to a constant value.
This class creates and provides basic support for banded dense matrices of templated type...
Teuchos::RCP< SerialBandDenseMatrix< OrdinalType, ScalarType > > generalToBanded(const RCP< SerialDenseMatrix< OrdinalType, ScalarType > > &A, const OrdinalType kl, const OrdinalType ku, const bool factorFormat)
A templated, non-member, helper function for converting a SerialDenseMatrix to a SerialBandDenseMatri...
OrdinalType length() const
Returns the length of this vector.
Templated serial, dense, symmetric matrix class.
OrdinalType numCols() const
Returns the column dimension of this matrix.
int random()
Set all values in the matrix to be random numbers.
Templated serial dense vector class.
Defines basic traits for the scalar field type.
static T zero()
Returns representation of zero for this scalar type.
Smart reference counting pointer class for automatic garbage collection.
SerialDenseMatrix< OrdinalType, ScalarType > & assign(const SerialDenseMatrix< OrdinalType, ScalarType > &Source)
Copies values from one matrix to another.
static T one()
Returns representation of one for this scalar type.
Teuchos::DataAccess Mode enumerable type.
OrdinalType stride() const
Returns the stride between the columns of this matrix in memory.
OrdinalType numRows() const
Returns the row dimension of this matrix.
This class creates and provides basic support for dense rectangular matrix of templated type...