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MODULE definitions
type structure
integer,dimension(:),pointer::octree
integer noctree,nnode,nleaves
integer nelemr,nlsf
double precision,dimension(:),pointer::x,y,z
Dave Whipp
committed
double precision,dimension(:),pointer::u,v,w,wiso,temp,pressure,strain
double precision,dimension(:),pointer::nodal_pressure,spressure
double precision,dimension(:),pointer::e2d,eviscosity
double precision,dimension(:),pointer::crit,dilatr,yield_ratio,frict_angle
integer,dimension(:,:),pointer::icon,iconr
double precision,dimension(:,:),pointer:: lsf
integer,dimension(:),pointer::on(:),is_plastic,matnum
logical, dimension(:), pointer :: whole_leaf_in_fluid
end type structure
type sheet
integer nsurface,nt
double precision,dimension(:),pointer::r,s,x,y,z,xn,yn,zn,u,v,w
integer,dimension(:,:),pointer::icon
integer nhull,levelt,itype,material
end type sheet
double precision,dimension(:),pointer :: x,y,z,x0,y0,z0,strain,lsf0,temp
double precision,dimension(:),pointer :: press,e2dp
integer,dimension(:),pointer::tag
end type cloud
END MODULE definitions
!==============================================================================!
!==============================================================================!
! |
! ||===\\ |
! || \\ |
! || || //==\\ || || //==|| ||/==\\ |
! || || || || || || || || || || |
! || // || || || || || || || |
! ||===// \\==// \\==\\ \\==\\ || |
! |
!==============================================================================!
!==============================================================================!
! |
! POST PROCESSING Apr. 2008 |
! |
!==============================================================================!
!==============================================================================!
program data_postprocessing
use definitions
implicit none
type (sheet),dimension(:),allocatable::surface
type(structure),SAVE :: ov
integer :: ie,mer,nn,ner,i,i1,i2,i3,i4,i5,kfx,kfy,kfz,kft
integer :: iunit,ilsf,nne,is,k,npcl,j,np,nl,npclv
integer :: output_u_field
integer :: output_v_field
integer :: output_w_field
integer :: output_velo_vect
integer :: output_preiso_velo_vect
integer :: output_press_fieldn
integer :: output_press_fielde
integer :: output_smooth_press_fielde
integer :: output_countnode_field
integer :: output_elem_matnum
integer :: output_e2d_fielde
integer :: output_e2d_fieldn
integer :: output_eviscosity_fielde
integer :: output_is_plastic_fielde
integer :: output_yield_ratio_fielde
integer :: output_frict_angle_fielde
integer :: output_crit_field
integer :: output_strain_field
integer :: output_lsf_field
integer :: output_surface_icon
integer :: output_strain_tensor
integer :: output_ps
integer :: output_cubes
integer :: output_rivers
integer :: output_regular
integer :: output_cloud
integer :: output_cloud0
integer iproc,nproc,ierr,nnn,nnne,nnnep,levelmax,ix,iy,iz,nlinks,iordermin
integer iconmin,iconmax
integer,dimension(:),allocatable::nstrain,donor,order
integer,dimension(:),allocatable::levs,li
integer,dimension(:),allocatable::invoid,elvoid,rtf,ftr
integer myicon(100),nstep,ndir,iter,ii,lsf,levmax
integer vermajor,verminor,verstat,verrev
integer input_vermajor,input_verminor
integer output_vermajor,output_verminor,output_verstat,output_verrev
logical,dimension(:),allocatable::influid,do_it,subset_leaves,instrain
character clsf*3,c4*4,cc4*4,dir*128
double precision :: eps,dil,current_time,activation_time,zmin,xx,yy,zz,maxe2d,dist
double precision, allocatable, dimension (:) :: ov_nodee2d, ov_nodecrit
double precision, allocatable, dimension (:) :: countnode
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double precision,dimension(:,:),allocatable::s,n1,n2,n3,zisodisp
double precision,dimension(:,:,:),allocatable::strain,strainn
double precision,dimension(:),allocatable::xi,yi,zi,ui,vi,wi,si,ei
double precision,dimension(:),allocatable::s11,s12,s13,s22,s23,s33,str11,str12,str13,str22,str23,str33
double precision,dimension(:),allocatable::azimuth1,azimuth3,dip1,dip3
double precision zmax,dz,l1,l2,l3,n11,n12,n13,n21,n22,n23,n31,n32,n33,con,dxy
double precision :: sselemx,sselemy,sselemz,xminls,yminls,zminls,usum,vsum,wsum
double precision :: uvwsum,disp,wmod
integer icut
!==============================================================================!
