Mercurial > octave
view libinterp/corefcn/det.cc @ 21200:fcac5dbbf9ed
maint: Indent #ifdef blocks in libinterp.
* builtins.h, Cell.cc, __contourc__.cc, __dispatch__.cc, __dsearchn__.cc,
__ichol__.cc, __ilu__.cc, __lin_interpn__.cc, __pchip_deriv__.cc, __qp__.cc,
balance.cc, besselj.cc, betainc.cc, bitfcns.cc, bsxfun.cc,
c-file-ptr-stream.cc, c-file-ptr-stream.h, cellfun.cc, colloc.cc,
comment-list.cc, conv2.cc, daspk.cc, dasrt.cc, dassl.cc, data.cc, debug.cc,
defaults.cc, defaults.in.h, defun-dld.h, defun.cc, defun.h, det.cc, dirfns.cc,
display.cc, dlmread.cc, dot.cc, dynamic-ld.cc, eig.cc, ellipj.cc, error.cc,
errwarn.cc, event-queue.cc, fft.cc, fft2.cc, fftn.cc, file-io.cc, filter.cc,
find.cc, gammainc.cc, gcd.cc, getgrent.cc, getpwent.cc, getrusage.cc,
givens.cc, gl-render.cc, gl2ps-print.cc, graphics.cc, graphics.in.h, gripes.cc,
hash.cc, help.cc, hess.cc, hex2num.cc, input.cc, inv.cc, jit-ir.cc,
jit-typeinfo.cc, jit-util.cc, jit-util.h, kron.cc, load-path.cc, load-save.cc,
lookup.cc, ls-ascii-helper.cc, ls-hdf5.cc, ls-mat-ascii.cc, ls-mat4.cc,
ls-mat5.cc, ls-oct-binary.cc, ls-oct-text.cc, ls-oct-text.h, ls-utils.cc,
ls-utils.h, lsode.cc, lu.cc, luinc.cc, mappers.cc, matrix_type.cc, max.cc,
mex.h, mexproto.h, mgorth.cc, nproc.cc, oct-errno.in.cc, oct-fstrm.cc,
oct-hdf5-types.cc, oct-hdf5.h, oct-hist.cc, oct-iostrm.cc, oct-lvalue.cc,
oct-map.cc, oct-prcstrm.cc, oct-procbuf.cc, oct-stream.cc, oct-strstrm.cc,
octave-link.cc, ordschur.cc, pager.cc, pinv.cc, pr-output.cc, procstream.cc,
profiler.cc, psi.cc, pt-jit.cc, quad.cc, quadcc.cc, qz.cc, rand.cc, rcond.cc,
regexp.cc, schur.cc, sighandlers.cc, sparse-xdiv.cc, sparse-xpow.cc, sparse.cc,
spparms.cc, sqrtm.cc, str2double.cc, strfind.cc, strfns.cc, sub2ind.cc, svd.cc,
sylvester.cc, symtab.cc, syscalls.cc, sysdep.cc, sysdep.h, time.cc, toplev.cc,
tril.cc, tsearch.cc, txt-eng-ft.cc, txt-eng.cc, typecast.cc, urlwrite.cc,
utils.cc, variables.cc, xdiv.cc, xnorm.cc, xpow.cc, zfstream.cc,
__delaunayn__.cc, __eigs__.cc, __fltk_uigetfile__.cc, __glpk__.cc,
__init_fltk__.cc, __init_gnuplot__.cc, __magick_read__.cc, __osmesa_print__.cc,
__voronoi__.cc, amd.cc, audiodevinfo.cc, audioread.cc, ccolamd.cc, chol.cc,
colamd.cc, convhulln.cc, dmperm.cc, fftw.cc, oct-qhull.h, qr.cc, symbfact.cc,
symrcm.cc, oct-conf.in.cc, ov-base-diag.cc, ov-base-int.cc, ov-base-mat.cc,
ov-base-scalar.cc, ov-base-sparse.cc, ov-base.cc, ov-bool-mat.cc,
