10 #ifndef EIGEN_TRIANGULARMATRIXVECTOR_H 11 #define EIGEN_TRIANGULARMATRIXVECTOR_H 17 template<
typename Index,
int Mode,
typename LhsScalar,
bool ConjLhs,
typename RhsScalar,
bool ConjRhs,
int StorageOrder,
int Version=Specialized>
20 template<
typename Index,
int Mode,
typename LhsScalar,
bool ConjLhs,
typename RhsScalar,
bool ConjRhs,
int Version>
30 const RhsScalar* _rhs,
Index rhsIncr, ResScalar* _res,
Index resIncr,
const RhsScalar&
alpha);
33 template<
typename Index,
int Mode,
typename LhsScalar,
bool ConjLhs,
typename RhsScalar,
bool ConjRhs,
int Version>
36 const RhsScalar* _rhs,
Index rhsIncr, ResScalar* _res,
Index resIncr,
const RhsScalar&
alpha)
52 ResMap
res(_res,rows);
60 for (
Index k=0; k<actualPanelWidth; ++k)
63 Index s = IsLower ? ((HasUnitDiag||HasZeroDiag) ? i+1 : i ) : pi;
64 Index r = IsLower ? actualPanelWidth-k : k+1;
65 if ((!(HasUnitDiag||HasZeroDiag)) || (--r)>0)
66 res.segment(s,r) += (alpha * cjRhs.coeff(i)) * cjLhs.
col(i).
segment(s,r);
68 res.coeffRef(i) += alpha * cjRhs.coeff(i);
70 Index r = IsLower ? rows - pi - actualPanelWidth : pi;
73 Index s = IsLower ? pi+actualPanelWidth : 0;
76 LhsMapper(&lhs.coeffRef(s,pi), lhsStride),
77 RhsMapper(&rhs.coeffRef(pi), rhsIncr),
78 &res.coeffRef(s), resIncr,
alpha);
81 if((!IsLower) && cols>
size)
85 LhsMapper(&lhs.coeffRef(0,size), lhsStride),
86 RhsMapper(&rhs.coeffRef(size), rhsIncr),
87 _res, resIncr, alpha);
91 template<
typename Index,
int Mode,
typename LhsScalar,
bool ConjLhs,
typename RhsScalar,
bool ConjRhs,
int Version>
101 const RhsScalar* _rhs,
Index rhsIncr, ResScalar* _res,
Index resIncr,
const ResScalar&
alpha);
104 template<
typename Index,
int Mode,
typename LhsScalar,
bool ConjLhs,
typename RhsScalar,
bool ConjRhs,
int Version>
107 const RhsScalar* _rhs,
Index rhsIncr, ResScalar* _res,
Index resIncr,
const ResScalar&
alpha)
119 const RhsMap rhs(_rhs,cols);
128 for (
Index pi=0; pi<diagSize; pi+=PanelWidth)
130 Index actualPanelWidth = (
std::min)(PanelWidth, diagSize-pi);
131 for (
Index k=0; k<actualPanelWidth; ++k)
134 Index s = IsLower ? pi : ((HasUnitDiag||HasZeroDiag) ? i+1 : i);
135 Index r = IsLower ? k+1 : actualPanelWidth-k;
136 if ((!(HasUnitDiag||HasZeroDiag)) || (--r)>0)
137 res.coeffRef(i) += alpha * (cjLhs.
row(i).
segment(s,r).cwiseProduct(cjRhs.segment(s,r).transpose())).sum();
139 res.coeffRef(i) += alpha * cjRhs.coeff(i);
141 Index r = IsLower ? pi : cols - pi - actualPanelWidth;
144 Index s = IsLower ? 0 : pi + actualPanelWidth;
147 LhsMapper(&lhs.coeffRef(pi,s), lhsStride),
148 RhsMapper(&rhs.coeffRef(s), rhsIncr),
149 &res.coeffRef(pi), resIncr,
alpha);
152 if(IsLower && rows>diagSize)
156 LhsMapper(&lhs.coeffRef(diagSize,0), lhsStride),
157 RhsMapper(&rhs.coeffRef(0), rhsIncr),
158 &res.coeffRef(diagSize), resIncr,
alpha);
166 template<
int Mode,
int StorageOrder>
173 template<
int Mode,
typename Lhs,
typename Rhs>
178 eigen_assert(dst.rows()==lhs.rows() && dst.cols()==rhs.cols());
184 template<
int Mode,
typename Lhs,
typename Rhs>
189 eigen_assert(dst.rows()==lhs.rows() && dst.cols()==rhs.cols());
194 ::
run(rhs.transpose(),lhs.transpose(), dstT,
alpha);
206 template<
typename Lhs,
typename Rhs,
typename Dest>
215 typedef typename LhsBlasTraits::DirectLinearAccessType ActualLhsType;
217 typedef typename RhsBlasTraits::DirectLinearAccessType ActualRhsType;
224 LhsScalar lhs_alpha = LhsBlasTraits::extractScalarFactor(lhs);
225 RhsScalar rhs_alpha = RhsBlasTraits::extractScalarFactor(rhs);
226 ResScalar actualAlpha = alpha * lhs_alpha * rhs_alpha;
231 EvalToDestAtCompileTime = Dest::InnerStrideAtCompileTime==1,
233 MightCannotUseDest = (Dest::InnerStrideAtCompileTime!=1) || ComplexByReal
239 bool evalToDest = EvalToDestAtCompileTime && alphaIsCompatible;
244 evalToDest ? dest.data() : static_dest.data());
248 #ifdef EIGEN_DENSE_STORAGE_CTOR_PLUGIN 250 EIGEN_DENSE_STORAGE_CTOR_PLUGIN
252 if(!alphaIsCompatible)
