From: Wolfgang Bangerth Date: Sun, 15 Jan 2006 00:41:50 +0000 (+0000) Subject: Doxygen's formula mechanism doesn't really work all that well yet... X-Git-Tag: v8.0.0~12632 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=8b215fe3a50289c05c5fbb4b89e4fd060d8c2941;p=dealii.git Doxygen's formula mechanism doesn't really work all that well yet... git-svn-id: https://svn.dealii.org/trunk@12032 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/doc/doxygen/headers/fe.h b/deal.II/doc/doxygen/headers/fe.h index c1f5140bfd..6db1fdeec8 100644 --- a/deal.II/doc/doxygen/headers/fe.h +++ b/deal.II/doc/doxygen/headers/fe.h @@ -68,19 +68,19 @@ * The classes in this module are used when one wants to assemble matrices or * vectors. They link finite elements, quadrature objects, and mappins: the * finite element classes describes a finite element space on a unit cell - * (i.e. the unit line segment, square, or cube @f$[0,1]^d@f$), the quadrature - * classes describe where quadrature points are located and what weight they - * have, and the mapping classes describe how to map a point from the unit - * cell to a real cell and back. Since integration happens at quadrature - * points on the real cell, and needs to know their location as well as the - * values and gradients of finite element shape functions at these points. The - * FEValues class coordinates getting this information. For integrations on - * faces (for example for integration on the boundary, or interfaces between - * cells), the FEFaceValues class offers similar functionality as the FEValues - * class does for cells. Finally, the FESubfaceValues class offers the - * possibility to ingrate on parts of faces if the neighboring cell is refined - * and the present cell shares only a part of its face with the neighboring - * cell. + * (i.e. the unit line segment, square, or cube [0,1]^d), the + * quadrature classes describe where quadrature points are located and what + * weight they have, and the mapping classes describe how to map a point from + * the unit cell to a real cell and back. Since integration happens at + * quadrature points on the real cell, and needs to know their location as + * well as the values and gradients of finite element shape functions at these + * points. The FEValues class coordinates getting this information. For + * integrations on faces (for example for integration on the boundary, or + * interfaces between cells), the FEFaceValues class offers similar + * functionality as the FEValues class does for cells. Finally, the + * FESubfaceValues class offers the possibility to ingrate on parts of faces + * if the neighboring cell is refined and the present cell shares only a part + * of its face with the neighboring cell. * * The last member of this group, the UpdateFlags enumeration, is used as an * optimization: instead of letting the FEValues class compute every possible