Newer
Older
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
integer,dimension(:,:),pointer::icon,iconr
double precision,dimension(:,:),pointer:: lsf
integer,dimension(:),pointer::on(:),is_plastic,matnum
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
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
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
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_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 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
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
Dave Whipp
committed
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
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
integer icut
!==============================================================================!
!==============================================================================!
call system('clear')
nne=8
print*,'Enter directory (default is OUT)'
read (*,'(a)') dir
ndir=len_trim(dir)
if (ndir.eq.0) then
ndir=3
dir(1:ndir)='OUT'
endif
print*,'Enter 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'
print*,'Is it a debug file ? (y or n)'
read (*,'(a)') cs
select case (cs)
case ('y')
print*,'Which debug file: please enter 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'
case ('n')
print*,'it is not a debug file'
case default
print *,'error: please input y or n'
stop
end select
write (*,*) 'Is this a nested model? (y/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 (*,*) 'Error: Response must be either "y" or "n"'
stop
end select
!==============================================================================
!==============================================================================
write(*,*) '**************************************************************************'
write(*,*) '--------------------------------------------------------------------------'
write(*,*) '--------------------------------------------------------------------------'
write(*,*) '------------------- VTK file production in progress ----------------------'
write(*,*) '--------------------------------------------------------------------------'
write(*,*) '--------------------------------------------------------------------------'
if (cs=='y') then
write(*,*) 'output file to be processed: ', '../'//dir(1:ndir)//'/time_'//c4//'_'//cc4//'.bin'
open(unit=7,file='../'//dir(1:ndir)//'/time_'//c4//'_'//cc4//'.bin',status='old',form='unformatted')
else
write(*,*) 'output file to be processed: ', '../'//dir(1:ndir)//'/time_'//c4//'.bin'
open(unit=7,file='../'//dir(1:ndir)//'/time_'//c4//'.bin',status='old',form='unformatted')
end if
write(*,*) '--------------------------------------------------------------------------'
open(unit=77,file='input_of_outputs.txt',status='old')
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_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_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
write(*,*) 'output u field ->',(output_u_field==1)
write(*,*) 'output v field ->',(output_v_field==1)
write(*,*) 'output w field ->',(output_w_field==1)
write(*,*) 'output velo vectors ->',(output_velo_vect==1)
write(*,*) 'output preiso velo vectors->',(output_preiso_velo_vect==1)
write(*,*) 'output iso velo vectors ->',(output_preiso_velo_vect==1)
write(*,*) 'output disp field ->',(output_disp_field==1)
write(*,*) 'output node press field ->',(output_press_fieldn==1)
write(*,*) 'output raw press field ->',(output_press_fielde==1)
write(*,*) 'output smooth press field ->',(output_smooth_press_fielde==1)
write(*,*) 'output countnode field ->',(output_countnode_field==1)
write(*,*) 'output temp field ->',(output_temp_field==1)
write(*,*) 'output elem material # ->',(output_elem_matnum==1)
write(*,*) 'output elemental e2d field->',(output_e2d_fielde==1)
write(*,*) 'output nodal e2d field ->',(output_e2d_fieldn==1)
write(*,*) 'output elem eff viscosity ->',(output_eviscosity_fielde==1)
write(*,*) 'output element is plastic ->',(output_is_plastic_fielde==1)
write(*,*) 'output element dilat rate ->',(output_dilatr_fielde==1)
write(*,*) 'output crit field ->',(output_crit_field==1)
write(*,*) 'output strain field ->',(output_strain_field==1)
write(*,*) 'output lsf field ->',(output_lsf_field==1)
write(*,*) 'output surfaces icon ->',(output_surface_icon==1)
write(*,*) 'output strain tensor ->',(output_strain_tensor==1)
write(*,*) 'output principal stresses ->',(output_ps==1)
write(*,*) 'output elemental fields ->',(output_cubes==1)
write(*,*) 'output rivers ->',(output_rivers==1)
write(*,*) 'output regular ->',(output_regular==1)
write(*,*) 'output zisodisp ->',(output_zisodisp==1)
write(*,*) '--------------------------------------------------------------------------'
!==============================================================================!
!==============================================================================!