254 MappedDest(actualDestPtr, dest.size()).
setZero();
255 compatibleAlpha = RhsScalar(1);
258 MappedDest(actualDestPtr, dest.size()) = dest;
263 LhsScalar, LhsBlasTraits::NeedToConjugate,
264 RhsScalar, RhsBlasTraits::NeedToConjugate,
266 ::run(actualLhs.rows(),actualLhs.cols(),
267 actualLhs.data(),actualLhs.outerStride(),
268 actualRhs.data(),actualRhs.innerStride(),
269 actualDestPtr,1,compatibleAlpha);
273 if(!alphaIsCompatible)
274 dest += actualAlpha * MappedDest(actualDestPtr, dest.size());
276 dest = MappedDest(actualDestPtr, dest.size());
279 if ( ((Mode&
UnitDiag)==UnitDiag) && (lhs_alpha!=LhsScalar(1)) )
281 Index diagSize = (
std::min)(lhs.rows(),lhs.cols());
282 dest.head(diagSize) -= (lhs_alpha-LhsScalar(1))*rhs.head(diagSize);
289 template<
typename Lhs,
typename Rhs,
typename Dest>
297 typedef typename LhsBlasTraits::DirectLinearAccessType ActualLhsType;
299 typedef typename RhsBlasTraits::DirectLinearAccessType ActualRhsType;
305 LhsScalar lhs_alpha = LhsBlasTraits::extractScalarFactor(lhs);
306 RhsScalar rhs_alpha = RhsBlasTraits::extractScalarFactor(rhs);
307 ResScalar actualAlpha = alpha * lhs_alpha * rhs_alpha;
310 DirectlyUseRhs = ActualRhsTypeCleaned::InnerStrideAtCompileTime==1
316 DirectlyUseRhs ?
const_cast<RhsScalar*
>(actualRhs.
data()) : static_rhs.data());
320 #ifdef EIGEN_DENSE_STORAGE_CTOR_PLUGIN 322 EIGEN_DENSE_STORAGE_CTOR_PLUGIN
329 LhsScalar, LhsBlasTraits::NeedToConjugate,
330 RhsScalar, RhsBlasTraits::NeedToConjugate,
335 dest.data(),dest.innerStride(),
338 if ( ((Mode&
UnitDiag)==UnitDiag) && (lhs_alpha!=LhsScalar(1)) )
340 Index diagSize = (
std::min)(lhs.rows(),lhs.cols());
341 dest.head(diagSize) -= (lhs_alpha-LhsScalar(1))*rhs.head(diagSize);
350 #endif // EIGEN_TRIANGULARMATRIXVECTOR_H
static void run(const Lhs &lhs, const Rhs &rhs, Dest &dest, const typename Dest::Scalar &alpha)
EIGEN_DEVICE_FUNC Index cols() const
EIGEN_DEVICE_FUNC SegmentReturnType segment(Index start, Index n)
const StorageIndex & row() const
A matrix or vector expression mapping an existing array of data.
Expression of the transpose of a matrix.
static EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE To run(const From &x)
Namespace containing all symbols from the Eigen library.
Holds information about the various numeric (i.e. scalar) types allowed by Eigen. ...
EIGEN_DEVICE_FUNC ScalarWithConstIfNotLvalue * data()
ScalarBinaryOpTraits< LhsScalar, RhsScalar >::ReturnType ResScalar
const unsigned int RowMajorBit
#define EIGEN_DONT_INLINE
cout<< "Here is the matrix m:"<< endl<< m<< endl;Matrix< ptrdiff_t, 3, 1 > res
const StorageIndex & col() const
EIGEN_DEVICE_FUNC Index outerStride() const
#define EIGEN_TUNE_TRIANGULAR_PANEL_WIDTH
Convenience specialization of Stride to specify only an inner stride See class Map for some examples...
EIGEN_DEFAULT_DENSE_INDEX_TYPE Index
The Index type as used for the API.
ScalarBinaryOpTraits< LhsScalar, RhsScalar >::ReturnType ResScalar
NumTraits< Scalar >::Real RealScalar
#define ei_declare_aligned_stack_constructed_variable(TYPE, NAME, SIZE, BUFFER)
EIGEN_DEVICE_FUNC Index rows() const
#define EIGEN_PLAIN_ENUM_MIN(a, b)
EIGEN_DEVICE_FUNC const ImagReturnType imag() const
static void run(Dest &dst, const Lhs &lhs, const Rhs &rhs, const typename Dest::Scalar &alpha)
Determines whether the given binary operation of two numeric types is allowed and what the scalar ret...
Expression of a diagonal/subdiagonal/superdiagonal in a matrix.
static void run(const Lhs &lhs, const Rhs &rhs, Dest &dest, const typename Dest::Scalar &alpha)
Convenience specialization of Stride to specify only an outer stride See class Map for some examples...
void run(Expr &expr, Dev &dev)
static void run(Dest &dst, const Lhs &lhs, const Rhs &rhs, const typename Dest::Scalar &alpha)