ov-bool-sparse.cc, ov-bool.cc, ov-builtin.cc, ov-cell.cc, ov-ch-mat.cc,
ov-class.cc, ov-classdef.cc, ov-colon.cc, ov-complex.cc, ov-cs-list.cc,
ov-cx-diag.cc, ov-cx-mat.cc, ov-cx-sparse.cc, ov-dld-fcn.cc, ov-fcn-handle.cc,
ov-fcn-inline.cc, ov-fcn.cc, 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-int16.cc,
ov-int32.cc, ov-int64.cc, ov-int8.cc, ov-java.cc, ov-lazy-idx.cc,
ov-mex-fcn.cc, ov-null-mat.cc, ov-oncleanup.cc, ov-perm.cc, ov-range.cc,
ov-re-diag.cc, ov-re-mat.cc, ov-re-sparse.cc, ov-scalar.cc, ov-str-mat.cc,
ov-struct.cc, ov-typeinfo.cc, ov-uint16.cc, ov-uint32.cc, ov-uint64.cc,
ov-uint8.cc, ov-usr-fcn.cc, ov.cc, ovl.cc, octave.cc, op-b-b.cc, op-b-bm.cc,
op-b-sbm.cc, op-bm-b.cc, op-bm-bm.cc, op-bm-sbm.cc, op-cdm-cdm.cc, op-cell.cc,
op-chm.cc, op-class.cc, op-cm-cm.cc, op-cm-cs.cc, op-cm-m.cc, op-cm-s.cc,
op-cm-scm.cc, op-cm-sm.cc, op-cs-cm.cc, op-cs-cs.cc, op-cs-m.cc, op-cs-s.cc,
op-cs-scm.cc, op-cs-sm.cc, op-dm-dm.cc, op-dm-scm.cc, op-dm-sm.cc,
op-dm-template.cc, op-dms-template.cc, op-double-conv.cc, op-fcdm-fcdm.cc,
op-fcdm-fdm.cc, op-fcm-fcm.cc, op-fcm-fcs.cc, op-fcm-fm.cc, op-fcm-fs.cc,
op-fcn.cc, op-fcs-fcm.cc, op-fcs-fcs.cc, op-fcs-fm.cc, op-fcs-fs.cc,
op-fdm-fdm.cc, op-float-conv.cc, op-fm-fcm.cc, op-fm-fcs.cc, op-fm-fm.cc,
op-fm-fs.cc, op-fs-fcm.cc, op-fs-fcs.cc, op-fs-fm.cc, op-fs-fs.cc,
op-i16-i16.cc, op-i32-i32.cc, op-i64-i64.cc, op-i8-i8.cc, op-int-concat.cc,
op-int-conv.cc, op-m-cm.cc, op-m-cs.cc, op-m-m.cc, op-m-s.cc, op-m-scm.cc,
op-m-sm.cc, op-pm-pm.cc, op-pm-scm.cc, op-pm-sm.cc, op-pm-template.cc,
op-range.cc, op-s-cm.cc, op-s-cs.cc, op-s-m.cc, op-s-s.cc, op-s-scm.cc,
op-s-sm.cc, op-sbm-b.cc, op-sbm-bm.cc, op-sbm-sbm.cc, op-scm-cm.cc,
op-scm-cs.cc, op-scm-m.cc, op-scm-s.cc, op-scm-scm.cc, op-scm-sm.cc,
op-sm-cm.cc, op-sm-cs.cc, op-sm-m.cc, op-sm-s.cc, op-sm-scm.cc, op-sm-sm.cc,
op-str-m.cc, op-str-s.cc, op-str-str.cc, op-struct.cc, op-ui16-ui16.cc,
op-ui32-ui32.cc, op-ui64-ui64.cc, op-ui8-ui8.cc, pt-arg-list.cc,
pt-array-list.cc, pt-assign.cc, pt-binop.cc, pt-bp.cc, pt-cbinop.cc,
pt-cell.cc, pt-check.cc, pt-classdef.cc, pt-cmd.cc, pt-colon.cc, pt-colon.h,
pt-const.cc, pt-decl.cc, pt-eval.cc, pt-except.cc, pt-exp.cc, pt-fcn-handle.cc,
pt-funcall.cc, pt-id.cc, pt-idx.cc, pt-jump.cc, pt-loop.cc, pt-mat.cc,
pt-misc.cc, pt-pr-code.cc, pt-select.cc, pt-stmt.cc, pt-unop.cc, pt.cc,
token.cc, Array-jit.cc, Array-os.cc, Array-sym.cc, Array-tc.cc, version.cc:
Indent #ifdef blocks in libinterp.