!==============================================================================!
call system('clear')
nne=8
! Post-processor version number
! vermajor is incremented for major rewrites
! verminor is incremented for significant revisions or changes to the input or
! output files
! verstat is used to designated the current code status: 0=alpha, 1=beta, 2=rc
! 3=release
! verrev is incremented for minor changes and bugfixes
vermajor=0
verminor=2
verstat=0
write (*,'(a)') '!------------------------------------------------------------------------------|'
write (*,'(a)') '!------------------------------------------------------------------------------|'
write (*,'(a)') '! |'
write (*,'(a)') '! 8888888b. .d88888b. 888 888 d8888 8888888b. |'
write (*,'(a)') '! 888 "Y88b d88P" "Y88b 888 888 d88888 888 Y88b |'
write (*,'(a)') '! 888 888 888 888 888 888 d88P888 888 888 |'
write (*,'(a)') '! 888 888 888 888 888 888 d88P 888 888 d88P |'
write (*,'(a)') '! 888 888 888 888 888 888 d88P 888 8888888P" |'
write (*,'(a)') '! 888 888 888 888 888 888 d88P 888 888 T88b |'
write (*,'(a)') '! 888 .d88P Y88b. .d88P Y88b. .d88P d8888888888 888 T88b |'
write (*,'(a)') '! 8888888P" "Y88888P" "Y88888P" d88P 888 888 T88b |'
write (*,'(a)') '! |'
write (*,'(a,i1,a,i1,a,i1,a,i1,a)') '! DOUAR-WSMP post-processor version ',vermajor,'.',verminor,'.',verstat,'.',verrev,' |'
write (*,'(a)') '!------------------------------------------------------------------------------|'
write (*,'(a)') '!------------------------------------------------------------------------------|'
write (*,'(a)') '1. Please enter the directory name containing DOUAR output.'
write (*,'(a)') ' NOTE: The directory name should be relative to one level above the working'
write (*,'(a)') ' directory. The default value is "OUT" (i.e., "../OUT")'
read (*,'(a)') dir
ndir=len_trim(dir)
if (ndir.eq.0) then
ndir=3
dir(1:ndir)='OUT'
endif
write (*,'(a)') '2. Please enter the output time step.'
read*,nstep
write (c4,'(i4)') nstep
if (nstep.lt.1000) c4(1:1)='0'
if (nstep.lt.100) c4(1:2)='00'
if (nstep.lt.10) c4(1:3)='000'
write (*,'(a)') '3. Is the output file a debug file? ("y" or "n")'
read (*,'(a)') cs
select case (cs)
case ('y','Y','yes','Yes')
write (*,'(a)') '3a. Please enter the debug file grid iteration number: '
read*,iter
write (cc4,'(i4)') iter
if (iter.lt.1000) cc4(1:1)='0'
if (iter.lt.100) cc4(1:2)='00'
if (iter.lt.10) cc4(1:3)='000'
write (*,'(a)') 'Output file is not a debug file.'
write (*,'(a)') 'Error: Response must be either "y" or "n". Please rerun the post-processor.'
write (*,'(a)') '4. Is this a nested model? ("y" or "n")'
read (*,'(a)') nestin
select case (trim(nestin))
case ('y','Y','yes','Yes')
nest=.true.
case ('n','N','no','No')
nest=.false.
case default
write (*,'(a)') 'Error: Response must be either "y" or "n". Please rerun the post-processor.'
write (*,'(a)') 'Exiting...'
!==============================================================================
!==============================================================================
write(*,'(a)') ''
write(*,'(a)') '**************************************************************************'
write(*,'(a)') '--------------------------------------------------------------------------'
write(*,'(a)') '--------------------------------------------------------------------------'
write(*,'(a)') '------------------- VTK file production in progress ----------------------'
write(*,'(a)') '--------------------------------------------------------------------------'
write(*,'(a)') '--------------------------------------------------------------------------'
write(*,'(a,a,a,a,a,a,a,a,a)') 'Processing output file ', '../'//dir(1:ndir)//'/time_'//c4//'_'//cc4//'.bin'
open(unit=7,file='../'//dir(1:ndir)//'/time_'//c4//'_'//cc4//'.bin',status='old',form='unformatted')
else
write(*,'(a,a,a,a,a,a,a)') 'Processing output file ', '../'//dir(1:ndir)//'/time_'//c4//'.bin'
open(unit=7,file='../'//dir(1:ndir)//'/time_'//c4//'.bin',status='old',form='unformatted')
end if
write(*,'(a)') '--------------------------------------------------------------------------'
open(unit=77,file='input_of_outputs.txt',status='old')
read(77,*) input_vermajor
read(77,*) input_verminor
write(*,'(a,i1,a,i1)') 'Post-processor input file version ',input_vermajor,'.',input_verminor
if (vermajor/=input_vermajor .or. verminor/=input_verminor) then
write (*,'(a)') 'Error: Post-processor version and post input file version do not agree.'
write (*,'(a,i1,a,i1)') 'Post-processor version: ',vermajor,'.',verminor
write (*,'(a,i1,a,i1)') 'Post input file version: ',input_vermajor,'.',input_verminor
write (*,'(a)') 'Unable to continue. Exiting.'
