Mercurial > hg > octave-lyh
view libinterp/corefcn/xdiv.cc @ 17289:bc924baa2c4e
doc: Add new @qcode macro for code samples which are quoted.
Macro handles options ("on") or properties ("position") more elegantly
than @code{"text"}.
* doc/interpreter/macros.texi: Add new @qcode macro.
* doc/interpreter/tips.txi: Add documentation about @qcode macro.
* doc/interpreter/basics.txi, doc/interpreter/container.txi,
doc/interpreter/emacs.txi, doc/interpreter/errors.txi,
doc/interpreter/eval.txi, doc/interpreter/expr.txi,
doc/interpreter/external.txi, doc/interpreter/func.txi,
doc/interpreter/grammar.txi, doc/interpreter/image.txi,
doc/interpreter/install.txi, doc/interpreter/interp.txi,
doc/interpreter/io.txi, doc/interpreter/matrix.txi,
doc/interpreter/numbers.txi, doc/interpreter/oop.txi,
doc/interpreter/package.txi, doc/interpreter/plot.txi,
doc/interpreter/quad.txi, doc/interpreter/sparse.txi,
doc/interpreter/strings.txi, doc/interpreter/system.txi,
doc/interpreter/vectorize.txi, libinterp/corefcn/balance.cc,
libinterp/corefcn/bitfcns.cc, libinterp/corefcn/cellfun.cc,
libinterp/corefcn/conv2.cc, libinterp/corefcn/data.cc,
libinterp/corefcn/debug.cc, libinterp/corefcn/defaults.cc,
libinterp/corefcn/dirfns.cc, libinterp/corefcn/dlmread.cc,
libinterp/corefcn/error.cc, libinterp/corefcn/file-io.cc,
libinterp/corefcn/find.cc, libinterp/corefcn/gammainc.cc,
libinterp/corefcn/graphics.cc, libinterp/corefcn/help.cc,
libinterp/corefcn/hex2num.cc, libinterp/corefcn/input.cc,
libinterp/corefcn/load-path.cc, libinterp/corefcn/load-save.cc,
libinterp/corefcn/ls-oct-ascii.cc, libinterp/corefcn/lu.cc,
libinterp/corefcn/luinc.cc, libinterp/corefcn/matrix_type.cc,
libinterp/corefcn/oct-hist.cc, libinterp/corefcn/pager.cc,
libinterp/corefcn/pr-output.cc, libinterp/corefcn/pt-jit.cc,
libinterp/corefcn/qz.cc, libinterp/corefcn/rand.cc,
libinterp/corefcn/regexp.cc, libinterp/corefcn/schur.cc,
libinterp/corefcn/sighandlers.cc, libinterp/corefcn/sparse.cc,
libinterp/corefcn/spparms.cc, libinterp/corefcn/str2double.cc,
libinterp/corefcn/svd.cc, libinterp/corefcn/symtab.cc,
libinterp/corefcn/syscalls.cc, libinterp/corefcn/toplev.cc,
libinterp/corefcn/tril.cc, libinterp/corefcn/typecast.cc,
libinterp/corefcn/utils.cc, libinterp/corefcn/variables.cc,
libinterp/dldfcn/__init_fltk__.cc, libinterp/dldfcn/chol.cc,
libinterp/dldfcn/colamd.cc, libinterp/dldfcn/fftw.cc, libinterp/dldfcn/qr.cc,
libinterp/dldfcn/symbfact.cc, libinterp/octave-value/ov-base.cc,
libinterp/octave-value/ov-fcn-handle.cc,
libinterp/octave-value/ov-fcn-inline.cc, libinterp/octave-value/ov-java.cc,
libinterp/octave-value/ov-range.cc, libinterp/octave-value/ov-struct.cc,
libinterp/octave-value/ov-usr-fcn.cc, libinterp/parse-tree/oct-parse.in.yy,
libinterp/parse-tree/pt-binop.cc, libinterp/parse-tree/pt-eval.cc,
libinterp/parse-tree/pt-mat.cc, scripts/@ftp/ftp.m,
scripts/deprecated/java_convert_matrix.m, scripts/deprecated/java_debug.m,
scripts/deprecated/java_unsigned_conversion.m, scripts/deprecated/shell_cmd.m,
scripts/general/dblquad.m, scripts/general/display.m,
scripts/general/genvarname.m, scripts/general/idivide.m,
scripts/general/interp1.m, scripts/general/interp2.m,
scripts/general/interp3.m, scripts/general/interpn.m, scripts/general/isa.m,
scripts/general/profexplore.m, scripts/general/profile.m,
scripts/general/quadgk.m, scripts/general/randi.m, scripts/general/structfun.m,
scripts/general/subsindex.m, scripts/general/triplequad.m,
scripts/geometry/griddata.m, scripts/geometry/griddata3.m,
scripts/geometry/griddatan.m, scripts/geometry/voronoi.m, scripts/help/help.m,
