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SwanReadTriangleGrid.ftn90
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SwanReadTriangleGrid.ftn90
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subroutine SwanReadTriangleGrid ( basenm, lenfnm )
!
! --|-----------------------------------------------------------|--
! | Delft University of Technology |
! | Faculty of Civil Engineering and Geosciences |
! | Environmental Fluid Mechanics Section |
! | P.O. Box 5048, 2600 GA Delft, The Netherlands |
! | |
! | Programmer: Marcel Zijlema |
! --|-----------------------------------------------------------|--
!
!
! SWAN (Simulating WAves Nearshore); a third generation wave model
! Copyright (C) 1993-2016 Delft University of Technology
!
! 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.
!
! A copy of the GNU General Public License is available at
! http://www.gnu.org/copyleft/gpl.html#SEC3
! or by writing to the Free Software Foundation, Inc.,
! 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
!
!
! Authors
!
! 40.80: Marcel Zijlema
!
! Updates
!
! 40.80, July 2007: New subroutine
!
! Purpose
!
! Reads Triangle grid described in <name>.node and <name>.ele
!
! Method
!
! Grid coordinates of vertices are read from file <name>.node and stored in Swan data structure
! Vertices of triangles are read from file <name>.ele and stored in Swan data structure
!
! Modules used
!
use ocpcomm4
use SwanGriddata
!
implicit none
!
! Argument variables
!
integer, intent(in) :: lenfnm ! length of file names
character(lenfnm), intent(in) :: basenm ! base name of Triangle files
!
! Local variables
!
character(lenfnm) :: filenm ! file name
integer, save :: ient = 0 ! number of entries in this subroutine
integer :: idum ! dummy integer
integer :: ii ! auxiliary integer
integer :: iostat ! I/O status in call FOR
integer :: istat ! indicate status of allocation
integer :: j ! loop counter
integer :: nattr ! number of attributes
integer :: nbmark ! number of boundary markers (0 or 1)
integer :: ndim ! dimension of Triangle (must be 2)
integer :: ndsd ! unit reference number of file
integer :: nnodes ! number of nodes per triangle
real :: rdum ! dummy value
character(80) :: line ! auxiliary textline
logical :: stpnow ! indicate whether program must be terminated or not
!
! Structure
!
! Description of the pseudo code
!
! Source text
!
if (ltrace) call strace (ient,'SwanReadTriangleGrid')
!
! open file <name>.node containing the coordinates of vertices
!
filenm = trim(basenm)//'.node'
ndsd = 0
iostat = 0
call for (ndsd, filenm, 'OF', iostat)
if (stpnow()) goto 900
!
! read first line to determine number of vertices
!
read(ndsd, *, end=950, err=910) nverts, ndim, nattr, nbmark
istat = 0
if(.not.allocated(xcugrd)) allocate (xcugrd(nverts), stat = istat)
if ( istat == 0 ) then
if(.not.allocated(ycugrd)) allocate (ycugrd(nverts), stat = istat)
endif
if ( istat == 0 ) then
if(.not.allocated(vmark)) allocate (vmark(nverts), stat = istat)
endif
if ( istat /= 0 ) then
call msgerr ( 4, 'Allocation problem in SwanReadTriangleGrid: array xcugrd, ycugrd or vmark ' )
goto 900
endif
!
! check if boundary marker has been specified
!
if ( nbmark == 0 ) then
call msgerr ( 4, 'boundary marker for vertices/faces must be specified ' )
goto 900
endif
!
! read coordinates of vertices and boundary marker
!
if ( nattr == 0 ) then
do j = 1, nverts
read(ndsd, *, end=950, err=910) ii, xcugrd(ii), ycugrd(ii), vmark(ii)
if ( ii/=j ) call msgerr ( 1, 'numbering of vertices is not sequential in Triangle file '//filenm )
enddo
else
do j = 1, nverts
read(ndsd, *, end=950, err=910) ii, xcugrd(ii), ycugrd(ii), rdum, vmark(ii)
if ( ii/=j ) call msgerr ( 1, 'numbering of vertices is not sequential in Triangle file '//filenm )
enddo
endif
!
! close file <name>.node
!
close(ndsd)
!
! open file <name>.ele containing the (Delaunay) triangles
!
filenm = trim(basenm)//'.ele'
ndsd = 0
iostat = 0
call for (ndsd, filenm, 'OF', iostat)
if (stpnow()) goto 900
!
! read first line to determine number of triangles
!
read(ndsd, *, end=950, err=910) ncells, nnodes, nattr
if(.not.allocated(kvertc)) allocate (kvertc(3,ncells), stat = istat)
if ( istat /= 0 ) then
call msgerr ( 4, 'Allocation problem in SwanReadTriangleGrid: array kvertc ' )
goto 900
endif
!
! read vertices of triangles
!
if ( nnodes == 3 .and. nattr == 0 ) then
do j = 1, ncells
read(ndsd, *, end=950, err=910) ii, kvertc(1,ii), kvertc(2,ii), kvertc(3,ii)
if ( ii/=j ) call msgerr ( 1, 'numbering of triangles is not sequential in Triangle file '//filenm )
enddo
else
do j = 1, ncells
read(ndsd, *, end=950, err=910) ii, kvertc(1,ii), kvertc(2,ii), kvertc(3,ii), line
if ( ii/=j ) call msgerr ( 1, 'numbering of triangles is not sequential in Triangle file '//filenm )
enddo
endif
!
! close file <name>.ele
!
close(ndsd)
!
900 return
!
910 inquire (unit=ndsd, name=filenm)
call msgerr (4, 'error reading data from Triangle file '//filenm )
goto 900
950 inquire (unit=ndsd, name=filenm)
call msgerr (4, 'unexpected end of file in Triangle file '//filenm )
goto 900
!
end subroutine SwanReadTriangleGrid