Mercurial > octave
view liboctave/numeric/lu.cc @ 31607:aac27ad79be6 stable
maint: Re-indent code after switch to using namespace macros.
* build-env.h, build-env.in.cc, Cell.h, __betainc__.cc, __eigs__.cc,
__ftp__.cc, __ichol__.cc, __ilu__.cc, __isprimelarge__.cc, __magick_read__.cc,
__pchip_deriv__.cc, amd.cc, base-text-renderer.cc, base-text-renderer.h,
besselj.cc, bitfcns.cc, bsxfun.cc, c-file-ptr-stream.h, call-stack.cc,
call-stack.h, ccolamd.cc, cellfun.cc, chol.cc, colamd.cc, dasrt.cc, data.cc,
debug.cc, defaults.cc, defaults.h, det.cc, display.cc, display.h, dlmread.cc,
dynamic-ld.cc, dynamic-ld.h, ellipj.cc, environment.cc, environment.h,
error.cc, error.h, errwarn.h, event-manager.cc, event-manager.h,
event-queue.cc, event-queue.h, fcn-info.cc, fcn-info.h, fft.cc, fft2.cc,
file-io.cc, filter.cc, find.cc, ft-text-renderer.cc, ft-text-renderer.h,
gcd.cc, gl-render.cc, gl-render.h, gl2ps-print.cc, gl2ps-print.h,
graphics-toolkit.cc, graphics-toolkit.h, graphics.cc, gsvd.cc, gtk-manager.cc,
gtk-manager.h, help.cc, help.h, hook-fcn.cc, hook-fcn.h, input.cc, input.h,
interpreter-private.cc, interpreter-private.h, interpreter.cc, interpreter.h,
inv.cc, jsondecode.cc, jsonencode.cc, latex-text-renderer.cc,
latex-text-renderer.h, load-path.cc, load-path.h, load-save.cc, load-save.h,
lookup.cc, ls-hdf5.cc, ls-mat4.cc, ls-mat5.cc, lsode.cc, lu.cc, mappers.cc,
matrix_type.cc, max.cc, mex.cc, mexproto.h, mxarray.h, mxtypes.in.h,
oct-errno.in.cc, oct-hdf5-types.cc, oct-hist.cc, oct-hist.h, oct-map.cc,
oct-map.h, oct-opengl.h, oct-prcstrm.h, oct-process.cc, oct-process.h,
oct-stdstrm.h, oct-stream.cc, oct-stream.h, oct-strstrm.h,
octave-default-image.h, ordqz.cc, ordschur.cc, pager.cc, pager.h, pinv.cc,
pow2.cc, pr-output.cc, psi.cc, qr.cc, quadcc.cc, rand.cc, regexp.cc,
settings.cc, settings.h, sighandlers.cc, sighandlers.h, sparse-xpow.cc,
sqrtm.cc, stack-frame.cc, stack-frame.h, stream-euler.cc, strfns.cc, svd.cc,
syminfo.cc, syminfo.h, symrcm.cc, symrec.cc, symrec.h, symscope.cc, symscope.h,
symtab.cc, symtab.h, sysdep.cc, sysdep.h, text-engine.cc, text-engine.h,
text-renderer.cc, text-renderer.h, time.cc, toplev.cc, typecast.cc,
url-handle-manager.cc, url-handle-manager.h, urlwrite.cc, utils.cc, utils.h,
variables.cc, variables.h, xdiv.cc, __delaunayn__.cc, __init_fltk__.cc,
__init_gnuplot__.cc, __ode15__.cc, __voronoi__.cc, audioread.cc, convhulln.cc,
gzip.cc, cdef-class.cc, cdef-class.h, cdef-fwd.h, cdef-manager.cc,
cdef-manager.h, cdef-method.cc, cdef-method.h, cdef-object.cc, cdef-object.h,
cdef-package.cc, cdef-package.h, cdef-property.cc, cdef-property.h,
cdef-utils.cc, cdef-utils.h, ov-base-diag.cc, ov-base-int.cc, ov-base-mat.cc,
ov-base-mat.h, ov-base-scalar.cc, ov-base.cc, ov-base.h, ov-bool-mat.cc,
ov-bool-mat.h, ov-bool-sparse.cc, ov-bool.cc, ov-builtin.h, ov-cell.cc,
ov-ch-mat.cc, ov-class.cc, ov-class.h, ov-classdef.cc, ov-classdef.h,
ov-complex.cc, ov-cx-diag.cc, ov-cx-mat.cc, ov-cx-sparse.cc, ov-dld-fcn.cc,