scripts/help/lookfor.m, scripts/image/cmpermute.m, scripts/image/colormap.m,
scripts/image/image.m, scripts/image/imagesc.m, scripts/image/imfinfo.m,
scripts/image/imformats.m, scripts/image/imread.m, scripts/image/imshow.m,
scripts/image/imwrite.m, scripts/image/ind2gray.m, scripts/image/lines.m,
scripts/image/rgb2ind.m, scripts/image/spinmap.m, scripts/io/dlmwrite.m,
scripts/io/strread.m, scripts/io/textread.m, scripts/io/textscan.m,
scripts/java/javaclasspath.m, scripts/java/usejava.m,
scripts/miscellaneous/bzip2.m, scripts/miscellaneous/computer.m,
scripts/miscellaneous/copyfile.m, scripts/miscellaneous/debug.m,
scripts/miscellaneous/dos.m, scripts/miscellaneous/edit.m,
scripts/miscellaneous/gzip.m, scripts/miscellaneous/license.m,
scripts/miscellaneous/mkoctfile.m, scripts/miscellaneous/movefile.m,
scripts/miscellaneous/parseparams.m, scripts/miscellaneous/unix.m,
scripts/optimization/fminbnd.m, scripts/optimization/fminsearch.m,
scripts/optimization/fminunc.m, scripts/optimization/fsolve.m,
scripts/optimization/fzero.m, scripts/optimization/glpk.m,
scripts/optimization/lsqnonneg.m, scripts/optimization/optimset.m,
scripts/optimization/pqpnonneg.m, scripts/pkg/pkg.m, scripts/plot/allchild.m,
scripts/plot/ancestor.m, scripts/plot/area.m, scripts/plot/axis.m,
scripts/plot/bar.m, scripts/plot/barh.m, scripts/plot/box.m,
scripts/plot/caxis.m, scripts/plot/cla.m, scripts/plot/clabel.m,
scripts/plot/clf.m, scripts/plot/close.m, scripts/plot/colorbar.m,
scripts/plot/daspect.m, scripts/plot/ezmesh.m, scripts/plot/ezmeshc.m,
scripts/plot/ezsurf.m, scripts/plot/ezsurfc.m, scripts/plot/findall.m,
scripts/plot/findobj.m, scripts/plot/gcbo.m, scripts/plot/gcf.m,
scripts/plot/gco.m, scripts/plot/grid.m, scripts/plot/guihandles.m,
scripts/plot/hdl2struct.m, scripts/plot/hidden.m, scripts/plot/hold.m,
scripts/plot/isonormals.m, scripts/plot/isosurface.m, scripts/plot/legend.m,
scripts/plot/mesh.m, scripts/plot/meshc.m, scripts/plot/meshz.m,
scripts/plot/newplot.m, scripts/plot/orient.m, scripts/plot/pareto.m,
scripts/plot/patch.m, scripts/plot/pbaspect.m, scripts/plot/pcolor.m,
scripts/plot/plot.m, scripts/plot/print.m,
scripts/plot/private/__add_default_menu__.m, scripts/plot/quiver.m,
scripts/plot/quiver3.m, scripts/plot/refreshdata.m, scripts/plot/saveas.m,
scripts/plot/scatter.m, scripts/plot/scatter3.m, scripts/plot/shading.m,
scripts/plot/shrinkfaces.m, scripts/plot/slice.m, scripts/plot/stem.m,
scripts/plot/stem3.m, scripts/plot/struct2hdl.m, scripts/plot/subplot.m,
scripts/plot/surf.m, scripts/plot/surfc.m, scripts/plot/surfl.m,
scripts/plot/tetramesh.m, scripts/plot/uigetfile.m, scripts/plot/uimenu.m,
scripts/plot/uiputfile.m, scripts/plot/waterfall.m, scripts/plot/whitebg.m,
scripts/plot/xlim.m, scripts/plot/ylim.m, scripts/plot/zlim.m,
scripts/polynomial/conv.m, scripts/polynomial/polyout.m,
scripts/polynomial/splinefit.m, scripts/set/ismember.m, scripts/set/powerset.m,
scripts/set/setdiff.m, scripts/set/union.m, scripts/set/unique.m,
scripts/signal/detrend.m, scripts/signal/filter2.m, scripts/signal/freqz.m,
scripts/signal/periodogram.m, scripts/signal/spectral_adf.m,
scripts/signal/spectral_xdf.m, scripts/sparse/eigs.m, scripts/sparse/svds.m,
scripts/specfun/legendre.m, scripts/special-matrix/gallery.m,
scripts/statistics/base/mean.m, scripts/statistics/base/moment.m,
scripts/statistics/tests/cor_test.m,
scripts/statistics/tests/kolmogorov_smirnov_test.m,
scripts/statistics/tests/kolmogorov_smirnov_test_2.m,
scripts/statistics/tests/kruskal_wallis_test.m,
