Mercurial > octave-nkf
view libcruft/qrupdate/sqrinc.f @ 7789:82be108cc558
First attempt at single precision tyeps
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corrections to qrupdate single precision routines
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prefer demotion to single over promotion to double
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Add single precision support to log2 function
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Trivial PROJECT file update
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Cache optimized hermitian/transpose methods
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Add tests for tranpose/hermitian and ChangeLog entry for new transpose code
author | David Bateman <dbateman@free.fr> |
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date | Sun, 27 Apr 2008 22:34:17 +0200 |
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c Copyright (C) 2008 VZLU Prague, a.s., Czech Republic c c Author: Jaroslav Hajek <highegg@gmail.com> c c This source is free software; you can redistribute it and/or modify c it under the terms of the GNU General Public License as published by c the Free Software Foundation; either version 2 of the License, or c (at your option) any later version. c c This program is distributed in the hope that it will be useful, c but WITHOUT ANY WARRANTY; without even the implied warranty of c MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the c GNU General Public License for more details. c c You should have received a copy of the GNU General Public License c along with this software; see the file COPYING. If not, see c <http://www.gnu.org/licenses/>. c subroutine sqrinc(m,n,k,Q,R,R1,j,x) c purpose: updates a QR factorization after inserting a new c column. c i.e., given an m-by-k orthogonal matrix Q, an m-by-n c upper trapezoidal matrix R and index j in the range c 1:n+1, this subroutine updates the matrix Q -> Q1 and c forms an m-by-(n+1) matrix R1 so that Q1 is again c orthogonal, R1 upper trapezoidal, and c Q1*R1 = [A(:,1:j-1); Q*Q'*x; A(:,j:n-1)], where A = Q*R. c (real version) c arguments: c m (in) number of rows of the matrix Q. c n (in) number of columns of the matrix R. c k (in) number of columns of Q, and rows of R. k <= m. c Q (io) on entry, the orthogonal matrix Q. c on exit, the updated matrix Q1 c R (in) the original upper trapezoidal matrix R c R1 (out) the updated matrix R1 c j (in) the position of the new column in R1 c x (in) the column being inserted c integer m,n,k,j real Q(m,k),R(k,n),R1(k,n+1),x(m) real w external xerbla,scopy,sqrqhv,sgemv integer info,i,jj c quick return if possible if (m <= 0) return c check arguments info = 0 if (n < 0) then info = 2 else if (j < 1 .or. j > n+1) then info = 6 end if if (info /= 0) then call xerbla('SQRINC',info) end if c copy leading portion of R call scopy(k*(j-1),R,1,R1,1) if (j <= n) then call scopy(k*(n+1-j),R(1,j),1,R1(1,j+1),1) end if call sgemv('T',m,min(k,j-1),1e0,Q,m,x,1,0e0,R1(1,j),1) if (j < k) then c eliminate tail, updating Q(:,j:k) and R1(j:k,j+1:n+1) jj = min(j,n)+1 call sqrqhv(m,n+1-j,k-j+1,Q(1,j),m,R1(j,jj),m,x,w) c assemble inserted column R1(j,j) = w do i = j+1,k R1(i,j) = 0e0 end do end if end