Mercurial > octave-nkf
view scripts/plot/draw/private/__interp_cube__.m @ 19734:00e31f316a3a
Fix Matlab incompatibility of "ismatrix" (bug #42422).
* data.cc (isvector): new tests
* data.cc (isrow): documentation improved, new tests
* data.cc (iscolumn): documentation improved, new tests
* data.cc (ismatrix): is matrix now only checks the dimension due to Matlab
compatibility, documentation improved, new tests
* accumarray.m: use more appropriate function, than ismatrix
* gradient.m: use more appropriate function, than ismatrix
* num2str.m: use more appropriate functions, than ismatrix
* ntsc2rgb.m: use more appropriate function, than ismatrix
* condest.m: use more appropriate function, than ismatrix
* expm.m: use more appropriate function, than ismatrix
* onenormest.m: use more appropriate function, than ismatrix
* isocolors.m: use more appropriate function, than ismatrix
* isonormals.m: use more appropriate function, than ismatrix
* isosurface.m: use more appropriate function, than ismatrix
* __errcomm__.m: use more appropriate function, than ismatrix
* __interp_cube__.m: use more appropriate function, than ismatrix
* __marching_cube__.m: use more appropriate function, than ismatrix
* __stem__.m: use more appropriate function, than ismatrix
* stairs.m: use more appropriate function, than ismatrix
* validsetargs.m: use more appropriate functions, than ismatrix
* unique.m: use more appropriate functions, than ismatrix
* bicg.m: additional tests for numerical value
* bicgstab.m: additional tests for numerical value
* cgs.m: additional tests for numerical value
* gmres.m: additional tests for numerical value
* qmr.m: additional tests for numerical value
| author | Kai T. Ohlhus <k.ohlhus@gmail.com> |
|---|---|
| date | Thu, 12 Feb 2015 18:34:56 +0100 |
| parents | 4197fc428c7d |
| children | 9fc020886ae9 |
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## Copyright (C) 2009-2015 Martin Helm ## ## 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/>. ## ## Author: Martin Helm <martin@mhelm.de> ## -*- texinfo -*- ## @deftypefn {Function File} {[@var{vxyz}, @var{idx}, @var{frac}] =} __interp_cube__ (@var{x}, @var{y}, @var{z}, @var{val}, @var{v}) ## Undocumented internal function. ## @end deftypefn function [Vxyz, idx, frac] = __interp_cube__ (x, y, z, val, v, req = "values" ) if (isnumeric (x) && ndims (x) == 3 && isnumeric (y) && ndims (y) == 3 && isnumeric (z) && ndims (z) == 3 && size_equal (x, y, z, val)) x = squeeze (x(1,:,1))(:); y = squeeze (y(:,1,1))(:); z = squeeze (z(1,1,:))(:); elseif (isvector (x) && isvector (y) && isvector (z)) x = x(:); y = y(:); z = z(:); else error ("__interp_cube__: X, Y, Z have wrong dimensions"); endif