/usr/share/code_saturne/user/ushist.f90 is in code-saturne-data 3.3.2-4.
This file is owned by root:root, with mode 0o644.
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! Code_Saturne version 3.3.2
! --------------------------
! This file is part of Code_Saturne, a general-purpose CFD tool.
!
! Copyright (C) 1998-2014 EDF S.A.
!
! 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 ushist &
!================
( nvar , nscal , &
dt )
!===============================================================================
! Purpose:
! -------
! User subroutine.
! Non-standard monitoring point definition.
!-------------------------------------------------------------------------------
! Arguments
!__________________.____._____.________________________________________________.
! name !type!mode ! role !
!__________________!____!_____!________________________________________________!
! nvar ! i ! <-- ! total number of variables !
! nscal ! i ! <-- ! total number of scalars !
! dt(ncelet) ! ra ! <-- ! time step (per cell) !
!__________________!____!_____!________________________________________________!
! Type: i (integer), r (real), s (string), a (array), l (logical),
! and composite types (ex: ra real array)
! mode: <-- input, --> output, <-> modifies data, --- work array
!===============================================================================
!===============================================================================
! Module files
!===============================================================================
use paramx
use pointe
use numvar
use optcal
use cstphy
use entsor
use parall
use period
use mesh
use field
!===============================================================================
implicit none
! Arguments
integer nvar , nscal
double precision dt(ncelet)
! Local variables
integer ii, kk, node, ndrang, nvarpp, numcel, lng
double precision xx, yy, zz, xyztmp(3)
double precision, dimension(:), pointer :: cvar_var
! Monitoring points number (lower than a maximum of 100)
integer ncapmx
parameter (ncapmx=100)
integer icapt(ncapmx)
save icapt
integer ircapt(ncapmx)
save ircapt
! Number of monitoring points
integer ncapts
save ncapts
! Current pass number
integer ipass
data ipass /0/
save ipass
! Temporary array
double precision vacapt(ncapmx)
!===============================================================================
!===============================================================================
! 1. Initialization
!===============================================================================
! Memory management
! Current pass number in this subroutine
ipass = ipass + 1
!===============================================================================
! 2. Search for the monitoring points
!===============================================================================
! The numbers stored in the 'ircapt' array give the processor rank on which
! is the probes. The user should not have to care as soon as she/he is
! using the 'findpt' subroutine to find the monitoring points.
! At the first pass:
! Search for the cell number the centre of which is the closest of the
! coordinates (xx, yy, zz).
! In case of parallelism, the cell number 'icapt(ii)' is local to the
! processor of rank 'ircapt(ii)' (from 0 to the number of processor - 1).
! 'ncapts' gives the total number of monitoring points.
if (ipass.eq.1) then
ii = 0
xx = 0.20d0
yy = 0.15d0
zz = 0.01d0
call findpt &
!==========
( ncelet , ncel , xyzcen , &
xx , yy , zz , node , ndrang)
ii = ii + 1
icapt(ii) = node
ircapt(ii) = ndrang
xx = 0.70d0
yy = 0.15d0
zz = 0.01d0
call findpt &
!==========
( ncelet , ncel , xyzcen , &
xx , yy , zz , node , ndrang)
ii = ii + 1
icapt(ii) = node
ircapt(ii) = ndrang
xx = 0.20d0
yy = 0.75d0
zz = 0.01d0
call findpt &
!==========
( ncelet , ncel , xyzcen , &
xx , yy , zz , node , ndrang)
ii = ii + 1
icapt(ii) = node
ircapt(ii) = ndrang
xx = 0.70d0
yy = 0.75d0
zz = 0.01d0
call findpt &
!==========
( ncelet , ncel , xyzcen , &
xx , yy , zz , node , ndrang)
ii = ii + 1
icapt(ii) = node
ircapt(ii) = ndrang
ncapts = ii
if(ii.gt.ncapmx) then
write(nfecra,*) ' ushist: ncapmx should at least be', ii
call csexit(1)
!==========
endif
endif
!===============================================================================
! 3. Open files: example for a variable per file
!===============================================================================
! Number of variables = number of files
nvarpp = nvar
! At the first pass: open files and write a header
if (ipass.eq.1) then
! Test the maximum number of user files
if (nvarpp.gt.nushmx) then
write(nfecra,*) &
' ushist: no more than ', nushmx,' monitoring files are allowed'
call csexit(1)
!==========
endif
do ii = 1, nvarpp
! Open the files with the availabe Fortran 'file units'
if (irangp.le.0) then
open(file=ficush(ii), unit=impush(ii))
endif
! Print the (global) cell number and the center coordinates
do kk = 1, ncapts
! Cell number (in a parallel run: local to the current processor)
numcel = icapt(kk)
if (irangp.lt.0 .or. irangp.eq.ircapt(kk)) then
! Cell coordinates (in a parallel run: only one processor gives values)
xyztmp(1) = xyzcen(1,numcel)
xyztmp(2) = xyzcen(2,numcel)
xyztmp(3) = xyzcen(3,numcel)
else
! Fake values on the other processors
xyztmp(1) = 0.d0
xyztmp(2) = 0.d0
xyztmp(3) = 0.d0
endif
! In case of parallelism, the processor on which the cell was found
! sends its global number and coordinates to the others.
if (irangp.ge.0) then
lng = 3
call parbcr(ircapt(kk), lng, xyztmp)
!==========
endif
! Write information
! (only rank 0 works in a parallel run: only one file is needed)
if (irangp.le.0) then
write(impush(ii),1000) &
'#', ' Coord ', xyztmp(1), xyztmp(2), xyztmp(3)
endif
enddo
enddo
endif
1000 format(a,a9,3e14.5)
!===============================================================================
! 4. Write values: example for a variable per file
!===============================================================================
! Write the time step number,
! the physical time value
! the variable at each monitoring points
! In a serial run: the value is merely 'cvar_var(icapt(kk))'
! In a parallel run: the value may come from a different processor, to be
! determined in 'vacapt(kk)' with the 'parhis' subroutine)
do ii = 1 , nvarpp
call field_get_val_s(ivarfl(ii), cvar_var)
do kk = 1, ncapts
if (irangp.lt.0) then
vacapt(kk) = cvar_var(icapt(kk))
else
call parhis(icapt(kk), ircapt(kk), cvar_var, vacapt(kk))
!==========
endif
enddo
if (irangp.le.0) then
write(impush(ii),1010) ntcabs, ttcabs, (vacapt(kk),kk=1,ncapts)
endif
enddo
! WARNING: The format must be modified in case of more than 9 monitoring points
1010 format(i10,10e17.9)
!===============================================================================
! 4. Close files
!===============================================================================
if (ntcabs.eq.ntmabs .and. irangp.le.0) then
do ii = 1, nvarpp
close(impush(ii))
enddo
endif
!----
! End
!----
return
end subroutine ushist
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