stop
endif
write(*,'(a)') '--------------------------------------------------------------------------'
read(77,*) output_w_field
read(77,*) output_velo_vect
read(77,*) output_preiso_velo_vect
read(77,*) output_press_fieldn
read(77,*) output_press_fielde
read(77,*) output_smooth_press_fielde
read(77,*) output_countnode_field
read(77,*) output_temp_field
read(77,*) output_elem_matnum
read(77,*) output_e2d_fielde
read(77,*) output_e2d_fieldn
read(77,*) output_eviscosity_fielde
read(77,*) output_is_plastic_fielde
read(77,*) output_yield_ratio_fielde
read(77,*) output_frict_angle_fielde
read(77,*) output_crit_field
read(77,*) output_strain_field
read(77,*) output_lsf_field
read(77,*) output_surface_icon
read(77,*) output_strain_tensor
read(77,*) output_ps
read(77,*) output_cubes
read(77,*) output_rivers
read(77,*) output_regular
read(77,*) output_cloud
read(77,*) output_cloud0
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write(*,'(a,l)') 'output u field ->',(output_u_field==1)
write(*,'(a,l)') 'output v field ->',(output_v_field==1)
write(*,'(a,l)') 'output w field ->',(output_w_field==1)
write(*,'(a,l)') 'output velo vectors ->',(output_velo_vect==1)
write(*,'(a,l)') 'output preiso velo vectors->',(output_preiso_velo_vect==1)
write(*,'(a,l)') 'output iso velo vectors ->',(output_preiso_velo_vect==1)
write(*,'(a,l)') 'output disp field ->',(output_disp_field==1)
write(*,'(a,l)') 'output node press field ->',(output_press_fieldn==1)
write(*,'(a,l)') 'output raw press field ->',(output_press_fielde==1)
write(*,'(a,l)') 'output smooth press field ->',(output_smooth_press_fielde==1)
write(*,'(a,l)') 'output countnode field ->',(output_countnode_field==1)
write(*,'(a,l)') 'output temp field ->',(output_temp_field==1)
write(*,'(a,l)') 'output elem material # ->',(output_elem_matnum==1)
write(*,'(a,l)') 'output elemental e2d field->',(output_e2d_fielde==1)
write(*,'(a,l)') 'output nodal e2d field ->',(output_e2d_fieldn==1)
write(*,'(a,l)') 'output elem eff viscosity ->',(output_eviscosity_fielde==1)
write(*,'(a,l)') 'output element is plastic ->',(output_is_plastic_fielde==1)
write(*,'(a,l)') 'output element yield ratio->',(output_yield_ratio_fielde==1)
write(*,'(a,l)') 'output elem friction angle->',(output_frict_angle_fielde==1)
write(*,'(a,l)') 'output element dilat rate ->',(output_dilatr_fielde==1)
write(*,'(a,l)') 'output crit field ->',(output_crit_field==1)
write(*,'(a,l)') 'output strain field ->',(output_strain_field==1)
write(*,'(a,l)') 'output lsf field ->',(output_lsf_field==1)
write(*,'(a,l)') 'output surfaces icon ->',(output_surface_icon==1)
write(*,'(a,l)') 'output strain tensor ->',(output_strain_tensor==1)
write(*,'(a,l)') 'output principal stresses ->',(output_ps==1)
write(*,'(a,l)') 'output elemental fields ->',(output_cubes==1)
write(*,'(a,l)') 'output rivers ->',(output_rivers==1)
write(*,'(a,l)') 'output regular ->',(output_regular==1)
write(*,'(a,l)') 'output zisodisp ->',(output_zisodisp==1)
write(*,'(a,l)') 'output cloud ->',(output_cloud==1)
write(*,'(a,l)') 'output cloud0 ->',(output_cloud0==1)
write(*,'(a)') '--------------------------------------------------------------------------'
!==============================================================================!
!==============================================================================!
read(7) output_vermajor,output_verminor,output_verstat,output_verrev
if (vermajor/=output_vermajor .or. verminor/=output_verminor) then
write (*,'(a)') 'Error: Post-processor version and DOUAR version do not agree.'
write (*,'(a,i1,a,i1)') 'Post-processor version: ',vermajor,'.',verminor
write (*,'(a,i1,a,i1)') 'DOUAR version: ',output_vermajor,'.',output_verminor
write (*,'(a)') 'Unable to continue. Exiting.'
