NAME

       mkgeo_ugrid - unstructured mesh of a parallelepiped (rheolef-7.1)

SYNOPSIS

       mkgeo_ugrid [options] n

EXAMPLE

           mkgeo_ugrid -t 10 > square-10.geo
           geo square-10.geo

       The previous command build a triangle based 2d unstructured mesh of the unit square:

DESCRIPTION

       This command is useful when testing programs on simple geometries. Invocation is similar
       to those of mkgeo_grid(1) . It callsg gmsh as unstructured mesh generator. It avoid the
       preparation of an input file for a mesh generator. The optional n argument is an integer
       that specifies the subdivision in each direction. By default n=10. The mesh files goes on
       standard output.

       The command supports all the possible element types: edges, triangles, rectangles,
       tetrahedra, prisms and hexahedra. It supports also mixed 2D with triangles and
       quadrangles:

           mkgeo_ugrid -tq 10 | geo -

       and mixed 3D with tetraedra, prisms and/or hexahedra:

           mkgeo_ugrid -TP  10 | geo -paraview -
           mkgeo_ugrid -PH  10 | geo -paraview -
           mkgeo_ugrid -TPH 10 | geo -paraview -

ELEMENT TYPE OPTION

       -e

           1d mesh using edges.

       -t

           2d mesh using triangles.

       -q

           2d mesh using quadrangles (rectangles).

       -T

           3d mesh using tetrahedra.

       -P

           3d mesh using prisms.

       -H

           3d mesh using hexahedra.

       -tq

           2d mesh using both triangles and quadrangles.

       -TP
       -PH
       -TPH

           3d mixed mesh combining tetrahedra, prisms and/or hexahedra.

THE GEOMETRY

       -a float
       -b float
       -c float
       -d float
       -f float
       -g float

           The geometry can be any [a,b] segment, [a,b]x[c,d] rectangle or [a,b]x[c,d]x[f,g]
           parallelepiped. By default a=c=f=0 and b=d=g=1, thus, the unit boxes are considered.

BOUNDARY DOMAINS

       -[no]sides

           The boundary sides are represented by domains: left, right, top, bottom, front and
           back.

       -[no]boundary

           This option defines a domain named boundary that groups all sides.

REGIONS

       -[no]region

           The whole domain is split into two subdomains: east and west. Also, the separating
           domain is named interface in the mesh. This option is used for testing computations
           with subdomains (e.g. transmission problem; see usersguide ).

CORNERS

       -[no]corner

           The corners (four in 2D and eight in 3D) are defined as OD-domains. This could be
           useful for some special boundary conditions.

COORDINATE SYSTEM OPTIONS

       -cartesian
       -rz
       -zr

           Specifies the coordinate system. The default is cartesian while -rz and -zr denotes
           some axisymmetric coordinate systems. Recall that most of Rheolef codes are
           coordinate-system independent and the coordinate system is specified in the geometry
           file .geo.

THE MESH ORDER

       This option is related to curved boundaries. Since boundaries are here flat, this option
       has no practical effect and is provided for test purpose only.

       -order int

           The polynomial approximation mesh order, as defined by gmsh. This option enable a
           possible curved boundary, when applying a suitable nonlinear transformation to the
           mesh. Default is order=1.

IMPLEMENTATION

       This documentation has been generated from file main/sbin/mkgeo_ugrid.sh

AUTHOR

       Pierre  Saramito  <Pierre.Saramito@imag.fr>

COPYRIGHT

       Copyright   (C)  2000-2018  Pierre  Saramito  <Pierre.Saramito@imag.fr> GPLv3+: GNU GPL
       version 3 or later  <http://gnu.org/licenses/gpl.html>.  This  is  free  software:  you
       are free to change and redistribute it.  There is NO WARRANTY, to the extent permitted by
       law.