VECFEM3 Reference Manual: vemens

Type: FORTRAN routine

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NAME

vemens - creates EnSight geometry file

SYNOPSIS

CALL VEMENS(
NAME, LIVEM, IVEM, LNEK, NEK, LRPARM, RPARM, LIPARM, IPARM, LDNOD, DNOD, LRDPRM, RDPARM, LIDPRM, IDPARM, LNODN, NODNUM, LNOD, NOD, LNOPRM, NOPARM, LBIG, RBIG, IBIG)
INTEGER
LIVEM, LNEK, LRPARM, LIPARM, LDNOD, LRDPRM, LIDPRM, LNODN, LNOPRM, LBIG
CHARACTER*80
NAME
INTEGER
IVEM(LIVEM), NEK(LNEK), IPARM(LIPARM), DNOD(LDNOD), IDPARM(LIDPRM), NODNUM(LNODN), IBIG(*)
DOUBLE PRECISION
RPARM(LRPARM), RDPARM(LRDPRM), NOD(LDNOD), NOPARM(LNOPRM), RBIG(LBIG)

PURPOSE

EnSight is a program package for the postprocessing of the FEM results. The geometrical mesh and solutions can be plotted. The data are handed over via special files. vemens writes the geometrical nodes to EnSight geometry file. The solution is handed over to EnSight by the variable file, which is created by veen97. To read the geometry files and variable files into EnSight a result file has to be created, see [EnSight]. vemdis has to be called before the first call of vemens.

ARGUMENTS

NAME character*80, scalar, input, local
First description line
LIVEM integer, scalar, input, local
Length of the integer information vector, LIVEM>= MESH+ NINFO.
IVEM integer, array: IVEM(LIVEM), input/output, local/global
Integer information vector.
(1)=MESH, input, local
Start address of the mesh informations in IVEM, MESH>203+ NPROC.
(2)=ERR, output, global
Error number.
0program terminated without error.
90LBIG is too small.
99fatal error.
(5)=NIVEM, output, local
Used length of IVEM.
(120)=LOUT, input, local
Unit number of the standard output file, normally 6.
(121)=OUTCNT, input, local
Output control flag, normally 1.
0only error messages are printed.
>0a protocol is printed.
(125), input, local
Unit of the node coordinate file.
(200)=NPROC, input, global
Number of processes, see combgn.
(201)=MYPROC, input, local
Logical process id number, see combgn.
(202)=NMSG, input/output, global
Message counter. The difference of the input and the output values gives the number of communications during the vemens call.
(204)=TIDS(1), input, global
Begin of the list TIDS which defines the mapping of the logical process ids to the physical process ids. See combgn.
(MESH), input, local
Start of mesh informations, see mesh.
LNEK integer, scalar, input, local
Length of the element array.
NEK integer, array: NEK(LNEK), input, local
Array of the elements, see mesh.
LRPARM integer, scalar, input, local
Length of the real parameter array.
RPARM double precision, array: RPARM(LRPARM), input, local
Real parameter array, see mesh.
LIPARM integer, scalar, input, local
Length of the integer parameter array.
IPARM integer, array: IPARM(LIPARM), input, local
Integer parameter array, see mesh.
LDNOD integer, scalar, input, local
Length of the array of the Dirichlet nodes.
DNOD integer, array: DNOD(LDNOD), input, local
Array of the Dirichlet nodes, see mesh.
LRDPRM integer, scalar, input, local
Length of the real Dirichlet parameter array.
RDPARM double precision, array: RDPARM(LRDPRM), input, local
Array of the real Dirichlet parameters, see mesh.
LIDPRM integer, scalar, input, local
Length of the integer Dirichlet parameter array.
IDPARM integer, array: IDPARM(LIDPRM), input, local
Array of the integer Dirichlet parameters, see mesh.
LNODN integer, scalar, input, local
Length of the array of the id numbers of the geometrical nodes.
NODNUM integer, array: NODNUM(LNODN), input, local
Array of the id numbers of the geometrical nodes, see mesh.
LNOD integer, scalar, input, local
Length of the array of the coordinates of the geometrical nodes.
NOD double precision, array: NOD(LNOD), input, local
Array of the coordinates of the geometrical nodes, see mesh.
LNOPRM integer, scalar, input, local
Length of the array of the node parameters.
NOPARM double precision, array: NOPARM(LNOPRM), input, local
Array of the node parameters, see mesh.
LBIG integer, scalar, input, local
Length of the real work array. The needed length of LBIG depends on the given mesh. A minimal length of LBIG cannot be given. It should be as large as possible.
RBIG double precision, array: RBIG(LBIG), work array, local
Real work array.
IBIG integer, array: IBIG(*), work array, local
Integer work array, RBIG and IBIG have to be defined by the EQUIVALENCE statement.

EXAMPLE

See vemexamples.

METHOD

vemens writes the files on the first process only. vemens writes only the hexahedron, tetrahedron, quadrilateral and triangle elements of order 1 and order 2. Elements, which are not allowed in EnSight are skipped. The EnSight parts are defined by the groups. If DIM=3, vemens writes the x-,y- and z-coordinates from the array NOD (if DIM=2 or DIM=1, missing coordinates are filled by zeroes). Only node coordintes are written which are referred by allowed elements.

REFERENCES

[FAQ], [DATAMAN], [DATAMAN2], [EnSight], [P_MPI].

SEE ALSO

VECFEM, vemcompile, vemrun, vemhint, mesh, vemexamples, vemdis, veen97.

COPYRIGHTS

Program by L. Grosz, 1994-1996. Copyrights by Universitaet Karlsruhe 1989-1996. Copyrights by Lutz Grosz 1996. All rights reserved. More details see VECFEM.

by L. Grosz, Auckland , 11. June, 2000.