stop
else
write (*,'(a,i1,a,i1,a,i1,a,i1)') 'Reading output from DOUAR-WSMP v',output_vermajor,'.',output_verminor,'.',output_verstat,'.',output_verrev
endif
write(*,'(a)') '--------------------------------------------------------------------------'
read (7) ov%noctree,ov%nnode,ov%nleaves,ner,ov%nlsf,npcl,current_time
nn=ov%nnode
allocate(ov%on(nn))
allocate(ov%x(nn),ov%y(nn),ov%z(nn))
Dave Whipp
committed
allocate(ov%u(nn),ov%v(nn),ov%w(nn),ov%wiso(nn))
allocate(ov%pressure(ov%nleaves),ov%strain(nn))
allocate(ov%e2d(ov%nleaves),ov%eviscosity(ov%nleaves),ov%is_plastic(ov%nleaves))
allocate(ov%dilatr(ov%nleaves),ov%whole_leaf_in_fluid(ov%nleaves))
allocate(ov%crit(ov%nleaves),ov%matnum(ov%nleaves),ov%yield_ratio(ov%nleaves))
allocate(ov%frict_angle(ov%nleaves))
allocate(ov%temp(nn))
allocate(ov%lsf(nn,ov%nlsf))
allocate(influid(nn))
allocate(invoid(nn))
allocate(rtf(nn),ftr(nn),elvoid(nn))
allocate(surface(ov%nlsf))
allocate(ov%nodal_pressure(nn),ov%spressure(ov%nleaves))
allocate(ov%icon(8,ov%nleaves))
allocate(ov%octree(ov%noctree))
allocate(cl%x(npcl),cl%y(npcl),cl%z(npcl),cl%x0(npcl),cl%y0(npcl),cl%z0(npcl))
allocate(cl%strain(npcl),cl%lsf0(npcl),cl%temp(npcl),cl%press(npcl))
!========================
!=====[nodal values]=====
!========================
read(7)(ov%x(i),ov%y(i),ov%z(i), &
ov%u(i),ov%v(i),ov%w(i), &
ov%lsf(i,1:ov%nlsf), &
ov%temp(i), &
ov%nodal_pressure(i), &
ov%strain(i), &
kfx,kfy,kfz,kft,i=1,nn)
!======================
!=====[icon array]=====
!======================
read(7) (ov%icon(1:8,ie), &
ov%pressure(ie), &
ov%spressure(ie), &
ov%eviscosity(ie), &
ov%is_plastic(ie), &
ov%dilatr(ie), &
ov%frict_angle(ie), &
ov%whole_leaf_in_fluid(ie), &
ie=1,ov%nleaves)
!==============================
!=====[octree information]=====
!==============================
read(7) (ov%octree(i),i=1,ov%noctree)
!================================
!=====[bad face information]=====
!================================
mer=ner ! mer=1
if(ner.gt.mer)mer=ner
allocate(ov%iconr(9,mer))
read(7) (ov%iconr(1:9,ie),ie=1,ner)
ov%nelemr=ner
!============================
!=====[void information]=====
!============================
read (7) (invoid(i),elvoid(i),ftr(i),rtf(i),influid(i),i=1,nn)
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ov%on=0
do i=1,nn
if (influid(i)) ov%on(i)=1
enddo
read(7) (i5,i=1,ner)
!==============================================================
!=====[measure work, strain, compute principal directions]=====
!==============================================================
allocate (s (3,ov%nleaves))
allocate (n1(3,ov%nleaves))
allocate (n2(3,ov%nleaves))
allocate (n3(3,ov%nleaves))
allocate (strain(3,3,ov%nleaves))
call find_volumes (ov%icon,ov%octree,ov%noctree,ov%nleaves,ov%lsf,ov%nlsf,ov%nnode,influid, &
ov%x,ov%y,ov%z,ov%u,ov%v,ov%w,s,n1,n2,n3,strain)
! rescaling of the values for plotting purposes
s=s/maxval(abs(s))*.01
strain=strain/maxval(abs(strain))*.01
!===============================
!=====[surface information]=====
!===============================
do is=1,ov%nlsf
read(7) surface(is)%nsurface,activation_time,surface(is)%nt
allocate (surface(is)%x(surface(is)%nsurface), &
surface(is)%y(surface(is)%nsurface), &
surface(is)%z(surface(is)%nsurface), &
surface(is)%xn(surface(is)%nsurface), &
surface(is)%yn(surface(is)%nsurface), &
surface(is)%zn(surface(is)%nsurface), &
surface(is)%r(surface(is)%nsurface), &
surface(is)%s(surface(is)%nsurface), &
surface(is)%u(surface(is)%nsurface), &
surface(is)%v(surface(is)%nsurface), &
surface(is)%w(surface(is)%nsurface), &
surface(is)%icon(3,surface(is)%nt))
if (cs=='y') then
read (7) (surface(is)%r(i),surface(is)%s(i), &
surface(is)%x(i),surface(is)%y(i),surface(is)%z(i), &
surface(is)%xn(i),surface(is)%yn(i),surface(is)%zn(i), &
i=1,surface(is)%nsurface)
else
read (7) (surface(is)%r(i),surface(is)%s(i), &
