From 407b6208604d2822b1067ac64949e78a9167572b Mon Sep 17 00:00:00 2001 From: Stanislaw Halik Date: Mon, 12 Nov 2018 06:42:35 +0100 Subject: eigen update --- eigen/Eigen/src/SVD/BDCSVD.h | 33 ++++++++++++++++++++++++--------- 1 file changed, 24 insertions(+), 9 deletions(-) (limited to 'eigen/Eigen/src/SVD/BDCSVD.h') diff --git a/eigen/Eigen/src/SVD/BDCSVD.h b/eigen/Eigen/src/SVD/BDCSVD.h index d7a4271..1134d66 100644 --- a/eigen/Eigen/src/SVD/BDCSVD.h +++ b/eigen/Eigen/src/SVD/BDCSVD.h @@ -11,7 +11,7 @@ // Copyright (C) 2013 Jean Ceccato // Copyright (C) 2013 Pierre Zoppitelli // Copyright (C) 2013 Jitse Niesen -// Copyright (C) 2014-2016 Gael Guennebaud +// Copyright (C) 2014-2017 Gael Guennebaud // // Source Code Form is subject to the terms of the Mozilla // Public License v. 2.0. If a copy of the MPL was not distributed @@ -696,7 +696,9 @@ typename BDCSVD::RealScalar BDCSVD::secularEq(RealScalar for(Index i=0; i::computeSingVals(const ArrayRef& col0, const ArrayRef& d { using std::abs; using std::swap; + using std::sqrt; Index n = col0.size(); Index actual_n = n; + // Note that here actual_n is computed based on col0(i)==0 instead of diag(i)==0 as above + // because 1) we have diag(i)==0 => col0(i)==0 and 2) if col0(i)==0, then diag(i) is already a singular value. while(actual_n>1 && col0(actual_n-1)==Literal(0)) --actual_n; for (Index k = 0; k < n; ++k) @@ -732,7 +737,9 @@ void BDCSVD::computeSingVals(const ArrayRef& col0, const ArrayRef& d right = (diag(actual_n-1) + col0.matrix().norm()); else { - // Skip deflated singular values + // Skip deflated singular values, + // recall that at this stage we assume that z[j]!=0 and all entries for which z[j]==0 have been put aside. + // This should be equivalent to using perm[] Index l = k+1; while(col0(l)==Literal(0)) { ++l; eigen_internal_assert(l::computeSingVals(const ArrayRef& col0, const ArrayRef& d RealScalar leftShifted, rightShifted; if (shift == left) { - leftShifted = (std::numeric_limits::min)(); + // to avoid overflow, we must have mu > max(real_min, |z(k)|/sqrt(real_max)), + // the factor 2 is to be more conservative + leftShifted = numext::maxi( (std::numeric_limits::min)(), Literal(2) * abs(col0(k)) / sqrt((std::numeric_limits::max)()) ); + + // check that we did it right: + eigen_internal_assert( (numext::isfinite)( (col0(k)/leftShifted)*(col0(k)/(diag(k)+shift+leftShifted)) ) ); // I don't understand why the case k==0 would be special there: - // if (k == 0) rightShifted = right - left; else - rightShifted = (k==actual_n-1) ? right : ((right - left) * RealScalar(0.6)); // theoretically we can take 0.5, but let's be safe + // if (k == 0) rightShifted = right - left; else + rightShifted = (k==actual_n-1) ? right : ((right - left) * RealScalar(0.51)); // theoretically we can take 0.5, but let's be safe } else { - leftShifted = -(right - left) * RealScalar(0.6); - rightShifted = -(std::numeric_limits::min)(); + leftShifted = -(right - left) * RealScalar(0.51); + if(k+1( (std::numeric_limits::min)(), abs(col0(k+1)) / sqrt((std::numeric_limits::max)()) ); + else + rightShifted = -(std::numeric_limits::min)(); } RealScalar fLeft = secularEq(leftShifted, col0, diag, perm, diagShifted, shift); @@ -980,7 +995,7 @@ void BDCSVD::deflation43(Index firstCol, Index shift, Index i, Index Index start = firstCol + shift; RealScalar c = m_computed(start, start); RealScalar s = m_computed(start+i, start); - RealScalar r = sqrt(numext::abs2(c) + numext::abs2(s)); + RealScalar r = numext::hypot(c,s); if (r == Literal(0)) { m_computed(start+i, start+i) = Literal(0); -- cgit v1.2.3