From 523cdedf58a95c02c73ede59fe9d22c5799a9df5 Mon Sep 17 00:00:00 2001 From: Benoit Jacob Date: Mon, 3 Aug 2009 17:20:45 +0200 Subject: make the dot product linear in the second variable, not the first variable --- Eigen/src/Core/Dot.h | 8 ++++---- Eigen/src/Geometry/Hyperplane.h | 12 ++++++------ Eigen/src/Geometry/ParametrizedLine.h | 10 +++++----- Eigen/src/Geometry/Quaternion.h | 2 +- Eigen/src/QR/Tridiagonalization.h | 2 +- Eigen/src/SVD/SVD.h | 8 ++++---- Eigen/src/Sparse/SparseDot.h | 4 ++-- 7 files changed, 23 insertions(+), 23 deletions(-) (limited to 'Eigen/src') diff --git a/Eigen/src/Core/Dot.h b/Eigen/src/Core/Dot.h index 9e84d72bb..631124f2b 100644 --- a/Eigen/src/Core/Dot.h +++ b/Eigen/src/Core/Dot.h @@ -86,7 +86,7 @@ struct ei_dot_novec_unroller inline static Scalar run(const Derived1& v1, const Derived2& v2) { - return v1.coeff(Start) * ei_conj(v2.coeff(Start)); + return ei_conj(v1.coeff(Start)) * v2.coeff(Start); } }; @@ -155,9 +155,9 @@ struct ei_dot_impl { ei_assert(v1.size()>0 && "you are using a non initialized vector"); Scalar res; - res = v1.coeff(0) * ei_conj(v2.coeff(0)); + res = ei_conj(v1.coeff(0)) * v2.coeff(0); for(int i = 1; i < v1.size(); ++i) - res += v1.coeff(i) * ei_conj(v2.coeff(i)); + res += ei_conj(v1.coeff(i)) * v2.coeff(i); return res; } }; @@ -248,7 +248,7 @@ struct ei_dot_impl * \only_for_vectors * * \note If the scalar type is complex numbers, then this function returns the hermitian - * (sesquilinear) dot product, linear in the first variable and conjugate-linear in the + * (sesquilinear) dot product, conjugate-linear in the first variable and linear in the * second variable. * * \sa squaredNorm(), norm() diff --git a/Eigen/src/Geometry/Hyperplane.h b/Eigen/src/Geometry/Hyperplane.h index 6fd9cee7e..ab65ca2ae 100644 --- a/Eigen/src/Geometry/Hyperplane.h +++ b/Eigen/src/Geometry/Hyperplane.h @@ -71,7 +71,7 @@ public: : m_coeffs(n.size()+1) { normal() = n; - offset() = -e.dot(n); + offset() = -n.dot(e); } /** Constructs a plane from its normal \a n and distance to the origin \a d @@ -92,7 +92,7 @@ public: { Hyperplane result(p0.size()); result.normal() = (p1 - p0).unitOrthogonal(); - result.offset() = -result.normal().dot(p0); + result.offset() = -p0.dot(result.normal()); return result; } @@ -104,7 +104,7 @@ public: EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(VectorType, 3) Hyperplane result(p0.size()); result.normal() = (p2 - p0).cross(p1 - p0).normalized(); - result.offset() = -result.normal().dot(p0); + result.offset() = -p0.dot(result.normal()); return result; } @@ -116,7 +116,7 @@ public: explicit Hyperplane(const ParametrizedLine& parametrized) { normal() = parametrized.direction().unitOrthogonal(); - offset() = -normal().dot(parametrized.origin()); + offset() = -parametrized.origin().dot(normal()); } ~Hyperplane() {} @@ -133,7 +133,7 @@ public: /** \returns the signed distance between the plane \c *this and a point \a p. * \sa absDistance() */ - inline Scalar signedDistance(const VectorType& p) const { return p.dot(normal()) + offset(); } + inline Scalar signedDistance(const VectorType& p) const { return normal().dot(p) + offset(); } /** \returns the absolute distance between the plane \c *this and a point \a p. * \sa signedDistance() @@ -231,7 +231,7 @@ public: TransformTraits traits = Affine) { transform(t.linear(), traits); - offset() -= t.translation().dot(normal()); + offset() -= normal().dot(t.translation()); return *this; } diff --git a/Eigen/src/Geometry/ParametrizedLine.h b/Eigen/src/Geometry/ParametrizedLine.h index 177eadfbb..6a4fcb1c5 100644 --- a/Eigen/src/Geometry/ParametrizedLine.h +++ b/Eigen/src/Geometry/ParametrizedLine.h @@ -84,8 +84,8 @@ public: */ RealScalar squaredDistance(const VectorType& p) const { - VectorType diff = p-origin(); - return (diff - diff.dot(direction())* direction()).squaredNorm(); + VectorType diff = p - origin(); + return (diff - direction().dot(diff) * direction()).squaredNorm(); } /** \returns the distance of a point \a p to its projection onto the line \c *this. * \sa squaredDistance() @@ -94,7 +94,7 @@ public: /** \returns the projection of a point \a p onto the line \c *this. */ VectorType projection(const VectorType& p) const - { return origin() + (p-origin()).dot(direction()) * direction(); } + { return origin() + direction().dot(p-origin()) * direction(); } Scalar intersection(const Hyperplane<_Scalar, _AmbientDim>& hyperplane); @@ -148,8 +148,8 @@ inline ParametrizedLine<_Scalar, _AmbientDim>::ParametrizedLine(const