scripts/statistics/tests/prop_test_2.m, scripts/statistics/tests/sign_test.m,
scripts/statistics/tests/t_test.m, scripts/statistics/tests/t_test_2.m,
scripts/statistics/tests/t_test_regression.m,
scripts/statistics/tests/u_test.m, scripts/statistics/tests/var_test.m,
scripts/statistics/tests/welch_test.m,
scripts/statistics/tests/wilcoxon_test.m, scripts/statistics/tests/z_test.m,
scripts/statistics/tests/z_test_2.m, scripts/strings/base2dec.m,
scripts/strings/index.m, scripts/strings/isstrprop.m,
scripts/strings/mat2str.m, scripts/strings/regexptranslate.m,
scripts/strings/rindex.m, scripts/strings/str2num.m, scripts/strings/strcat.m,
scripts/strings/strjust.m, scripts/strings/strmatch.m,
scripts/strings/validatestring.m, scripts/testfun/demo.m,
scripts/testfun/example.m, scripts/testfun/test.m, scripts/time/addtodate.m,
scripts/time/asctime.m, scripts/time/datestr.m, scripts/time/datetick.m,
scripts/time/weekday.m, scripts/ui/errordlg.m, scripts/ui/helpdlg.m,
scripts/ui/inputdlg.m, scripts/ui/listdlg.m, scripts/ui/msgbox.m,
scripts/ui/questdlg.m, scripts/ui/warndlg.m: Use new @qcode macro.
| author | Rik <rik@octave.org> |
|---|---|
| date | Mon, 19 Aug 2013 20:46:38 -0700 |
| parents | 68fc671a9339 |
| children |
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/* Copyright (C) 1993-2012 John W. Eaton Copyright (C) 2008 Jaroslav Hajek Copyright (C) 2009-2010 VZLU Prague 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 <cassert> #include "Array-util.h" #include "CMatrix.h" #include "dMatrix.h" #include "CNDArray.h" #include "dNDArray.h" #include "fCMatrix.h" #include "fMatrix.h" #include "fCNDArray.h" #include "fNDArray.h" #include "oct-cmplx.h" #include "dDiagMatrix.h" #include "fDiagMatrix.h" #include "CDiagMatrix.h" #include "fCDiagMatrix.h" #include "quit.h" #include "error.h" #include "xdiv.h" static inline bool result_ok (octave_idx_type info) { assert (info != -1); return (info != -2); } static void solve_singularity_warning (double rcond) { warning_with_id ("Octave:singular-matrix-div", "matrix singular to machine precision, rcond = %g", rcond); } template <class T1, class T2> bool mx_leftdiv_conform (const T1& a, const T2& b, blas_trans_type blas_trans) { octave_idx_type a_nr = blas_trans == blas_no_trans ? a.rows () : a.cols (); octave_idx_type b_nr = b.rows (); if (a_nr != b_nr) { octave_idx_type a_nc = blas_trans == blas_no_trans ? a.cols () : a.rows (); octave_idx_type b_nc = b.cols (); gripe_nonconformant ("operator \\", a_nr, a_nc, b_nr, b_nc); return false; } return true; } #define INSTANTIATE_MX_LEFTDIV_CONFORM(T1, T2) \ template bool mx_leftdiv_conform (const T1&, const T2&, blas_trans_type) INSTANTIATE_MX_LEFTDIV_CONFORM (Matrix, Matrix); INSTANTIATE_MX_LEFTDIV_CONFORM (Matrix, ComplexMatrix); INSTANTIATE_MX_LEFTDIV_CONFORM (ComplexMatrix, Matrix); INSTANTIATE_MX_LEFTDIV_CONFORM (ComplexMatrix, ComplexMatrix); template <class T1, class T2> bool mx_div_conform (const T1& a, const T2& b) { octave_idx_type a_nc = a.cols (); octave_idx_type b_nc = b.cols (); if (a_nc != b_nc) { octave_idx_type a_nr = a.rows (); octave_idx_type b_nr = b.rows (); gripe_nonconformant ("operator /", a_nr, a_nc, b_nr, b_nc); return false; } return true; } #define INSTANTIATE_MX_DIV_CONFORM(T1, T2) \ template bool mx_div_conform (const T1&, const T2&) INSTANTIATE_MX_DIV_CONFORM (Matrix, Matrix); INSTANTIATE_MX_DIV_CONFORM (Matrix, ComplexMatrix); INSTANTIATE_MX_DIV_CONFORM (ComplexMatrix, Matrix); INSTANTIATE_MX_DIV_CONFORM (ComplexMatrix, ComplexMatrix); // Right division