1 --- VTK-8.2.0/Utilities/Doxygen/doc_version.pl.orig 2019-01-30 18:15:13.000000000 +0100
2 +++ VTK-8.2.0/Utilities/Doxygen/doc_version.pl 2021-01-08 17:01:33.913860627 +0100
4 if exists $args{"logo"} && -f $args{"logo"};
8 - " VTK is an open-source software system for image processing, 3D \n"
9 - " graphics, volume rendering and visualization. VTK includes many \n"
10 - " advanced algorithms (e.g., surface reconstruction, implicit modelling, \n"
11 - " decimation) and rendering techniques (e.g., hardware-accelerated \n"
12 - " volume rendering, LOD control).\n"
14 - " VTK is used by academicians for teaching and research; by government \n"
15 - " research institutions such as Los Alamos National Lab in the US or \n"
16 - " CINECA in Italy; and by many commercial firms who use VTK to build or \n"
17 - " extend products. \n"
19 - " The origin of VTK is with the textbook \"The Visualization Toolkit, an \n"
20 - " Object-Oriented Approach to 3D Graphics\" originally published by \n"
21 - " Prentice Hall and now published by Kitware, Inc. (Third Edition ISBN \n"
22 - " 1-930934-07-6). VTK has grown (since its initial release in 1994) to a \n"
23 - " world-wide user base in the commercial, academic, and research \n"
26 + " VTK is an open-source software system for image processing, 3D \n",
27 + " graphics, volume rendering and visualization. VTK includes many \n",
28 + " advanced algorithms (e.g., surface reconstruction, implicit modelling, \n",
29 + " decimation) and rendering techniques (e.g., hardware-accelerated \n",
30 + " volume rendering, LOD control).\n",
32 + " VTK is used by academicians for teaching and research; by government \n",
33 + " research institutions such as Los Alamos National Lab in the US or \n",
34 + " CINECA in Italy; and by many commercial firms who use VTK to build or \n",
35 + " extend products. \n",
37 + " The origin of VTK is with the textbook \"The Visualization Toolkit, an \n",
38 + " Object-Oriented Approach to 3D Graphics\" originally published by \n",
39 + " Prentice Hall and now published by Kitware, Inc. (Third Edition ISBN \n",
40 + " 1-930934-07-6). VTK has grown (since its initial release in 1994) to a \n",
41 + " world-wide user base in the commercial, academic, and research \n",
43 " \@par Useful links:\n",
44 " \@li VTK Home: http://www.vtk.org\n",
45 " \@li VTK Source: https://gitlab.kitware.com/vtk/vtk\n",
47 " \@li VTK FAQ: http://www.vtk.org/Wiki/VTK_FAQ\n",
48 " \@li VTK Wiki: http://www.vtk.org/Wiki/\n",
49 " \@li VTK Dashboard: http://www.cdash.org/CDash/index.php?project=VTK\n",
50 - " \@li Commercial <a href=\"https://www.kitware.com/products/support.html\">support</a> "
51 - " and <a href=\"http://www.kitware.com/products/protraining.php\">training<\a> "
52 + " \@li Commercial <a href=\"https://www.kitware.com/products/support.html\">support</a> ",
53 + " and <a href=\"http://www.kitware.com/products/protraining.php\">training<\a> ",
54 " are available from Kitware\n",
57 --- VTK-8.2.0/Utilities/Doxygen/doxyfile.in.orig 2019-01-30 18:15:13.000000000 +0100
58 +++ VTK-8.2.0/Utilities/Doxygen/doxyfile.in 2021-01-09 21:30:25.895589327 +0100
60 COLS_IN_ALPHA_INDEX = 3
63 +EXTRA_PACKAGES = amstext
64 ENABLE_PREPROCESSING = YES
67 --- VTK-8.2.0/Filters/General/vtkCurvatures.h.orig 2019-01-30 18:15:13.000000000 +0100
68 +++ VTK-8.2.0/Filters/General/vtkCurvatures.h 2021-01-10 16:44:11.212483671 +0100
72 * discrete Gauss curvature (K) computation,
73 - * \f$K(\text{vertex v}) = 2*\pi - \sum_{\text{facet neighbs f of v}} (\text{angle_f at v})\f$.
74 + * \f$K(\text{vertex v}) = 2*\pi - \sum_{\text{facet neighbs f of v}} (\text{angle\_f at v})\f$.
75 * The contribution of every facet is for the moment weighted by \f$Area(facet)/3\f$.
76 * The units of Gaussian Curvature are \f$[1/m^2]\f$.
79 * the computation creates the orientation.
80 * The units of Mean Curvature are [1/m].
82 - * Maximum (\f$k_\max\f$) and Minimum (\f$k_\min\f$) Principal Curvatures
83 - * \f$k_\max = H + \sqrt{H^2 - K}\f$,
84 - * \f$k_\min = H - \sqrt{H^2 - K}\f$
85 + * Maximum (\f$k_{max}\f$) and Minimum (\f$k_{min}\f$) Principal Curvatures
86 + * \f$k_{max} = H + \sqrt{H^2 - K}\f$,
87 + * \f$k_{min} = H - \sqrt{H^2 - K}\f$
88 * Excepting spherical and planar surfaces which have equal principal
89 * curvatures, the curvature at a point on a surface varies with the direction
90 * one "sets off" from the point. For all directions, the curvature will pass
91 - * through two extrema: a minimum (\f$k_\min\f$) and a maximum (\f$k_\max\f$)
92 + * through two extrema: a minimum (\f$k_{min}\f$) and a maximum (\f$k_{max}\f$)
93 * which occur at mutually orthogonal directions to each other.
95 * NB. The sign of the Gauss curvature is a geometric invariant, it should be
97 void GetMeanCurvature(vtkPolyData *output);
100 - * Maximum principal curvature \f$k_max = H + sqrt(H^2 -K)\f$
101 + * Maximum principal curvature \f$k_{max} = H + sqrt(H^2 -K)\f$
103 void GetMaximumCurvature(vtkPolyData *input, vtkPolyData *output);
106 - * Minimum principal curvature \f$k_min = H - sqrt(H^2 -K)\f$
107 + * Minimum principal curvature \f$k_{min} = H - sqrt(H^2 -K)\f$
109 void GetMinimumCurvature(vtkPolyData *input, vtkPolyData *output);