if (size (val) != [length(x), length(y), length(z)]) error ("__interp_cube__: VAL has wrong dimensions"); endif if (columns (v) != 3) error ( "V has to be Nx3 matrix"); endif ##if (!ischar (req)) ## error ('__interp_cube__: Invalid request parameter use "values", "normals" or "normals8"'); ##endif if (isempty (v)) Vxyz = idx = frac = []; return; endif switch (req) case "normals" [idx, frac] = cube_idx (x, y, z, v); dx = x(2:end) - x(1:end-1); dy = y(2:end) - y(1:end-1); dz = z(2:end) - z(1:end-1); dx = 0.5 .* [dx;dx(end)](idx(:,2)); dy = 0.5 .* [dy;dy(end)](idx(:,1)); dz = 0.5 .* [dz;dz(end)](idx(:,3)); p000 = [v(:, 1) - dx, v(:, 2) - dy, v(:, 3) - dz]; p100 = [v(:, 1) + dx, v(:, 2) - dy, v(:, 3) - dz]; p010 = [v(:, 1) - dx, v(:, 2) + dy, v(:, 3) - dz]; p001 = [v(:, 1) - dx, v(:, 2) - dy, v(:, 3) + dz]; p011 = [v(:, 1) - dx, v(:, 2) + dy, v(:, 3) + dz]; p101 = [v(:, 1) + dx, v(:, 2) - dy, v(:, 3) + dz]; p110 = [v(:, 1) + dx, v(:, 2) + dy, v(:, 3) - dz]; p111 = [v(:, 1) + dx, v(:, 2) + dy, v(:, 3) + dz]; v000 = interp_cube_trilin (x, y, z, val, p000); v100 = interp_cube_trilin (x, y, z, val, p100); v010 = interp_cube_trilin (x, y, z, val, p010); v001 = interp_cube_trilin (x, y, z, val, p001); v011 = interp_cube_trilin (x, y, z, val, p011); v101 = interp_cube_trilin (x, y, z, val, p101); v110 = interp_cube_trilin (x, y, z, val, p110); v111 = interp_cube_trilin (x, y, z, val, p111); Dx = -v000 .+ v100 .- v010 .- v001 .- v011 .+ v101 .+ v110 .+ v111; Dy = -v000 .- v100 .+ v010 .- v001 .+ v011 .- v101 .+ v110 .+ v111; Dz = -v000 .- v100 .- v010 .+ v001 .+ v011 .+ v101 .- v110 .+ v111; Vxyz = 0.5 .* [Dx./dx, Dy./dy, Dz./dz]; case "normals8" [idx, frac] = cube_idx (x, y, z, v); dx = x(2:end) - x(1:end-1); dy = y(2:end) - y(1:end-1); dz = z(2:end) - z(1:end-1); dx = [dx;dx(end)](idx(:,2)); dy = [dy;dy(end)](idx(:,1)); dz = [dz;dz(end)](idx(:,3)); [Dx, Dy, Dz, idx, frac] = interp_cube_trilin_grad (x, y, z, val, v); Vxyz = [Dx./dx, Dy./dy, Dz./dz]; case "values" [Vxyz, idx, frac] = interp_cube_trilin (x, y, z, val, v); otherwise error ('__interp_cube__: Invalid request type "%s", use "values", "normals" or "normals8"', req); endswitch endfunction function [Vxyz, idx, frac] = interp_cube_trilin (x, y, z, val, v) [idx, frac] = cube_idx (x(:), y(:), z(:), v); sval = size (val); i000 = sub2ind (sval, idx(:, 1), idx(:, 2), idx(:, 3)); i100 = sub2ind (sval, idx(:, 1)+1, idx(:, 2), idx(:, 3)); i010 = sub2ind (sval, idx(:, 1), idx(:, 2)+1, idx(:, 3)); i001 = sub2ind (sval, idx(:, 1), idx(:, 2), idx(:, 3)+1); i101 = sub2ind (sval, idx(:, 1)+1, idx(:, 2), idx(:, 3)+1); i011 = sub2ind (sval, idx(:, 1), idx(:, 2)+1, idx(:, 3)+1); i110 = sub2ind (sval, idx(:, 1)+1, idx(:, 2)+1, idx(:, 3)); i111 = sub2ind (sval, idx(:, 1)+1, idx(:, 2)+1, idx(:, 3)+1 ); Bx = frac(:, 1); By = frac(:, 2); Bz = frac(:, 3); Vxyz = ... val( i000 ) .