surface(is)%x(i),surface(is)%y(i),surface(is)%z(i), &
surface(is)%xn(i),surface(is)%yn(i),surface(is)%zn(i), &
surface(is)%u(i),surface(is)%v(i),surface(is)%w(i), &
i=1,surface(is)%nsurface)
end if
read (7) (surface(is)%icon(1:3,i),i=1,surface(is)%nt)
end do
Dave Whipp
committed
!=============================
!=====[cloud information]=====
!=============================
!read (7) (dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpdp, &
! dumpi, &
! i=1,npcl)
read (7) (cl%x(i), &
cl%y(i), &
cl%z(i), &
cl%x0(i), &
cl%y0(i), &
cl%z0(i), &
cl%strain(i), &
cl%lsf0(i), &
cl%temp(i), &
cl%press(i), &
Dave Whipp
committed
!================================
!=====[isostasy information]=====
!================================
read (7) nb
dxy=1.d0/real(nb)
allocate(zisodisp(nb+1,nb+1))
read (7) ((zisodisp(i,j),j=1,nb+1),i=1,nb+1)
Dave Whipp
committed
!============================
!=====[nest information]=====
!============================
read(7) sselemx,sselemy,sselemz,xminls,yminls,zminls
close(7)
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!==============================================================================
!==============================================================================
!=====[C -> N]=================================================================
!==============================================================================
!==============================================================================
allocate(countnode(ov%nnode))
allocate(ov_nodee2d(ov%nnode))
allocate(ov_nodecrit(ov%nnode))
ov_nodee2d = 0.d0
ov_nodecrit = 0.d0
countnode = 0.d0
do i=1,ov%nleaves
do j=1,8
k=ov%icon(j,i)
ov_nodee2d(k) = ov_nodee2d(k) + ov%e2d(i)
ov_nodecrit(k) = ov_nodecrit(k) + ov%crit(i)
countnode(k) = countnode(k) + 1
end do
end do
do i=1,ov%nnode
if (countnode(i).gt.0.d0) then
ov_nodee2d(i) = ov_nodee2d(i) / countnode(i)
ov_nodecrit(i) = ov_nodecrit(i) / countnode(i)
end if
end do
Dave Whipp
committed
! Convert coordinates if using a nest
if (nest) then
ov%x=ov%x*sselemx+xminls
ov%y=ov%y*sselemy+yminls
ov%z=ov%z*sselemz+zminls
do is=1,ov%nlsf
surface(is)%x=surface(is)%x*sselemx+xminls
surface(is)%y=surface(is)%y*sselemy+yminls
surface(is)%z=surface(is)%z*sselemz+zminls
enddo
Dave Whipp
committed
endif
!==============================================================================
!==============================================================================
write(*,'(a,i10)') 'octree length ',ov%noctree
write(*,'(a,i10)') 'nb of nodes ',ov%nnode
write(*,'(a,i10)') 'nb of leaves ',ov%nleaves
write(*,'(a,i10)') 'nb of bad faces ',ner
write(*,'(a,i10)') 'nb of lsf ',ov%nlsf
write(*,*) '--------------------------------------------------------------------------'
write(*,'(a,2f30.20)') 'x range : ',minval(ov%x(1:nn)), maxval(ov%x(1:nn))
write(*,'(a,2f30.20)') 'y range : ',minval(ov%y(1:nn)), maxval(ov%y(1:nn))
write(*,'(a,2f30.20)') 'z range : ',minval(ov%z(1:nn)), maxval(ov%z(1:nn))
write(*,'(a,2f30.20)') 'u range : ',minval(ov%u(1:nn)), maxval(ov%u(1:nn))
write(*,'(a,2f30.20)') 'v range : ',minval(ov%v(1:nn)), maxval(ov%v(1:nn))
write(*,'(a,2f30.20)') 'w range : ',minval(ov%w(1:nn)), maxval(ov%w(1:nn))
write(*,'(a,2f30.20)') 'w (iso) range : ',minval(ov%wiso(1:nn)), maxval(ov%wiso(1:nn))
write(*,'(a,2f30.20)') 'pressure range : ',minval(ov%pressure), maxval(ov%pressure)
write(*,'(a,2f30.20)') 'smooth pressure range : ',minval(ov%spressure), maxval(ov%spressure)
write(*,'(a,2f30.20)') 'pressure (nodes) range : ',minval(ov%nodal_pressure),maxval(ov%nodal_pressure)
write(*,'(a,2f30.20)') 'e2d range : ',minval(ov%e2d), maxval(ov%e2d)
write(*,'(a,2f30.20)') 'e2d (nodes) range : ',minval(ov_nodee2d), maxval(ov_nodee2d)
write(*,'(a,2f30.20)') 'yield ratio range : ',minval(ov%yield_ratio), maxval(ov%yield_ratio)
