From: Anthony Geay Date: Tue, 29 Oct 2019 15:41:27 +0000 (+0100) Subject: Thanks to Kanglong X-Git-Tag: V9_4_0rc1~1 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=refs%2Fheads%2Fagy%2Fdoc_fix_0;p=tools%2Fmedcoupling.git Thanks to Kanglong --- diff --git a/doc/developer/doxygen/doxfiles/reference/interpolation/intersec-specifics.dox b/doc/developer/doxygen/doxfiles/reference/interpolation/intersec-specifics.dox index 01336e883..498a7f3cb 100644 --- a/doc/developer/doxygen/doxfiles/reference/interpolation/intersec-specifics.dox +++ b/doc/developer/doxygen/doxfiles/reference/interpolation/intersec-specifics.dox @@ -82,15 +82,15 @@ between polyhedral cells are to be computed. Two methods are available : - Triangulation : the method of Jeffrey Grandy, 1999 (see \ref references) to intersect arbitrary polyhedra. The basic algorithm computes the -intersection of a tetrahedron with an arbitrary (possibly non convex) -polyhedron. Using splitting techniques, it is possible to transform +intersection of a target tetrahedron with an arbitrary (possibly non convex) +source polyhedron. Using splitting techniques, it is possible to transform the problem of computing the intersection between two general polyhedra into several tetrahedron-polyhedron intersection -calculations. For the moment it is only possible to remap fields on -meshes having mixed tetrahedral and hexahedral cells. When using a -mesh with hexahedral cells, several splitting techniques may be -employed depending mainly on whether the faces are planar or not. The -following options are available for the splitting: +calculations. The target polyhedron cell splitting into subtetrahedral cell operation +is performed upstream. For hexahedral target cells, the splitting can be parametrized +using SplittingPolicy option. This SplittingPolicy policy allows you to choose among +different split pattern mainly whether the faces of hexahedral are planar or not. +The following options are available for the splitting: - PointLocator : \b non \b conservative intersector based on the same principle than described in 2D.