functions. // // op2 / op1: m cm // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ // -*- 1 -*- Matrix xdiv (const Matrix& a, const Matrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return Matrix (); octave_idx_type info; double rcond = 0.0; Matrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 2 -*- ComplexMatrix xdiv (const Matrix& a, const ComplexMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; ComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 3 -*- ComplexMatrix xdiv (const ComplexMatrix& a, const Matrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; ComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 4 -*- ComplexMatrix xdiv (const ComplexMatrix& a, const ComplexMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; ComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // Funny element by element division operations. // // op2 \ op1: s cs // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ Matrix x_el_div (double a, const Matrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); Matrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } ComplexMatrix x_el_div (double a, const ComplexMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); ComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } ComplexMatrix x_el_div (const Complex a, const Matrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); ComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } ComplexMatrix x_el_div (const Complex a, const ComplexMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); ComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } // Funny element by element division operations. // // op2 \ op1: s cs // +-- +---+----+ // N-d array | 1 | 3 | // +---+----+ // complex N-d array | 2 | 4 | // +---+----+ NDArray x_el_div (double a, const NDArray& b) { NDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } ComplexNDArray x_el_div (double a, const ComplexNDArray& b) { ComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } ComplexNDArray x_el_div (const Complex a, const NDArray& b) { ComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } ComplexNDArray x_el_div (const Complex a, const ComplexNDArray& b) { ComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } // Left division functions. // // op2 \ op1: m cm // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ // -*- 1 -*- Matrix xleftdiv (const Matrix& a, const Matrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return Matrix (); octave_idx_type info; double rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 2 -*- ComplexMatrix xleftdiv (const Matrix& a, const ComplexMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 3 -*- ComplexMatrix xleftdiv (const ComplexMatrix& a, const Matrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 4 -*- ComplexMatrix xleftdiv (const ComplexMatrix& a, const ComplexMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return ComplexMatrix (); octave_idx_type info; double rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } static void solve_singularity_warning (float rcond) { warning ("matrix singular to machine precision, rcond = %g", rcond); warning ("attempting to find minimum norm solution"); } INSTANTIATE_MX_LEFTDIV_CONFORM (FloatMatrix, FloatMatrix); INSTANTIATE_MX_LEFTDIV_CONFORM (FloatMatrix, FloatComplexMatrix); INSTANTIATE_MX_LEFTDIV_CONFORM (FloatComplexMatrix, FloatMatrix); INSTANTIATE_MX_LEFTDIV_CONFORM (FloatComplexMatrix, FloatComplexMatrix); INSTANTIATE_MX_DIV_CONFORM (FloatMatrix, FloatMatrix); INSTANTIATE_MX_DIV_CONFORM (FloatMatrix, FloatComplexMatrix); INSTANTIATE_MX_DIV_CONFORM (FloatComplexMatrix, FloatMatrix); INSTANTIATE_MX_DIV_CONFORM (FloatComplexMatrix, FloatComplexMatrix); // Right division functions. // // op2 / op1: m cm // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ // -*- 1 -*- FloatMatrix xdiv (const FloatMatrix& a, const FloatMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return FloatMatrix (); octave_idx_type info; float rcond = 0.0; FloatMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 2 -*- FloatComplexMatrix xdiv (const FloatMatrix& a, const FloatComplexMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; FloatComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 3 -*- FloatComplexMatrix xdiv (const FloatComplexMatrix& a, const FloatMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; FloatComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // -*- 4 -*- FloatComplexMatrix xdiv (const FloatComplexMatrix& a, const FloatComplexMatrix& b, MatrixType &typ) { if (! mx_div_conform (a, b)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; FloatComplexMatrix result = b.solve (typ, a.transpose (), info, rcond, solve_singularity_warning, true, blas_trans); return result.transpose (); } // Funny element by element division operations. // // op2 \ op1: s cs // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ FloatMatrix x_el_div (float a, const FloatMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); FloatMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } FloatComplexMatrix x_el_div (float a, const FloatComplexMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); FloatComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } FloatComplexMatrix x_el_div (const FloatComplex a, const FloatMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); FloatComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } FloatComplexMatrix x_el_div (const FloatComplex a, const FloatComplexMatrix& b) { octave_idx_type nr = b.rows (); octave_idx_type nc = b.columns (); FloatComplexMatrix result (nr, nc); for (octave_idx_type j = 0; j < nc; j++) for (octave_idx_type i = 0; i < nr; i++) { octave_quit (); result (i, j) = a / b (i, j); } return result; } // Funny element by element division operations. // // op2 \ op1: s cs // +-- +---+----+ // N-d array | 1 | 3 | // +---+----+ // complex N-d array | 2 | 4 | // +---+----+ FloatNDArray x_el_div (float a, const FloatNDArray& b) { FloatNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } FloatComplexNDArray x_el_div (float a, const FloatComplexNDArray& b) { FloatComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } FloatComplexNDArray x_el_div (const FloatComplex a, const FloatNDArray& b) { FloatComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } FloatComplexNDArray x_el_div (const FloatComplex a, const FloatComplexNDArray& b) { FloatComplexNDArray result (b.dims ()); for (octave_idx_type i = 0; i < b.length (); i++) { octave_quit (); result (i) = a / b (i); } return result; } // Left division functions. // // op2 \ op1: m cm // +-- +---+----+ // matrix | 1 | 3 | // +---+----+ // complex_matrix | 2 | 4 | // +---+----+ // -*- 1 -*- FloatMatrix xleftdiv (const FloatMatrix& a, const FloatMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return FloatMatrix (); octave_idx_type info; float rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 2 -*- FloatComplexMatrix xleftdiv (const FloatMatrix& a, const FloatComplexMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 3 -*- FloatComplexMatrix