Documenting the nodal connectivity

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eap 2016-06-22 15:45:22 +03:00
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@ -72,10 +72,9 @@ Attractive meshing capabilities include:
The \b structure of a SALOME mesh is described by nodes and elements based on The \b structure of a SALOME mesh is described by nodes and elements based on
these nodes. The geometry of an element is defined by the sequence of these nodes. The geometry of an element is defined by the sequence of
nodes constituting it and nodes constituting it and the \ref connectivity_page "connectivity convention"
the <a href="http://www.code-aster.org/outils/med/html/connectivites.html"> (adopted from MED library). Definition of the element basing on the elements
connectivity convention </a> (adopted from MED library). Definition of of a lower dimension is NOT supported.
the element basing on the elements of a lower dimension is NOT supported.
\anchor mesh_entities \anchor mesh_entities
The mesh can include the following entities: The mesh can include the following entities:
@ -89,8 +88,8 @@ The mesh can include the following entities:
<li>\b Volume &mdash; 3D mesh element representing a part of 3D <li>\b Volume &mdash; 3D mesh element representing a part of 3D
space bound by volume facets. Nodes of a volume describing each space bound by volume facets. Nodes of a volume describing each
facet are defined by facet are defined by
the <a href="http://www.code-aster.org/outils/med/html/connectivites.html"> the \subpage connectivity_page "connectivity convention".
MED connectivity convention.</a> A volume can be a tetrahedron, hexahedron, A volume can be a tetrahedron, hexahedron,
pentahedron, pyramid, hexagonal prism or polyhedron.</li> pentahedron, pyramid, hexagonal prism or polyhedron.</li>
<li>\b 0D element &mdash; mesh element defined by one node.</li> <li>\b 0D element &mdash; mesh element defined by one node.</li>
<li>\b Ball element &mdash; discrete mesh element defined by a <li>\b Ball element &mdash; discrete mesh element defined by a

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@ -22,8 +22,7 @@
The convention of nodal connectivity of elements used in SALOME is The convention of nodal connectivity of elements used in SALOME is
the MED library convention. You can consult the description of the MED library convention. You can consult the description of
nodal connectivity of elements in the documentation on MED library or nodal connectivity of elements in the documentation on MED library or
<a href="http://www.code-aster.org/outils/med/html/connectivites.html"> \ref connectivity_page "here".
here </a>.
<em>To add a node or an element to your mesh:</em> <em>To add a node or an element to your mesh:</em>
<ol> <ol>

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@ -17,8 +17,7 @@ side, it is a tri-quadratic element (or HEXA27).
The convention of nodal connectivity of elements used in SALOME is The convention of nodal connectivity of elements used in SALOME is
the MED library convention. You can consult the description of nodal the MED library convention. You can consult the description of nodal
connectivity of elements in the documentation on MED library or connectivity of elements in the documentation on MED library or
<a href="http://www.code-aster.org/outils/med/html/connectivites.html"> \ref connectivity_page "here".
here </a>.
There are several ways to create quadratic elements in your mesh: There are several ways to create quadratic elements in your mesh:
- manually (this way is described below); - manually (this way is described below);

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@ -0,0 +1,45 @@
/*!
\page connectivity_page Nodal connectivity of elements
The following images show order of nodes in correctly defined elements.
<table>
<tr><td> Edge (segment): linear and quadratic<br>
\image html connectivity_edge.png </td></tr>
<tr><td> Triangle: linear, quadratic and bi-quadratic <br>
\image html connectivity_tria.png </td></tr>
<tr><td> Quadrangle: linear, quadratic and bi-quadratic <br>
\image html connectivity_quad.png </td></tr>
<tr><td align="left"> Polygon: linear and quadratic <br>
\image html connectivity_polygon.png </td></tr>
<tr><td> Tetrahedron: linear and quadratic <br>
\image html connectivity_tetra.png </td></tr>
<tr><td> Hexahedron: linear, quadratic and tri-quadratic <br>
\image html connectivity_hexa.png </td></tr>
<tr><td> Pentahedron: linear and quadratic <br>
\image html connectivity_penta.png </td></tr>
<tr><td> Pyramid: linear and quadratic <br>
\image html connectivity_pyramid.png </td></tr>
<tr><td> Hexagonal prism <br>
\image html connectivity_hex_prism.png </td></tr>
<tr><td> Polyhedron is defined by <ul>
<li> a sequence of nodes defining all facets</li>
<li> a sequence of number of nodes per facet</li>
</ul>
\b Nodes: <br>
Node1_of_Facet1, Node2_of_Facet1, ..., NodeN_of_Facet1, <br>
Node1_of_Facet2, Node2_of_Facet2, ..., NodeN_of_Facet2, <br>
Node1_of_FacetM, Node2_of_FacetM, ..., NodeN_of_FacetM <br>
\b Quantity of nodes per facet: <br>
NbNodes_in_Facet1, NbNodes_in_Facet2, ..., NbNodes_in_FacetM
For example the polyhedron shown in the image below is defined by nodes <br>
[ 1,2,3, 1,4,5,2, 2,5,6,3, 3,6,4,1, 4,7,9,5, 5,9,8,6, 6,8,7,4, 7,8,9 ]<br>
and quantities [ 3, 4, 4, 4, 4, 4, 4, 3 ]
\image html connectivity_polyhedron.png
Order of nodes of a facet must assure outward direction of its normal.
</td></tr>
</table>
*/