write(*,'(a,2f30.20)') 'friction angle range : ',minval(ov%frict_angle), maxval(ov%frict_angle)
write(*,'(a,2f30.20)') 'dilatation rate range : ',minval(ov%dilatr), maxval(ov%dilatr)
write(*,'(a,2f30.20)') 'crit range : ',minval(ov%crit), maxval(ov%crit)
write(*,'(a,2f30.20)') 'crit (nodes) range : ',minval(ov_nodecrit), maxval(ov_nodecrit)
write(*,'(a,2f30.20)') 'strain range : ',minval(ov%strain(1:nn)), maxval(ov%strain(1:nn))
do is=1,ov%nlsf
write(*,*) '--------------------------------------------------------------------------'
write(*,'(a,i3)') 'surface',is
write(*,'(a,i7,a)') 'surface counts ',surface(is)%nsurface, ' points'
write(*,'(a,i7,a)') 'surface counts ',surface(is)%nt, ' triangles'
write(*,'(a,2f30.20)') 'surf%x range : ',minval(surface(is)%x),maxval(surface(is)%x)
write(*,'(a,2f30.20)') 'surf%y range : ',minval(surface(is)%y),maxval(surface(is)%y)
write(*,'(a,2f30.20)') 'surf%z range : ',minval(surface(is)%z),maxval(surface(is)%z)
end do
Dave Whipp
committed
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! DAVE: Add echoing of cloud variable ranges and make sure all other are listed
!read(77,*) output_u_field
!read(77,*) output_v_field
!read(77,*) output_w_field
!read(77,*) output_velo_vect
!read(77,*) output_preiso_velo_vect
!read(77,*) output_iso_velo_vect
!read(77,*) output_disp_field
!read(77,*) output_press_fieldn
!read(77,*) output_press_fielde
!read(77,*) output_smooth_press_fielde
!read(77,*) output_countnode_field
!read(77,*) output_temp_field
!read(77,*) output_elem_matnum
!read(77,*) output_e2d_fielde
!read(77,*) output_e2d_fieldn
!read(77,*) output_eviscosity_fielde
!read(77,*) output_is_plastic_fielde
!read(77,*) output_yield_ratio_fielde
!read(77,*) output_frict_angle_fielde
!read(77,*) output_dilatr_fielde
!read(77,*) output_crit_field
!read(77,*) output_strain_field
!read(77,*) output_lsf_field
!read(77,*) output_surface_icon
!read(77,*) output_strain_tensor
!read(77,*) output_ps
!read(77,*) output_cubes
!read(77,*) output_rivers
!read(77,*) output_regular
!read(77,*) output_zisodisp
!read(77,*) output_cloud
!read(77,*) output_cloud0
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nnn=0
nnne=0
do i=1,nn
if (invoid(i).eq.0) nnn=nnn+1
enddo
do i=1,ov%nleaves
if (elvoid(i).eq.0) nnne=nnne+1
enddo
!==============================================================================
!=====[producing cubes.vtk]====================================================
!==============================================================================
if (output_cubes==1) then
!=====[selection of leaves we are interested in]====
allocate(subset_leaves(ov%nleaves))
maxe2d=maxval(ov%e2d)
subset_leaves=.false.
do i=1,ov%nleaves
xx=ov%x(ov%icon(1,i))
yy=ov%y(ov%icon(1,i))
zz=ov%z(ov%icon(1,i))
if (.not.(xx.gt..5d0 .and. yy.gt. .5d0) .and. ov%e2d(i)>0.06 *maxe2d) subset_leaves(i)=.true.
end do
!subset_leaves=ov%whole_leaf_in_fluid
nl=count(subset_leaves)
!np=8*nl
np=8*ov%nleaves
iunit=30
open(unit=iunit,file='cubes.vtk')
write(iunit,'(a)')'# vtk DataFile Version 3.0'
write(iunit,'(a)')'velocities'
write(iunit,'(a)')'ASCII'
write(iunit,'(a)')'DATASET UNSTRUCTURED_GRID'
write(iunit,'(a7,i10,a6)')'POINTS ',np,' float'
do i=1,ov%nleaves
!if (subset_leaves(i)) then
do k=1,8
xx=ov%x(ov%icon(k,i))
yy=ov%y(ov%icon(k,i))
zz=ov%z(ov%icon(k,i))
end do
!end if
enddo
write(iunit,'(A6, 2I10)') 'CELLS ',nl,(1+8)*nl
do ie=1,ov%nleaves
if (subset_leaves(ie)) then
write(iunit,'(9I10)') 8 , ((ie-1)*8+i-1,i=1,8)
end if
end do
write(iunit,'(A11, I10)') 'CELL_TYPES ',nl
do ie=1,ov%nleaves
if (subset_leaves(ie)) then
write(iunit,'(I2)') 11
end if
end do
write(iunit,'(a11,i10)')'POINT_DATA ',np
write(iunit,'(a)')'SCALARS e2d float 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,ov%nleaves
if (abs(ov%e2d(i)).ge.1.d98) ov%e2d(i)=sign(1.d98,ov%e2d(i))