* (1 .- Bx) .* (1 .- By) .* (1 .- Bz) .+ ... val( i100 ) .* Bx .* (1 .- By) .* (1 .- Bz) .+ ... val( i010 ) .* (1 .- Bx) .* By .* (1 .- Bz) .+ ... val( i001 ) .* (1 .- Bx) .* (1 .- By) .* Bz .+ ... val( i011 ) .* (1 .- Bx) .* By .* Bz .+ ... val( i101 ) .* Bx .* (1 .- By) .* Bz .+ ... val( i110 ) .* Bx .* By .* (1 .- Bz) .+ ... val( i111 ) .* Bx .* By .* Bz; endfunction function [Dx, Dy, Dz, idx, frac] = interp_cube_trilin_grad (x, y, z, val, v) [idx, frac] = cube_idx (x(:), y(:), z(:), v); sval = size (val); i000 = sub2ind (sval, idx(:, 1), idx(:, 2), idx(:, 3)); i100 = sub2ind (sval, idx(:, 1)+1, idx(:, 2), idx(:, 3)); i010 = sub2ind (sval, idx(:, 1), idx(:, 2)+1, idx(:, 3)); i001 = sub2ind (sval, idx(:, 1), idx(:, 2), idx(:, 3)+1); i101 = sub2ind (sval, idx(:, 1)+1, idx(:, 2), idx(:, 3)+1); i011 = sub2ind (sval, idx(:, 1), idx(:, 2)+1, idx(:, 3)+1); i110 = sub2ind (sval, idx(:, 1)+1, idx(:, 2)+1, idx(:, 3)); i111 = sub2ind (sval, idx(:, 1)+1, idx(:, 2)+1, idx(:, 3)+1 ); Bx = frac(:, 1); By = frac(:, 2); Bz = frac(:, 3); Dx = ... val( i000 ) .* -1 .* (1 .- By) .* (1 .- Bz) .+ ... val( i100 ) .* (1 .- By) .* (1 .- Bz) .+ ... val( i010 ) .* -1 .* By .* (1 .- Bz) .+ ... val( i001 ) .* -1 .* (1 .- By) .* Bz .+ ... val( i011 ) .* -1 .* By .* Bz .+ ... val( i101 ) .* (1 .- By) .* Bz .+ ... val( i110 ) .* By .* (1 .- Bz) .+ ... val( i111 ) .* By .* Bz; Dy = ... val( i000 ) .* (1 .- Bx) .* -1 .* (1 .- Bz) .+ ... val( i100 ) .* Bx .* -1 .* (1 .- Bz) .+ ... val( i010 ) .* (1 .- Bx) .* (1 .- Bz) .+ ... val( i001 ) .* (1 .- Bx) .* -1 .* Bz .+ ... val( i011 ) .* (1 .- Bx) .* Bz .+ ... val( i101 ) .* Bx .* -1 .* Bz .+ ... val( i110 ) .* Bx .* (1 .- Bz) .+ ... val( i111 ) .* Bx .* Bz; Dz = ... val( i000 ) .* (1 .- Bx) .* (1 .- By) .* -1 .+ ... val( i100 ) .* Bx .* (1 .- By) .* -1 .+ ... val( i010 ) .* (1 .- Bx) .* By .* -1 .+ ... val( i001 ) .* (1 .- Bx) .* (1 .- By) .+ ... val( i011 ) .* (1 .- Bx) .* By + ... val( i101 ) .* Bx .* (1 .- By) .+ ... val( i110 ) .* Bx .* By .* -1 .+ ... val( i111 ) .* Bx .* By; endfunction function [idx, frac] = cube_idx (x, y, z, v) idx = zeros (size (v)); frac = zeros (size (v)); idx(:, 2) = lookup (x(2:end-1), v(:, 1)) + 1; frac(:, 2) = (v(:, 1) - x(idx(:, 2)) )... ./ (x(idx(:, 2)+1) - x(idx(:, 2))); idx(:, 1) = lookup (y(2:end-1), v(:, 2)) + 1; frac(:, 1) = (v(:, 2) - y(idx(:, 1))) ... ./ (y(idx(:, 1)+1) - y(idx(:, 1))); idx(:, 3) = lookup (z(2:end-1), v(:, 3)) + 1; frac(:, 3) = (v(:, 3) - z(idx(:, 3))) ... ./ (z(idx(:, 3)+1) - z(idx(:, 3))); endfunction