author | Rik <rik@octave.org> |
---|---|
date | Fri, 05 Feb 2016 16:29:08 -0800 |
parents | df7891224709 |
children | 40de9f8f23a6 |
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/* Copyright (C) 1996-2015 John W. Eaton 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 <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H # include <config.h> #endif #include "DET.h" #include "defun.h" #include "error.h" #include "errwarn.h" #include "ovl.h" #include "utils.h" #include "ops.h" #include "ov-re-mat.h" #include "ov-cx-mat.h" #include "ov-flt-re-mat.h" #include "ov-flt-cx-mat.h" #include "ov-re-diag.h" #include "ov-cx-diag.h" #include "ov-flt-re-diag.h" #include "ov-flt-cx-diag.h" #include "ov-perm.h" #define MAYBE_CAST(VAR, CLASS) \ const CLASS *VAR = arg.type_id () == CLASS::static_type_id () ? \ dynamic_cast<const CLASS *> (&arg.get_rep ()) : 0 DEFUN (det, args, nargout, "-*- texinfo -*-\n\ @deftypefn {} {} det (@var{A})\n\ @deftypefnx {} {[@var{d}, @var{rcond}] =} det (@var{A})\n\ Compute the determinant of @var{A}.\n\ \n\ Return an estimate of the reciprocal condition number if requested.\n\ \n\ Programming Notes: Routines from @sc{lapack} are used for full matrices and\n\ code from @sc{umfpack} is used for sparse matrices.\n\ \n\ The determinant should not be used to check a matrix for singularity.\n\ For that, use any of the condition number functions: @code{cond},\n\ @code{condest}, @code{rcond}.\n\ @seealso{cond, condest, rcond}\n\ @end deftypefn") { if (args.length () != 1) print_usage (); octave_value arg = args(0); octave_idx_type nr = arg.rows (); octave_idx_type nc = arg.columns (); if (nr == 0 && nc == 0) return ovl (1.0); int arg_is_empty = empty_arg ("det", nr, nc); if (arg_is_empty < 0) return ovl (); if (arg_is_empty > 0) return ovl (1.0); if (nr != nc) err_square_matrix_required ("det", "A"); octave_value_list retval (2); bool isfloat = arg.is_single_type (); if (arg.is_diag_matrix ()) { if (nargout <= 1) retval.resize (1); if (arg.is_complex_type ()) { if (isfloat) { retval(0) = arg.float_complex_diag_matrix_value () .determinant ().value (); if (nargout > 1) retval(1) = arg.float_complex_diag_matrix_value ().rcond (); } else { retval(0) = arg.complex_diag_matrix_value () .determinant ().value (); if (nargout > 1) retval(1) = arg.complex_diag_matrix_value ().rcond (); } } else { if (isfloat) { retval(0) = arg.float_diag_matrix_value () .determinant ().value (); if (nargout > 1) retval(1) = arg.float_diag_matrix_value ().rcond (); } else { retval(0) = arg.diag_matrix_value ().determinant ().value (); if (nargout > 1) retval(1) = arg.diag_matrix_value ().rcond (); } } } else if (arg.is_perm_matrix ()) { if (nargout <= 1) retval.resize (1); retval(0) = static_cast<double> (arg.perm_matrix_value ().determinant ()); if (nargout > 1) retval(1) = 1.0; } else if (arg.is_single_type ()) { if (arg.is_real_type ()) { octave_idx_type info; float rcond = 0.0; // Always compute rcond, so we can detect singular matrices. FloatMatrix m = arg.float_matrix_value (); MAYBE_CAST (rep, octave_float_matrix); MatrixType mtype = rep ? rep -> matrix_type () : MatrixType (); FloatDET det = m.determinant (mtype, info, rcond); retval(0) = info == -1 ? 0.0f : det.value (); retval(1) = rcond; if (rep) rep->matrix_type (mtype); } else if (arg.is_complex_type ()) { octave_idx_type info; float rcond = 0.0; // Always compute rcond, so we can detect singular matrices. FloatComplexMatrix m = arg.float_complex_matrix_value (); MAYBE_CAST (rep, octave_float_complex_matrix); MatrixType mtype = rep ? rep -> matrix_type () : MatrixType (); FloatComplexDET det = m.determinant (mtype, info, rcond); retval(0) = info == -1 ? FloatComplex (0.0) : det.value (); retval(1) = rcond; if (rep) rep->matrix_type (mtype); } } else { if (arg.is_real_type ()) { octave_idx_type info; double rcond = 0.0; // Always compute rcond, so we can detect singular matrices. if (arg.is_sparse_type ()) { SparseMatrix m = arg.sparse_matrix_value (); DET det = m.determinant (info, rcond); retval(0) = info == -1 ? 0.0 : det.value (); retval(1) = rcond; } else { Matrix m = arg.matrix_value (); MAYBE_CAST (rep, octave_matrix); MatrixType mtype = rep ? rep -> matrix_type () : MatrixType (); DET det = m.determinant (mtype, info, rcond); retval(0) = info == -1 ? 0.0 : det.value (); retval(1) = rcond; if (rep) rep->matrix_type (mtype); } } else if (arg.is_complex_type ()) { octave_idx_type info; double rcond = 0.0; // Always compute rcond, so we can detect singular matrices. if (arg.is_sparse_type ()) { SparseComplexMatrix m = arg.sparse_complex_matrix_value (); ComplexDET det = m.determinant (info, rcond); retval(0) = info == -1 ? Complex (0.0) : det.value (); retval(1) = rcond; } else { ComplexMatrix m = arg.complex_matrix_value (); MAYBE_CAST (rep, octave_complex_matrix); MatrixType mtype = rep ? rep -> matrix_type () : MatrixType (); ComplexDET det = m.determinant (mtype, info, rcond); retval(0) = info == -1 ? Complex (0.0) : det.value (); retval(1) = rcond; if (rep) rep->matrix_type (mtype); } } else err_wrong_type_arg ("det", arg); } return retval; } /* %!assert (det ([1, 2; 3, 4]), -2, 10*eps) %!assert (det (single ([1, 2; 3, 4])), single (-2), 10*eps ("single")) %!error det () %!error det (1, 2) %!error <must be a square matrix> det ([1, 2; 3, 4; 5, 6]) */