ov-dld-fcn.h, ov-fcn-handle.cc, ov-fcn-handle.h, ov-fcn.h, ov-float.cc,
ov-flt-complex.cc, ov-flt-cx-diag.cc, ov-flt-cx-mat.cc, ov-flt-re-diag.cc,
ov-flt-re-mat.cc, ov-flt-re-mat.h, ov-intx.h, ov-java.cc, ov-lazy-idx.cc,
ov-legacy-range.cc, ov-magic-int.cc, ov-mex-fcn.cc, ov-mex-fcn.h,
ov-null-mat.cc, ov-perm.cc, ov-range.cc, ov-re-diag.cc, ov-re-mat.cc,
ov-re-mat.h, ov-re-sparse.cc, ov-scalar.cc, ov-str-mat.cc, ov-struct.cc,
ov-typeinfo.cc, ov-typeinfo.h, ov-usr-fcn.cc, ov-usr-fcn.h, ov.cc, ov.h, ovl.h,
octave.cc, octave.h, op-b-sbm.cc, op-bm-sbm.cc, op-cs-scm.cc, op-fm-fcm.cc,
op-fs-fcm.cc, op-s-scm.cc, op-scm-cs.cc, op-scm-s.cc, op-sm-cs.cc, ops.h,
anon-fcn-validator.cc, anon-fcn-validator.h, bp-table.cc, bp-table.h,
comment-list.cc, comment-list.h, filepos.h, lex.h, oct-lvalue.cc, oct-lvalue.h,
parse.h, profiler.cc, profiler.h, pt-anon-scopes.cc, pt-anon-scopes.h,
pt-arg-list.cc, pt-arg-list.h, pt-args-block.cc, pt-args-block.h,
pt-array-list.cc, pt-array-list.h, pt-assign.cc, pt-assign.h, pt-binop.cc,
pt-binop.h, pt-bp.cc, pt-bp.h, pt-cbinop.cc, pt-cbinop.h, pt-cell.cc,
pt-cell.h, pt-check.cc, pt-check.h, pt-classdef.cc, pt-classdef.h, pt-cmd.h,
pt-colon.cc, pt-colon.h, pt-const.cc, pt-const.h, pt-decl.cc, pt-decl.h,
pt-eval.cc, pt-eval.h, pt-except.cc, pt-except.h, pt-exp.cc, pt-exp.h,
pt-fcn-handle.cc, pt-fcn-handle.h, pt-id.cc, pt-id.h, pt-idx.cc, pt-idx.h,
pt-jump.h, pt-loop.cc, pt-loop.h, pt-mat.cc, pt-mat.h, pt-misc.cc, pt-misc.h,
pt-pr-code.cc, pt-pr-code.h, pt-select.cc, pt-select.h, pt-spmd.cc, pt-spmd.h,
pt-stmt.cc, pt-stmt.h, pt-tm-const.cc, pt-tm-const.h, pt-unop.cc, pt-unop.h,
pt-walk.cc, pt-walk.h, pt.cc, pt.h, token.cc, token.h, Range.cc, Range.h,
idx-vector.cc, idx-vector.h, range-fwd.h, CollocWt.cc, CollocWt.h,
aepbalance.cc, aepbalance.h, chol.cc, chol.h, gepbalance.cc, gepbalance.h,
gsvd.cc, gsvd.h, hess.cc, hess.h, lo-mappers.cc, lo-mappers.h, lo-specfun.cc,
lo-specfun.h, lu.cc, lu.h, oct-convn.cc, oct-convn.h, oct-fftw.cc, oct-fftw.h,
oct-norm.cc, oct-norm.h, oct-rand.cc, oct-rand.h, oct-spparms.cc,
oct-spparms.h, qr.cc, qr.h, qrp.cc, qrp.h, randgamma.cc, randgamma.h,
randmtzig.cc, randmtzig.h, randpoisson.cc, randpoisson.h, schur.cc, schur.h,
sparse-chol.cc, sparse-chol.h, sparse-lu.cc, sparse-lu.h, sparse-qr.cc,
sparse-qr.h, svd.cc, svd.h, child-list.cc, child-list.h, dir-ops.cc, dir-ops.h,
file-ops.cc, file-ops.h, file-stat.cc, file-stat.h, lo-sysdep.cc, lo-sysdep.h,
lo-sysinfo.cc, lo-sysinfo.h, mach-info.cc, mach-info.h, oct-env.cc, oct-env.h,
oct-group.cc, oct-group.h, oct-password.cc, oct-password.h, oct-syscalls.cc,
oct-syscalls.h, oct-time.cc, oct-time.h, oct-uname.cc, oct-uname.h,
action-container.cc, action-container.h, base-list.h, cmd-edit.cc, cmd-edit.h,
cmd-hist.cc, cmd-hist.h, f77-fcn.h, file-info.cc, file-info.h,
lo-array-errwarn.cc, lo-array-errwarn.h, lo-hash.cc, lo-hash.h, lo-ieee.h,