if (abs(ov%e2d(i)).le.1.d-99) ov%e2d(i)=0.d0
write(iunit,'(e13.6)') ov%e2d(i)
end do
end do
write(iunit,'(a)')'SCALARS w float 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,ov%nleaves
if (abs(wsum).ge.1.d98) wsum=sign(1.d98,wsum)
if (abs(wsum).le.1.d-99) wsum=0.d0
write(iunit,'(e13.6)') wsum
end do
end do
write(iunit,'(a)')'SCALARS v float 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,ov%nleaves
if (abs(vsum).ge.1.d98) vsum=sign(1.d98,vsum)
if (abs(vsum).le.1.d-99) vsum=0.d0
write(iunit,'(e13.6)') vsum
end do
end do
write(iunit,'(a)')'SCALARS u float 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,ov%nleaves
do k=1,8
if (abs(usum).ge.1.d98) usum=sign(1.d98,usum)
if (abs(usum).le.1.d-99) usum=0.d0
write(iunit,'(e13.6)') usum
end do
end do
write(iunit,'(a)')'SCALARS uvw float 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,ov%nleaves
do k=1,8
uvwsum=sqrt((sum(ov%u(ov%icon(:,i)))/8.d0)**2+(sum(ov%v(ov%icon(:,i)))/8.d0)**2+(sum(ov%w(ov%icon(:,i)))/8.d0)**2)
if (abs(uvwsum).ge.1.d98) uvwsum=sign(1.d98,uvwsum)
if (abs(uvwsum).le.1.d-99) uvwsum=0.d0
write(iunit,'(e13.6)') uvwsum
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end do
end do
write(*,*) '--------------------------------------------------------------------------'
write(*,*) 'opla I am done producing cubes.vtk'
end if
!==============================================================================
!======[producing strain.vtk]==================================================
!==============================================================================
if (output_strain_tensor/=0) then
nnnep=0
levelmax=2
allocate (instrain(ov%nleaves))
instrain=.FALSE.
do i=1,ov%nleaves
if (elvoid(i).eq.0) then
xx=sum(ov%x(ov%icon(:,i)))/8.d0
yy=sum(ov%y(ov%icon(:,i)))/8.d0
zz=sum(ov%z(ov%icon(:,i)))/8.d0
xx=xx*(2.d0**levelmax)
yy=yy*(2.d0**levelmax)
zz=zz*(2.d0**levelmax)
ix=int(xx)
iy=int(yy)
iz=int(zz)
if (abs(xx-float(ix)-0.5d0).lt.1.d-6 .and. &
abs(yy-float(iy)-0.5d0).lt.1.d-6 .and. &
abs(zz-float(iz)-0.5d0).lt.1.d-6) instrain(i)=.TRUE.
if (instrain(i)) nnnep=nnnep+1
endif
enddo
!print*,'here',nnne,nnnep
iunit=30
open(unit=iunit,file='strain.vtk')
write(iunit,'(a)')'# vtk DataFile Version 3.0'
write(iunit,'(a)')'sigma1'
write(iunit,'(a)')'ASCII'
write(iunit,'(a)')'DATASET UNSTRUCTURED_GRID'
write(iunit,'(a7,i10,a6)')'POINTS ',nnnep,' float'
do i=1,ov%nleaves
if (elvoid(i).eq.0) then
xx=sum(ov%x(ov%icon(:,i)))/8.d0
yy=sum(ov%y(ov%icon(:,i)))/8.d0
zz=sum(ov%z(ov%icon(:,i)))/8.d0
if (instrain(i)) write(iunit,'(3f16.11)') xx,yy,zz
endif
enddo
write(iunit,'(a11,i10)')'POINT_DATA ',nnnep
write(iunit,'(a)')'TENSORS strain float'
do i=1,ov%nleaves
if (elvoid(i).eq.0) then
xx=sum(ov%x(ov%icon(:,i)))/8.d0
yy=sum(ov%y(ov%icon(:,i)))/8.d0
zz=sum(ov%z(ov%icon(:,i)))/8.d0
if (instrain(i)) then
!if (strain(1,:,i).ge.1.d98) strain(1,:,i)=1.d98
!if (strain(1,:,i).le.1.d-99) strain(1,:,i)=0.d0
!if (strain(2,:,i).ge.1.d98) strain(2,:,i)=1.d98
!if (strain(2,:,i).le.1.d-99) strain(2,:,i)=1.d0
!if (strain(3,:,i).ge.1.d98) strain(3,:,i)=1.d98
!if (strain(3,:,i).le.1.d-99) strain(3,:,i)=1.d0
write(iunit,'(3e13.6)') strain(1,:,i)
write(iunit,'(3e13.6)') strain(2,:,i)
write(iunit,'(3e13.6)') strain(3,:,i)
endif
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endif
enddo
close (iunit)
deallocate (instrain)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing strain.vtk '
end if
!==============================================================================
!======[produce compressive.vtk file]==========================================
!==============================================================================
if (output_ps/=0) then
allocate(do_it(ov%nleaves))
np=0
do i=1,ov%nleaves
zz=sum(ov%z(ov%icon(:,i)))/8.d0 !criterion
if (zz<.3d0) then
np=np+1
do_it(i)=.true.