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%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))
!========================
!=====[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%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)
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
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)
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)
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
!==============================================================================
!==============================================================================
!=====[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)') '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))
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
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
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
do k=1,8
if (abs(ov%e2d(i)).ge.1.d99) ov%e2d(i)=sign(1.d99,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
do k=1,8
wsum=sum(ov%w(ov%icon(:,i)))/8.d0
if (abs(wsum).ge.1.d99) wsum=sign(1.d99,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
do k=1,8
vsum=sum(ov%v(ov%icon(:,i)))/8.d0
if (abs(vsum).ge.1.d99) vsum=sign(1.d99,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
usum=sum(ov%u(ov%icon(:,i)))/8.d0
if (abs(usum).ge.1.d99) usum=sign(1.d99,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.d99) uvwsum=sign(1.d99,uvwsum)
if (abs(uvwsum).le.1.d-99) uvwsum=0.d0
write(iunit,'(e13.6)') uvwsum
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
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.d99) strain(1,:,i)=1.d99
!if (strain(1,:,i).le.1.d-99) strain(1,:,i)=1.d-99
!if (strain(2,:,i).ge.1.d99) strain(2,:,i)=1.d99
!if (strain(2,:,i).le.1.d-99) strain(2,:,i)=1.d-99
!if (strain(3,:,i).ge.1.d99) strain(3,:,i)=1.d99
!if (strain(3,:,i).le.1.d-99) strain(3,:,i)=1.d-99
write(iunit,'(3e13.6)') strain(1,:,i)
write(iunit,'(3e13.6)') strain(2,:,i)
write(iunit,'(3e13.6)') strain(3,:,i)
endif
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
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))
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
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.d99) ov%u(rtf(i))=sign(1.d99,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.d99) ov%v(rtf(i))=sign(1.d99,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
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%w(rtf(i))).ge.1.d99) ov%w(rtf(i))=sign(1.d99,ov%w(rtf(i)))
if (abs(ov%w(rtf(i))).le.1.d-99) ov%w(rtf(i))=0.d0
write(iunit,'(e13.6)') ov%w(rtf(i))
enddo
end if
if(output_disp_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
disp=sqrt(ov%u(rtf(i))**2+ov%v(rtf(i))**2+ov%w(rtf(i))**2)
if (abs(disp).ge.1.d99) disp=sign(1.d99,disp)
if (abs(disp).le.1.d-99) disp=0.d0
write(iunit,'(e13.6)') disp
if(output_press_fieldn==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%nodal_pressure(rtf(i))).ge.1.d99) then
ov%nodal_pressure(rtf(i))=sign(1.d99,ov%nodal_pressure(rtf(i)))
endif
if (abs(ov%nodal_pressure(rtf(i))).le.1.d-99) then
ov%nodal_pressure(rtf(i))=0.d0
endif
write(iunit,'(e13.6)') ov%nodal_pressure(rtf(i))
if(output_countnode_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(countnode(rtf(i))).ge.1.d99) then
countnode(rtf(i))=sign(1.d99,countnode(rtf(i)))
endif
if (abs(countnode(rtf(i))).le.1.d-99) countnode(rtf(i))=0.d0
write(iunit,'(e13.6)') countnode(rtf(i))
enddo
end if
if(output_e2d_fieldn==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov_nodee2d(rtf(i))).ge.1.d99) then
ov_nodee2d(rtf(i))=sign(1.d99,ov_nodee2d(rtf(i)))
endif
if (abs(ov_nodee2d(rtf(i))).le.1.d-99) ov_nodee2d(rtf(i))=0.d0
write(iunit,'(e13.6)') ov_nodee2d(rtf(i))
enddo
end if
if(output_crit_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov_nodecrit(rtf(i))).ge.1.d99) then
ov_nodecrit(rtf(i))=sign(1.d99,ov_nodecrit(rtf(i)))
endif
if (abs(ov_nodecrit(rtf(i))).le.1.d-99) ov_nodecrit(rtf(i))=0.d0
write(iunit,'(e13.6)') ov_nodecrit(rtf(i))
enddo
end if
if(output_strain_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%strain(rtf(i))).ge.1.d99) then
ov%strain(rtf(i))=sign(1.d99,ov%strain(rtf(i)))
endif
if (abs(ov%strain(rtf(i))).le.1.d-99) ov%strain(rtf(i))=0.d0
write(iunit,'(e13.6)') ov%strain(rtf(i))
enddo
end if
if(output_temp_field==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%temp(rtf(i))).ge.1.d99) then
ov%temp(rtf(i))=sign(1.d99,ov%temp(rtf(i)))
endif
if (abs(ov%temp(rtf(i))).le.1.d-99) ov%temp(rtf(i))=0.d0
write(iunit,'(e13.6)') ov%temp(rtf(i))
enddo
end if
if(output_lsf_field==1) then
do ilsf=1,ov%nlsf
write (clsf,'(i2)') ilsf
if (ilsf.lt.10) clsf(1:1)='0'
write(iunit,'(a)')'SCALARS lsf'//clsf//' double 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%lsf(rtf(i),ilsf)).ge.1.d99) then
ov%lsf(rtf(i),ilsf)=sign(1.d99,ov%lsf(rtf(i),ilsf))
endif
if (abs(ov%lsf(rtf(i),ilsf)).le.1.d-99) ov%lsf(rtf(i),ilsf)=0.d0
write(iunit,'(e13.6)') ov%lsf(rtf(i),ilsf)
if(output_velo_vect==1) then
if (abs(ov%u(rtf(i))).ge.1.d99) ov%u(rtf(i))=sign(1.d99,ov%u(rtf(i)))
if (abs(ov%u(rtf(i))).le.1.d-99) ov%u(rtf(i))=0.d0
if (abs(ov%v(rtf(i))).ge.1.d99) ov%v(rtf(i))=sign(1.d99,ov%v(rtf(i)))
if (abs(ov%v(rtf(i))).le.1.d-99) ov%v(rtf(i))=0.d0
if (abs(ov%w(rtf(i))).ge.1.d99) ov%w(rtf(i))=sign(1.d99,ov%w(rtf(i)))
if (abs(ov%w(rtf(i))).le.1.d-99) ov%w(rtf(i))=0.d0
write(iunit,'(3e17.6)')ov%u(rtf(i)),ov%v(rtf(i)),ov%w(rtf(i))
enddo
endif
if(output_preiso_velo_vect==1) then
if (abs(ov%u(rtf(i))).ge.1.d99) ov%u(rtf(i))=sign(1.d99,ov%u(rtf(i)))
if (abs(ov%u(rtf(i))).le.1.d-99) ov%u(rtf(i))=0.d0
if (abs(ov%v(rtf(i))).ge.1.d99) ov%v(rtf(i))=sign(1.d99,ov%v(rtf(i)))
if (abs(ov%v(rtf(i))).le.1.d-99) ov%v(rtf(i))=0.d0
wmod=ov%w(rtf(i))-ov%wiso(rtf(i))
if (abs(wmod).ge.1.d99) wmod=sign(1.d99,wmod)
if (abs(wmod).le.1.d-99) wmod=0.d0
write(iunit,'(3e17.6)')ov%u(rtf(i)),ov%v(rtf(i)),wmod