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[Getfem-commits] (no subject)

From: Yves Renard
Subject: [Getfem-commits] (no subject)
Date: Wed, 30 May 2018 08:22:36 -0400 (EDT) 
branch: master
commit 350bab4ddc51034b1bf818f1c46c9c44a9de03a1
Author: Yves Renard <address@hidden>
Date:   Wed May 30 14:20:10 2018 +0200

    minor correction
---
 doc/sphinx/source/.templates/indexcontent.html | 5 +++--
 1 file changed, 3 insertions(+), 2 deletions(-)

diff --git a/doc/sphinx/source/.templates/indexcontent.html 
b/doc/sphinx/source/.templates/indexcontent.html
index 6839ed6..305f01c 100644
--- a/doc/sphinx/source/.templates/indexcontent.html
+++ b/doc/sphinx/source/.templates/indexcontent.html
@@ -98,7 +98,7 @@
       <li> A large set of predefined integration methods.  </li>
       <li> Structural mechanics terms (elasticity, contact with friction, 
plasticity ...) </li>
       <li> Level-set and finite element cut by one or several level-set (Xfem) 
</li>
-      <li> Computation of terms between to meshes with an arbitrary 
transformation: this is a very powerful tool of the generic assembly that 
allows to use a parameterized transformation. The derivative of the 
transformation with respect to the potential dependance with respect of the 
variables is taken into account. Possible use : contact problems, 
fluid-structure interaction, special boundary conditions ... </li>
+      <li> Computation of terms between two meshes with an arbitrary 
transformation: this is a very powerful tool of the generic assembly that 
allows to use a parameterized transformation. The derivative of the 
transformation with respect to the potential dependance in the variables is 
taken into account. Possible use : contact problems, fluid-structure 
interaction, special boundary conditions ... </li>
       <li> Post-processing directly with Scilab or Matlab interfaces or with 
the export of vtk or gmsh files. Many possibility to interpolate arbitrary 
quantities, make slices, projections ... </li>
     </ul>
 
@@ -106,7 +106,8 @@
     GetFEM++ can be used to construct very generic finite element codes,
     where finite element methods, integration methods and the dimension
     of the problem are the parameters that can be 
-    changed very easily. This allows a wide range of experiments. Many 
examples and demos are provided.
+    changed very easily. This allows a wide range of experiments.
+    Many examples and demos are provided.
     </p>
     
     <p>
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