Hyperplane template inline _Scalar ParametrizedLine<_Scalar, _AmbientDim>::intersection(const Hyperplane<_Scalar, _AmbientDim>& hyperplane) { - return -(hyperplane.offset()+origin().dot(hyperplane.normal())) - /(direction().dot(hyperplane.normal())); + return -(hyperplane.offset()+hyperplane.normal().dot(origin())) + / hyperplane.normal().dot(direction()); } #endif // EIGEN_PARAMETRIZEDLINE_H diff --git a/Eigen/src/Geometry/Quaternion.h b/Eigen/src/Geometry/Quaternion.h index 9385f259d..2f9f97807 100644 --- a/Eigen/src/Geometry/Quaternion.h +++ b/Eigen/src/Geometry/Quaternion.h @@ -358,7 +358,7 @@ inline Quaternion& Quaternion::setFromTwoVectors(const MatrixBas { Vector3 v0 = a.normalized(); Vector3 v1 = b.normalized(); - Scalar c = v0.dot(v1); + Scalar c = v1.dot(v0); // if dot == -1, vectors are nearly opposites // => accuraletly compute the rotation axis by computing the diff --git a/Eigen/src/QR/Tridiagonalization.h b/Eigen/src/QR/Tridiagonalization.h index e6f594237..d98322fac 100644 --- a/Eigen/src/QR/Tridiagonalization.h +++ b/Eigen/src/QR/Tridiagonalization.h @@ -229,7 +229,7 @@ void Tridiagonalization::_compute(MatrixType& matA, CoeffVectorType& hCoeffs.end(n-i-1) = (matA.corner(BottomRight,n-i-1,n-i-1).template selfadjointView() * (h * matA.col(i).end(n-i-1))); - hCoeffs.end(n-i-1) += (h*Scalar(-0.5)*(matA.col(i).end(n-i-1).dot(hCoeffs.end(n-i-1)))) * matA.col(i).end(n-i-1); + hCoeffs.end(n-i-1) += (h*Scalar(-0.5)*(hCoeffs.end(n-i-1).dot(matA.col(i).end(n-i-1)))) * matA.col(i).end(n-i-1); matA.corner(BottomRight, n-i-1, n-i-1).template selfadjointView() .rankUpdate(matA.col(i).end(n-i-1), hCoeffs.end(n-i-1), -1); diff --git a/Eigen/src/SVD/SVD.h b/Eigen/src/SVD/SVD.h index b68d1c834..9b7d955c7 100644 --- a/Eigen/src/SVD/SVD.h +++ b/Eigen/src/SVD/SVD.h @@ -187,7 +187,7 @@ void SVD::compute(const MatrixType& matrix) A(i, i)=f-g; for (j=l-1; j::compute(const MatrixType& matrix) rv1.end(n-l+1) = A.row(i).end(n-l+1)/h; for (j=l-1; j::compute(const MatrixType& matrix) V(j, i) = (A(i, j)/A(i, l))/g; for (j=l; j::compute(const MatrixType& matrix) { for (j=l; j::dot(const MatrixBase& other) const Scalar res = 0; while (i) { - res += i.value() * ei_conj(other.coeff(i.index())); + res += ei_conj(i.value()) * other.coeff(i.index()); ++i; } return res; @@ -69,7 +69,7 @@ SparseMatrixBase::dot(const SparseMatrixBase& other) cons { if (i.index()==j.index()) { - res += i.value() * ei_conj(j.value()); + res += ei_conj(i.value()) * j.value(); ++i; ++j; } else if (i.index() Date: Tue, 4 Aug 2009 00:27:58 +0200 Subject: use explicit Block/VectorBlock xprs to make sure that compile-time known sizes are used --- Eigen/src/Householder/Householder.h | 19 ++++++++----------- 1 file changed, 8 insertions(+), 11 deletions(-) (limited to 'Eigen/src') diff --git a/Eigen/src/Householder/Householder.h b/Eigen/src/Householder/Householder.h index b5571f40d..8972806de 100644 --- a/Eigen/src/Householder/Householder.h +++ b/Eigen/src/Householder/Householder.h @@ -50,7 +50,8 @@ void MatrixBase::makeHouseholder( Scalar sign = coeff(0) / ei_abs(coeff(0)); c0 = coeff(0) + sign * ei_sqrt(_squaredNorm); } - *essential = end(size()-1) / c0; // FIXME take advantage of fixed size + VectorBlock tail(derived(), 1, size()-1); + *essential = tail / c0; const RealScalar c0abs2 = ei_abs2(c0); *beta = RealScalar(2) * c0abs2 / (c0abs2 + _squaredNorm - ei_abs2(coeff(0))); } @@ -62,12 +63,10 @@ void MatrixBase::applyHouseholderOnTheLeft( const RealScalar& beta) { Matrix tmp(cols()); - tmp = row(0) + essential.adjoint() * block(1,0,rows()-1,cols()); - // FIXME take advantage of fixed size - // FIXME play with lazy() - // FIXME maybe not a good idea to use matrix product + Block bottom(derived(), 1, 0, rows()-1, cols()); + tmp = row(0) + essential.adjoint() * bottom; row(0) -= beta * tmp; - block(1,0,rows()-1,cols()) -= beta * essential * tmp; + bottom -= beta * essential * tmp; } template @@ -77,12 +76,10 @@ void MatrixBase::applyHouseholderOnTheRight( const RealScalar& beta) { Matrix tmp(rows()); - tmp = col(0) + block(0,1,rows(),cols()-1) * essential.conjugate(); - // FIXME take advantage of fixed size - // FIXME play with lazy() - // FIXME maybe not a good idea to use matrix product + Block right(derived(), 0, 1, rows(), cols()-1); + tmp = col(0) + right * essential.conjugate(); col(0) -= beta * tmp; - block(0,1,rows(),cols()-1) -= beta * tmp * essential.transpose(); + right -= beta * tmp * essential.transpose(); } #endif // EIGEN_HOUSEHOLDER_H -- cgit v1.2.3