lo-regexp.cc, lo-regexp.h, lo-utils.cc, lo-utils.h, oct-base64.cc,
oct-base64.h, oct-glob.cc, oct-glob.h, oct-inttypes.h, oct-mutex.cc,
oct-mutex.h, oct-refcount.h, oct-shlib.cc, oct-shlib.h, oct-sparse.cc,
oct-sparse.h, oct-string.h, octave-preserve-stream-state.h, pathsearch.cc,
pathsearch.h, quit.cc, quit.h, unwind-prot.cc, unwind-prot.h, url-transfer.cc,
url-transfer.h:
Re-indent code after switch to using namespace macros.
| author | Rik <rik@octave.org> |
|---|---|
| date | Thu, 01 Dec 2022 18:02:15 -0800 |
| parents | e88a07dec498 |
| children | 597f3ee61a48 |
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//////////////////////////////////////////////////////////////////////// // // Copyright (C) 1996-2022 The Octave Project Developers // // See the file COPYRIGHT.md in the top-level directory of this // distribution or <https://octave.org/copyright/>. // // This file is part of Octave. // // Octave is free software: you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // Octave is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Octave; see the file COPYING. If not, see // <https://www.gnu.org/licenses/>. // //////////////////////////////////////////////////////////////////////// #if defined (HAVE_CONFIG_H) # include "config.h" #endif #include <algorithm> #include "CColVector.h" #include "CMatrix.h" #include "PermMatrix.h" #include "dColVector.h" #include "dMatrix.h" #include "fCColVector.h" #include "fCMatrix.h" #include "fColVector.h" #include "fMatrix.h" #include "lo-error.h" #include "lo-lapack-proto.h" #include "lo-qrupdate-proto.h" #include "lu.h" #include "oct-locbuf.h" OCTAVE_BEGIN_NAMESPACE(octave) OCTAVE_BEGIN_NAMESPACE(math) // FIXME: PermMatrix::col_perm_vec returns Array<octave_idx_type> // but m_ipvt is an Array<octave_f77_int_type>. This could cause // trouble for large arrays if octave_f77_int_type is 32-bits but // octave_idx_type is 64. Since this constructor is called from // Fluupdate, it could be given values that are out of range. We // should ensure that the values are within range here. template <typename T> lu<T>::lu (const T& l, const T& u, const PermMatrix& p) : m_a_fact (u), m_L (l), m_ipvt (p.transpose ().col_perm_vec ()) { if (l.columns () != u.rows ()) (*current_liboctave_error_handler) ("lu: dimension mismatch"); } template <typename T> bool lu<T>::packed (void) const { return m_L.dims () == dim_vector (); } template <typename T> void lu<T>::unpack (void) { if (packed ()) { m_L = L (); m_a_fact = U (); // FIXME: sub-optimal // FIXME: getp returns Array<octave_idx_type> but m_ipvt is // Array<octave_f77_int_type>. However, getp produces its // result from a valid m_ipvt array so validation should not be // necessary. OTOH, it might be better to have a version of // getp that doesn't cause us to convert from // Array<octave_f77_int_type> to Array<octave_idx_type> and // back again. m_ipvt = getp (); } } template <typename T> T lu<T>::L (void) const { if (packed ()) { octave_idx_type a_nr = m_a_fact.rows (); octave_idx_type a_nc = m_a_fact.columns (); octave_idx_type mn = (a_nr < a_nc ? a_nr : a_nc); T l (a_nr, mn, ELT_T (0.0)); for (octave_idx_type i = 0; i < a_nr; i++) { if (i < a_nc) l.xelem (i, i) = 1.0; for (octave_idx_type j = 0; j < (i < a_nc ? i : a_nc); j++) l.xelem (i, j) = m_a_fact.xelem (i, j); } return l; } else return m_L; } template <typename T> T lu<T>::U (void) const { if (packed ()) { octave_idx_type a_nr = m_a_fact.rows (); octave_idx_type a_nc = m_a_fact.columns (); octave_idx_type mn = (a_nr < a_nc ? a_nr : a_nc); T u (mn, a_nc, ELT_T (0.0)); for (octave_idx_type i = 0; i < mn; i++) { for (octave_idx_type j = i; j < a_nc; j++) u.xelem (i, j) = m_a_fact.xelem (i, j); } return u; } else return m_a_fact; } template <typename T> T lu<T>::Y (void) const { if (! packed ()) (*current_liboctave_error_handler) ("lu: Y () not implemented for unpacked form"); return m_a_fact; } template <typename T> Array<octave_idx_type> lu<T>::getp (void) const { if (packed ()) { octave_idx_type a_nr = m_a_fact.rows (); Array<octave_idx_type> pvt (dim_vector (a_nr, 1)); for (octave_idx_type i = 0; i < a_nr; i++) pvt.xelem (i) = i; for (octave_idx_type i = 0; i < m_ipvt.numel (); i++) { octave_idx_type k = m_ipvt.xelem (i); if (k != i) { octave_idx_type tmp = pvt.xelem (k); pvt.xelem (k) = pvt.xelem (i); pvt.xelem (i) = tmp; } } return pvt; } else return m_ipvt; } template <typename T> PermMatrix lu<T>::P (void) const { return PermMatrix (getp (), false); } template <typename T> ColumnVector lu<T>::P_vec (void) const { octave_idx_type a_nr = m_a_fact.rows (); ColumnVector p (a_nr); Array<octave_idx_type> pvt = getp (); for (octave_idx_type i = 0; i < a_nr; i++) p.xelem (i) = static_cast<double> (pvt.xelem (i) + 1); return p; } template <typename T> bool lu<T>::regular (void) const { bool retval = true; octave_idx_type k = std::min (m_a_fact.rows (), m_a_fact.columns ()); for (octave_idx_type i = 0; i < k; i++) { if (m_a_fact(i, i) == ELT_T ()) { retval = false; break; } } return retval; } #if ! defined (HAVE_QRUPDATE_LUU) template <typename T> void lu<T>::update (const VT&, const VT&) { (*current_liboctave_error_handler) ("luupdate: support for qrupdate with LU updates " "was unavailable or disabled when liboctave was built"); } template <typename T> void lu<T>::update (const T&, const T&) { (*current_liboctave_error_handler) ("luupdate: support for qrupdate with LU updates " "was unavailable or disabled when liboctave was built"); } template <typename T> void lu<T>::update_piv (const VT&, const VT&) { (*current_liboctave_error_handler) ("luupdate: support for qrupdate with LU updates " "was unavailable or disabled when liboctave was built"); } template <typename T> void lu<T>::update_piv (const T&, const T&) { (*current_liboctave_error_handler) ("luupdate: support for qrupdate with LU updates " "was unavailable or disabled when liboctave was built"); } #endif // Specializations. template <> OCTAVE_API lu<Matrix>::lu (const Matrix& a) { F77_INT a_nr = to_f77_int (a.rows ()); F77_INT a_nc = to_f77_int (a.columns ()); F77_INT mn = (a_nr < a_nc ? a_nr : a_nc); m_ipvt.resize (dim_vector (mn, 1)); F77_INT *pipvt = m_ipvt.fortran_vec (); m_a_fact = a; double *tmp_data = m_a_fact.fortran_vec (); F77_INT info = 0; F77_XFCN (dgetrf, DGETRF, (a_nr, a_nc, tmp_data, a_nr, pipvt, info)); for (F77_INT i = 0; i < mn; i++) pipvt[i] -= 1; } #if defined (HAVE_QRUPDATE_LUU) template <> OCTAVE_API void lu<Matrix>::update (const ColumnVector& u, const ColumnVector& v) { if (packed ()) unpack (); Matrix& l = m_L; Matrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); ColumnVector utmp = u; ColumnVector vtmp = v; F77_XFCN (dlu1up, DLU1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, utmp.fortran_vec (), vtmp.fortran_vec ())); } template <> OCTAVE_API void lu<Matrix>::update (const Matrix& u, const Matrix& v) { if (packed ()) unpack (); Matrix& l = m_L; Matrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); for (volatile F77_INT i = 0; i < u_nc; i++) { ColumnVector utmp = u.column (i); ColumnVector vtmp = v.column (i); F77_XFCN (dlu1up, DLU1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, utmp.fortran_vec (), vtmp.fortran_vec ())); } } template <> OCTAVE_API void lu<Matrix>::update_piv (const ColumnVector& u, const ColumnVector& v) { if (packed ()) unpack (); Matrix& l = m_L; Matrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); ColumnVector utmp = u; ColumnVector vtmp = v; OCTAVE_LOCAL_BUFFER (double, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment F77_XFCN (dlup1up, DLUP1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, m_ipvt.fortran_vec (), utmp.data (), vtmp.data (), w)); for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } template <> OCTAVE_API void lu<Matrix>::update_piv (const Matrix& u, const Matrix& v) { if (packed ()) unpack (); Matrix& l = m_L; Matrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); OCTAVE_LOCAL_BUFFER (double, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment for (volatile F77_INT i = 0; i < u_nc; i++) { ColumnVector utmp = u.column (i); ColumnVector vtmp = v.column (i); F77_XFCN (dlup1up, DLUP1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, m_ipvt.fortran_vec (), utmp.data (), vtmp.data (), w)); } for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } #endif template <> OCTAVE_API lu<FloatMatrix>::lu (const FloatMatrix& a) { F77_INT a_nr = to_f77_int (a.rows ()); F77_INT a_nc = to_f77_int (a.columns ()); F77_INT mn = (a_nr < a_nc ? a_nr : a_nc); m_ipvt.resize (dim_vector (mn, 1)); F77_INT *pipvt = m_ipvt.fortran_vec (); m_a_fact = a; float *tmp_data = m_a_fact.fortran_vec (); F77_INT info = 0; F77_XFCN (sgetrf, SGETRF, (a_nr, a_nc, tmp_data, a_nr, pipvt, info)); for (F77_INT i = 0; i < mn; i++) pipvt[i] -= 1; } #if defined (HAVE_QRUPDATE_LUU) template <> OCTAVE_API