xleftdiv (const FloatComplexMatrix& a, const FloatMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // -*- 4 -*- FloatComplexMatrix xleftdiv (const FloatComplexMatrix& a, const FloatComplexMatrix& b, MatrixType &typ, blas_trans_type transt) { if (! mx_leftdiv_conform (a, b, transt)) return FloatComplexMatrix (); octave_idx_type info; float rcond = 0.0; return a.solve (typ, b, info, rcond, solve_singularity_warning, true, transt); } // Diagonal matrix division. template <class MT, class DMT> MT mdm_div_impl (const MT& a, const DMT& d) { if (! mx_div_conform (a, d)) return MT (); octave_idx_type m = a.rows (), n = d.rows (), l = d.length (); MT x (m, n); typedef typename DMT::element_type S; typedef typename MT::element_type T; const T *aa = a.data (); const S *dd = d.data (); T *xx = x.fortran_vec (); for (octave_idx_type j = 0; j < l; j++) { const S del = dd[j]; if (del != S ()) for (octave_idx_type i = 0; i < m; i++) xx[i] = aa[i] / del; else for (octave_idx_type i = 0; i < m; i++) xx[i] = T (); aa += m; xx += m; } for (octave_idx_type i = l*m; i < n*m; i++) xx[i] = T (); return x; } // Right division functions. // // op2 / op1: dm cdm // +-- +---+----+ // matrix | 1 | | // +---+----+ // complex_matrix | 2 | 3 | // +---+----+ // -*- 1 -*- Matrix xdiv (const Matrix& a, const DiagMatrix& b) { return mdm_div_impl (a, b); } // -*- 2 -*- ComplexMatrix xdiv (const ComplexMatrix& a, const DiagMatrix& b) { return mdm_div_impl (a, b); } // -*- 3 -*- ComplexMatrix xdiv (const ComplexMatrix& a, const ComplexDiagMatrix& b) { return mdm_div_impl (a, b); } // Right division functions, float type. // // op2 / op1: dm cdm // +-- +---+----+ // matrix | 1 | | // +---+----+ // complex_matrix | 2 | 3 | // +---+----+ // -*- 1 -*- FloatMatrix xdiv (const FloatMatrix& a, const FloatDiagMatrix& b) { return mdm_div_impl (a, b); } // -*- 2 -*- FloatComplexMatrix xdiv (const FloatComplexMatrix& a, const FloatDiagMatrix& b) { return mdm_div_impl (a, b); } // -*- 3 -*- FloatComplexMatrix xdiv (const FloatComplexMatrix& a, const FloatComplexDiagMatrix& b) { return mdm_div_impl (a, b); } template <class MT, class DMT> MT dmm_leftdiv_impl (const DMT& d, const MT& a) { if (! mx_leftdiv_conform (d, a, blas_no_trans)) return MT (); octave_idx_type m = d.cols (), n = a.cols (), k = a.rows (), l = d.length (); MT x (m, n); typedef typename DMT::element_type S; typedef typename MT::element_type T; const T *aa = a.data (); const S *dd = d.data (); T *xx = x.fortran_vec (); for (octave_idx_type j = 0; j < n; j++) { for (octave_idx_type i = 0; i < l; i++) xx[i] = dd[i] != S () ? aa[i] / dd[i] : T (); for (octave_idx_type i = l; i < m; i++) xx[i] = T (); aa += k; xx += m; } return x; } // Left division functions. // // op2 \ op1: m cm // +---+----+ // diag_matrix | 1 | 2 | // +---+----+ // complex_diag_matrix | | 3 | // +---+----+ // -*- 1 -*- Matrix xleftdiv (const DiagMatrix& a, const Matrix& b) { return dmm_leftdiv_impl (a, b); } // -*- 2 -*- ComplexMatrix xleftdiv (const DiagMatrix& a, const ComplexMatrix& b) { return dmm_leftdiv_impl (a, b); } // -*- 3 -*- ComplexMatrix xleftdiv (const ComplexDiagMatrix& a, const ComplexMatrix& b) { return dmm_leftdiv_impl (a, b); } // Left division functions, float type. // // op2 \ op1: m cm // +---+----+ // diag_matrix | 1 | 2 | // +---+----+ // complex_diag_matrix | | 3 | // +---+----+ // -*- 1 -*- FloatMatrix xleftdiv (const FloatDiagMatrix& a, const FloatMatrix& b) { return dmm_leftdiv_impl (a, b); } // -*- 2 -*- FloatComplexMatrix xleftdiv (const FloatDiagMatrix& a, const