// Copyright ©2015 The Gonum Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package gonum import ( "math" "gonum.org/v1/gonum/blas" "gonum.org/v1/gonum/blas/blas64" ) // Dpocon estimates the reciprocal of the condition number of a positive-definite // matrix A given the Cholesky decomposition of A. The condition number computed // is based on the 1-norm and the ∞-norm. // // anorm is the 1-norm and the ∞-norm of the original matrix A. // // work is a temporary data slice of length at least 3*n and Dpocon will panic otherwise. // // iwork is a temporary data slice of length at least n and Dpocon will panic otherwise. func (impl Implementation) Dpocon(uplo blas.Uplo, n int, a []float64, lda int, anorm float64, work []float64, iwork []int) float64 { switch { case uplo != blas.Upper && uplo != blas.Lower: panic(badUplo) case n < 0: panic(nLT0) case lda < max(1, n): panic(badLdA) case anorm < 0: panic(negANorm) } // Quick return if possible. if n == 0 { return 1 } switch { case len(a) < (n-1)*lda+n: panic(shortA) case len(work) < 3*n: panic(shortWork) case len(iwork) < n: panic(shortIWork) } if anorm == 0 { return 0 } bi := blas64.Implementation() var ( smlnum = dlamchS rcond float64 sl, su float64 normin bool ainvnm float64 kase int isave [3]int ) for { ainvnm, kase = impl.Dlacn2(n, work[n:], work, iwork, ainvnm, kase, &isave) if kase == 0 { if ainvnm != 0 { rcond = (1 / ainvnm) / anorm } return rcond } if uplo == blas.Upper { sl = impl.Dlatrs(blas.Upper, blas.Trans, blas.NonUnit, normin, n, a, lda, work, work[2*n:]) normin = true su = impl.Dlatrs(blas.Upper, blas.NoTrans, blas.NonUnit, normin, n, a, lda, work, work[2*n:]) } else { sl = impl.Dlatrs(blas.Lower, blas.NoTrans, blas.NonUnit, normin, n, a, lda, work, work[2*n:]) normin = true su = impl.Dlatrs(blas.Lower, blas.Trans, blas.NonUnit, normin, n, a, lda, work, work[2*n:]) } scale := sl * su if scale != 1 { ix := bi.Idamax(n, work, 1) if scale == 0 || scale < math.Abs(work[ix])*smlnum { return rcond } impl.Drscl(n, scale, work, 1) } } }