Contr gem1.f90
From CFD-Wiki
This subroutine make only output of all geometrical date. (it was be done in order to control all geometry)
Sample program for solving Smith-Hutton Test using different schemes of covective terms approximation - Geometry control modul
Copyright (C) 2005 Michail Kirichkov
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
Subroutine Control_gem
include 'icomm_1.f90'
Dimension F_out(nx,ny)
Character Filename*10
!----------------------------------------------------------------
NImax = NXmax
NJmax = NYmax
F_out = X
Filename ='X_ooo.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmax
NJmax = NYmax
F_out = Y
Filename ='Y_ooo.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Xp
Filename ='X_poo.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Yp
Filename ='Y_poo.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Del_X_xi
Filename ='DX_xi.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Del_Y_xi
Filename ='DY_xi.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Del_X_et
Filename ='DX_et.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Del_Y_et
Filename ='DY_et.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = X_et
Filename ='7X_et.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Y_et
Filename ='7Y_et.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = X_xi
Filename ='7X_xi.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
!----------------------------------------------------------------
NImax = NXmaxP
NJmax = NYmaxP
F_out = Y_xi
Filename ='7Y_xi.txt'
Call Out_array(F_out,NImax,NJmax,Filename)
!-------------------------------------------------------------------
Return
End