FloatComplexMatrix& b) { return dmm_leftdiv_impl (a, b); } // -*- 3 -*- FloatComplexMatrix xleftdiv (const FloatComplexDiagMatrix& a, const FloatComplexMatrix& b) { return dmm_leftdiv_impl (a, b); } // Diagonal by diagonal matrix division. template <class MT, class DMT> MT dmdm_div_impl (const MT& a, const DMT& d) { if (! mx_div_conform (a, d)) return MT (); octave_idx_type m = a.rows (), n = d.rows (), k = d.cols (); octave_idx_type l = std::min (m, n), lk = std::min (l, k); MT x (m, n); typedef typename DMT::element_type S; typedef typename MT::element_type T; const T *aa = a.data (); const S *dd = d.data (); T *xx = x.fortran_vec (); for (octave_idx_type i = 0; i < lk; i++) xx[i] = dd[i] != S () ? aa[i] / dd[i] : T (); for (octave_idx_type i = lk; i < l; i++) xx[i] = T (); return x; } // Right division functions. // // op2 / op1: dm cdm // +-- +---+----+ // diag_matrix | 1 | | // +---+----+ // complex_diag_matrix | 2 | 3 | // +---+----+ // -*- 1 -*- DiagMatrix xdiv (const DiagMatrix& a, const DiagMatrix& b) { return dmdm_div_impl (a, b); } // -*- 2 -*- ComplexDiagMatrix xdiv (const ComplexDiagMatrix& a, const DiagMatrix& b) { return dmdm_div_impl (a, b); } // -*- 3 -*- ComplexDiagMatrix xdiv (const ComplexDiagMatrix& a, const ComplexDiagMatrix& b) { return dmdm_div_impl (a, b); } // Right division functions, float type. // // op2 / op1: dm cdm // +-- +---+----+ // diag_matrix | 1 | | // +---+----+ // complex_diag_matrix | 2 | 3 | // +---+----+ // -*- 1 -*- FloatDiagMatrix xdiv (const FloatDiagMatrix& a, const FloatDiagMatrix& b) { return dmdm_div_impl (a, b); } // -*- 2 -*- FloatComplexDiagMatrix xdiv (const FloatComplexDiagMatrix& a, const FloatDiagMatrix& b) { return dmdm_div_impl (a, b); } // -*- 3 -*- FloatComplexDiagMatrix xdiv (const FloatComplexDiagMatrix& a, const FloatComplexDiagMatrix& b) { return dmdm_div_impl (a, b); } template <class MT, class DMT> MT dmdm_leftdiv_impl (const DMT& d, const MT& a) { if (! mx_leftdiv_conform (d, a, blas_no_trans)) return MT (); octave_idx_type m = d.cols (), n = a.cols (), k = d.rows (); octave_idx_type l = std::min (m, n), lk = std::min (l, k); MT x (m, n); typedef typename DMT::element_type S; typedef typename MT::element_type T; const T *aa = a.data (); const S *dd = d.data (); T *xx = x.fortran_vec (); for (octave_idx_type i = 0; i < lk; i++) xx[i] = dd[i] != S () ? aa[i] / dd[i] : T (); for (octave_idx_type i = lk; i < l; i++) xx[i] = T (); return x; } // Left division functions. // // op2 \ op1: dm cdm // +---+----+ // diag_matrix | 1 | 2 | // +---+----+ // complex_diag_matrix | | 3 | // +---+----+ // -*- 1 -*- DiagMatrix xleftdiv (const DiagMatrix& a, const DiagMatrix& b) { return dmdm_leftdiv_impl (a, b); } // -*- 2 -*- ComplexDiagMatrix xleftdiv (const DiagMatrix& a, const ComplexDiagMatrix& b) { return dmdm_leftdiv_impl (a, b); } // -*- 3 -*- ComplexDiagMatrix xleftdiv (const ComplexDiagMatrix& a, const ComplexDiagMatrix& b) { return dmdm_leftdiv_impl (a, b); } // Left division functions, float type. // // op2 \ op1: dm cdm // +---+----+ // diag_matrix | 1 | 2 | // +---+----+ // complex_diag_matrix | | 3 | // +---+----+ // -*- 1 -*- FloatDiagMatrix xleftdiv (const FloatDiagMatrix& a, const FloatDiagMatrix& b) { return dmdm_leftdiv_impl (a, b); } // -*- 2 -*- FloatComplexDiagMatrix xleftdiv (const FloatDiagMatrix& a, const FloatComplexDiagMatrix& b) { return dmdm_leftdiv_impl (a, b); } // -*- 3 -*- FloatComplexDiagMatrix xleftdiv (const FloatComplexDiagMatrix& a, const FloatComplexDiagMatrix& b) { return dmdm_leftdiv_impl (a, b); }