end if
end do
write(*,*) '--------------------------------------------------------------------------'
write(*,*) 'subset of points in compressive.vtk:',np
iunit=30
open(unit=iunit,file='compressive.vtk')
write(iunit,'(a)')'# vtk DataFile Version 3.0'
write(iunit,'(a)')'sigma1'
write(iunit,'(a)')'ASCII'
write(iunit,'(a)')'DATASET UNSTRUCTURED_GRID'
write(iunit,'(a7,i10,a6)')'POINTS ',np,' float'
do i=1,ov%nleaves
if (do_it(i)) then
xx=sum(ov%x(ov%icon(:,i)))/8.d0
yy=sum(ov%y(ov%icon(:,i)))/8.d0
zz=sum(ov%z(ov%icon(:,i)))/8.d0
write(iunit,'(3f16.11)') xx,yy,zz
end if
enddo
write(iunit,'(a11,i10)')'POINT_DATA ', np
write(iunit,'(a)')'VECTORS sigma1head+ float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') n1(1:3,i)*s(1,i)
enddo
write(iunit,'(a)')'VECTORS sigma1head- float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') -n1(1:3,i)*s(1,i)
enddo
write(iunit,'(a)')'VECTORS sigma3tail+ float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') n2(1:3,i)*s(2,i)
enddo
write(iunit,'(a)')'VECTORS sigma3tail- float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') -n2(1:3,i)*s(2,i)
enddo
write(iunit,'(a)')'VECTORS sigma2head+ float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') n3(1:3,i)*min(0.d0,s(3,i))
enddo
write(iunit,'(a)')'VECTORS sigma2head- float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') -n3(1:3,i)*min(0.d0,s(3,i))
enddo
write(iunit,'(a)')'VECTORS sigma2tail+ float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') n3(1:3,i)*max(0.d0,s(3,i))
enddo
write(iunit,'(a)')'VECTORS sigma2tail- float'
do i=1,ov%nleaves
if (do_it(i)) &
write(iunit,'(3e15.4)') -n3(1:3,i)*max(0.d0,s(3,i))
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enddo
close (iunit)
deallocate(do_it)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing compressive.vtk '
end if
!==============================================================================
!======[produce visu.vtk file]=================================================
!==============================================================================
!iunit=30
!open(unit=iunit,file='cut.dat')
!do i=1,nnn ! loop over nodes
! x=ov%x(rtf(i))
! y=ov%y(rtf(i))
! z=ov%z(rtf(i))
! icut=3 ! icut between 0 and 64 for uniform level 6
! ! example , cross section in plane given by x=value
! xcut=icut*2.d0**(-6) ! background uniform grid level is 6
! dxyz=2.d0**(-7) ! higher level grid in boxes is 7
! if (abs(x-xcut)<1.d-6 ) then ! select nodes that are only on the plane
! if (mod(nint(y/dxyz),2)==0) then ! les coordonnees des noeuds surla grille de niveau 7 divisees par dxy vont prendre les valeurs 0 a 128
! if (mod(nint(z/dxyz),2)==0) then
! write(iunit,*) x,y,z
! end if
! end if
! end if
!enddo
!close(iunit)
iunit=30
open(unit=iunit,file='visu.vtk')
write(iunit,'(a)')'# vtk DataFile Version 3.0'
write(iunit,'(a)')'velocities'
write(iunit,'(a)')'ASCII'
write(iunit,'(a)')'DATASET UNSTRUCTURED_GRID'
write(iunit,'(a7,i10,a6)')'POINTS ',nnn,' float'
do i=1,nnn
write(iunit,'(3f16.11)')ov%x(rtf(i)),ov%y(rtf(i)),ov%z(rtf(i))
enddo
write(iunit,'(A6, 2I10)') 'CELLS ',nnne,(1+nne)*nnne
iconmin=nn
iconmax=0
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
myicon(1:nne)=ftr(ov%icon(1:nne,ie))-1
do k=1,nne
iconmin=min(iconmin,myicon(k))
iconmax=max(iconmax,myicon(k))
enddo
write(iunit,'(9I10)')nne,myicon(1:nne)
endif
enddo
!print*,iconmin,iconmax
write(iunit,'(A11, I10)') 'CELL_TYPES ',nnne
do ie=1,nnne
write(iunit,'(I2)')11 ! octree (8 nodes)
end do
write(iunit,'(a11,i10)')'POINT_DATA ',nnn
if(output_u_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%u(rtf(i))).ge.1.d98) ov%u(rtf(i))=sign(1.d98,ov%u(rtf(i)))
if (abs(ov%u(rtf(i))).le.1.d-99) ov%u(rtf(i))=0.d0
write(iunit,'(e13.6)') ov%u(rtf(i))
enddo
end if
if(output_v_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%v(rtf(i))).ge.1.d98) ov%v(rtf(i))=sign(1.d98,ov%v(rtf(i)))
if (abs(ov%v(rtf(i))).le.1.d-99) ov%v(rtf(i))=0.d0
write(iunit,'(e13.6)') ov%v(rtf(i))
enddo
end if
if(output_w_field==1) then