void lu<FloatMatrix>::update (const FloatColumnVector& u, const FloatColumnVector& v) { if (packed ()) unpack (); FloatMatrix& l = m_L; FloatMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); FloatColumnVector utmp = u; FloatColumnVector vtmp = v; F77_XFCN (slu1up, SLU1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, utmp.fortran_vec (), vtmp.fortran_vec ())); } template <> OCTAVE_API void lu<FloatMatrix>::update (const FloatMatrix& u, const FloatMatrix& v) { if (packed ()) unpack (); FloatMatrix& l = m_L; FloatMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); for (volatile F77_INT i = 0; i < u_nc; i++) { FloatColumnVector utmp = u.column (i); FloatColumnVector vtmp = v.column (i); F77_XFCN (slu1up, SLU1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, utmp.fortran_vec (), vtmp.fortran_vec ())); } } template <> OCTAVE_API void lu<FloatMatrix>::update_piv (const FloatColumnVector& u, const FloatColumnVector& v) { if (packed ()) unpack (); FloatMatrix& l = m_L; FloatMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); FloatColumnVector utmp = u; FloatColumnVector vtmp = v; OCTAVE_LOCAL_BUFFER (float, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment F77_XFCN (slup1up, SLUP1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, m_ipvt.fortran_vec (), utmp.data (), vtmp.data (), w)); for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } template <> OCTAVE_API void lu<FloatMatrix>::update_piv (const FloatMatrix& u, const FloatMatrix& v) { if (packed ()) unpack (); FloatMatrix& l = m_L; FloatMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); OCTAVE_LOCAL_BUFFER (float, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment for (volatile F77_INT i = 0; i < u_nc; i++) { FloatColumnVector utmp = u.column (i); FloatColumnVector vtmp = v.column (i); F77_XFCN (slup1up, SLUP1UP, (m, n, l.fortran_vec (), m, r.fortran_vec (), k, m_ipvt.fortran_vec (), utmp.data (), vtmp.data (), w)); } for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } #endif template <> OCTAVE_API lu<ComplexMatrix>::lu (const ComplexMatrix& a) { F77_INT a_nr = to_f77_int (a.rows ()); F77_INT a_nc = to_f77_int (a.columns ()); F77_INT mn = (a_nr < a_nc ? a_nr : a_nc); m_ipvt.resize (dim_vector (mn, 1)); F77_INT *pipvt = m_ipvt.fortran_vec (); m_a_fact = a; Complex *tmp_data = m_a_fact.fortran_vec (); F77_INT info = 0; F77_XFCN (zgetrf, ZGETRF, (a_nr, a_nc, F77_DBLE_CMPLX_ARG (tmp_data), a_nr, pipvt, info)); for (F77_INT i = 0; i < mn; i++) pipvt[i] -= 1; } #if defined (HAVE_QRUPDATE_LUU) template <> OCTAVE_API void lu<ComplexMatrix>::update (const ComplexColumnVector& u, const ComplexColumnVector& v) { if (packed ()) unpack (); ComplexMatrix& l = m_L; ComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); ComplexColumnVector utmp = u; ComplexColumnVector vtmp = v; F77_XFCN (zlu1up, ZLU1UP, (m, n, F77_DBLE_CMPLX_ARG (l.fortran_vec ()), m, F77_DBLE_CMPLX_ARG (r.fortran_vec ()), k, F77_DBLE_CMPLX_ARG (utmp.fortran_vec ()), F77_DBLE_CMPLX_ARG (vtmp.fortran_vec ()))); } template <> OCTAVE_API void lu<ComplexMatrix>::update (const ComplexMatrix& u, const ComplexMatrix& v) { if (packed ()) unpack (); ComplexMatrix& l = m_L; ComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); for (volatile F77_INT i = 0; i < u_nc; i++) { ComplexColumnVector utmp = u.column (i); ComplexColumnVector vtmp = v.column (i); F77_XFCN (zlu1up, ZLU1UP, (m, n, F77_DBLE_CMPLX_ARG (l.fortran_vec ()), m, F77_DBLE_CMPLX_ARG (r.fortran_vec ()), k, F77_DBLE_CMPLX_ARG (utmp.fortran_vec ()), F77_DBLE_CMPLX_ARG (vtmp.fortran_vec ()))); } } template <> OCTAVE_API void lu<ComplexMatrix>::update_piv (const ComplexColumnVector& u, const ComplexColumnVector& v) { if (packed ()) unpack (); ComplexMatrix& l = m_L; ComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); ComplexColumnVector utmp = u; ComplexColumnVector vtmp = v; OCTAVE_LOCAL_BUFFER (Complex, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment F77_XFCN (zlup1up, ZLUP1UP, (m, n, F77_DBLE_CMPLX_ARG (l.fortran_vec ()), m, F77_DBLE_CMPLX_ARG (r.fortran_vec ()), k, m_ipvt.fortran_vec (), F77_CONST_DBLE_CMPLX_ARG (utmp.data ()), F77_CONST_DBLE_CMPLX_ARG (vtmp.data ()), F77_DBLE_CMPLX_ARG (w))); for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } template <> OCTAVE_API void lu<ComplexMatrix>::update_piv (const ComplexMatrix& u, const ComplexMatrix& v) { if (packed ()) unpack (); ComplexMatrix& l = m_L; ComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); OCTAVE_LOCAL_BUFFER (Complex, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment for (volatile F77_INT i = 0; i < u_nc; i++) { ComplexColumnVector utmp = u.column (i); ComplexColumnVector vtmp = v.column (i); F77_XFCN (zlup1up, ZLUP1UP, (m, n, F77_DBLE_CMPLX_ARG (l.fortran_vec ()), m, F77_DBLE_CMPLX_ARG (r.fortran_vec ()), k, m_ipvt.fortran_vec (), F77_CONST_DBLE_CMPLX_ARG (utmp.data ()), F77_CONST_DBLE_CMPLX_ARG (vtmp.data ()), F77_DBLE_CMPLX_ARG (w))); } for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } #endif template <> OCTAVE_API lu<FloatComplexMatrix>::lu (const FloatComplexMatrix& a) { F77_INT a_nr = to_f77_int (a.rows ()); F77_INT a_nc = to_f77_int (a.columns ()); F77_INT mn = (a_nr < a_nc ? a_nr : a_nc); m_ipvt.resize (dim_vector (mn, 1)); F77_INT *pipvt = m_ipvt.fortran_vec (); m_a_fact = a; FloatComplex *tmp_data = m_a_fact.fortran_vec (); F77_INT info = 0; F77_XFCN (cgetrf, CGETRF, (a_nr, a_nc, F77_CMPLX_ARG (tmp_data), a_nr, pipvt, info)); for (F77_INT i = 0; i < mn; i++) pipvt[i] -= 1; } #if defined (HAVE_QRUPDATE_LUU) template <> OCTAVE_API void lu<FloatComplexMatrix>::update (const FloatComplexColumnVector& u, const FloatComplexColumnVector& v) { if (packed ()) unpack (); FloatComplexMatrix& l = m_L; FloatComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); FloatComplexColumnVector utmp = u; FloatComplexColumnVector vtmp = v; F77_XFCN (clu1up, CLU1UP, (m, n, F77_CMPLX_ARG (l.fortran_vec ()), m, F77_CMPLX_ARG (r.fortran_vec ()), k, F77_CMPLX_ARG (utmp.fortran_vec ()), F77_CMPLX_ARG (vtmp.fortran_vec ()))); } template <> OCTAVE_API void lu<FloatComplexMatrix>::update (const FloatComplexMatrix& u, const FloatComplexMatrix& v) { if (packed ()) unpack (); FloatComplexMatrix& l = m_L; FloatComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); for (volatile F77_INT i = 0; i < u_nc; i++) { FloatComplexColumnVector utmp = u.column (i); FloatComplexColumnVector vtmp = v.column (i); F77_XFCN (clu1up, CLU1UP, (m, n, F77_CMPLX_ARG (l.fortran_vec ()), m, F77_CMPLX_ARG (r.fortran_vec ()), k, F77_CMPLX_ARG (utmp.fortran_vec ()), F77_CMPLX_ARG (vtmp.fortran_vec ()))); } } template <> OCTAVE_API void lu<FloatComplexMatrix>::update_piv (const FloatComplexColumnVector& u, const FloatComplexColumnVector& v) { if (packed ()) unpack (); FloatComplexMatrix& l = m_L; FloatComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nel = to_f77_int (u.numel ()); F77_INT v_nel = to_f77_int (v.numel ()); if (u_nel != m || v_nel != n) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); FloatComplexColumnVector utmp = u; FloatComplexColumnVector vtmp = v; OCTAVE_LOCAL_BUFFER (FloatComplex, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment F77_XFCN (clup1up, CLUP1UP, (m, n, F77_CMPLX_ARG (l.fortran_vec ()), m, F77_CMPLX_ARG (r.fortran_vec ()), k, m_ipvt.fortran_vec (), F77_CONST_CMPLX_ARG (utmp.data ()), F77_CONST_CMPLX_ARG (vtmp.data ()), F77_CMPLX_ARG (w))); for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } template <> OCTAVE_API void lu<FloatComplexMatrix>::update_piv (const FloatComplexMatrix& u, const FloatComplexMatrix& v) { if (packed ()) unpack (); FloatComplexMatrix& l = m_L; FloatComplexMatrix& r = m_a_fact; F77_INT m = to_f77_int (l.rows ()); F77_INT n = to_f77_int (r.columns ()); F77_INT k = to_f77_int (l.columns ()); F77_INT u_nr = to_f77_int (u.rows ()); F77_INT u_nc = to_f77_int (u.columns ()); F77_INT v_nr = to_f77_int (v.rows ()); F77_INT v_nc = to_f77_int (v.columns ()); if (u_nr != m || v_nr != n || u_nc != v_nc) (*current_liboctave_error_handler) ("luupdate: dimensions mismatch"); OCTAVE_LOCAL_BUFFER (FloatComplex, w, m); for (F77_INT i = 0; i < m; i++) m_ipvt(i) += 1; // increment for (volatile F77_INT i = 0; i < u_nc; i++) { FloatComplexColumnVector utmp = u.column (i); FloatComplexColumnVector vtmp = v.column (i); F77_XFCN (clup1up, CLUP1UP, (m, n, F77_CMPLX_ARG (l.fortran_vec ()), m, F77_CMPLX_ARG (r.fortran_vec ()), k, m_ipvt.fortran_vec (), F77_CONST_CMPLX_ARG (utmp.data ()), F77_CONST_CMPLX_ARG (vtmp.data ()), F77_CMPLX_ARG (w))); } for (F77_INT i = 0; i < m; i++) m_ipvt(i) -= 1; // decrement } #endif // Instantiations we need. template class lu<Matrix>; template class lu<FloatMatrix>; template class lu<ComplexMatrix>; template class lu<FloatComplexMatrix>; OCTAVE_END_NAMESPACE(math) OCTAVE_END_NAMESPACE(octave)