Newer
Older
write(iunit,'(a)')'LOOKUP_TABLE default'
do i=1,nnn
if (abs(ov%w(rtf(i))).ge.1.d98) ov%w(rtf(i))=sign(1.d98,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.d98) disp=sign(1.d98,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.d98) then
ov%nodal_pressure(rtf(i))=sign(1.d98,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'
if (abs(countnode(rtf(i))).ge.1.d98) then
countnode(rtf(i))=sign(1.d98,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.d98) then
ov_nodee2d(rtf(i))=sign(1.d98,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.d98) then
ov_nodecrit(rtf(i))=sign(1.d98,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.d98) then
ov%strain(rtf(i))=sign(1.d98,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.d98) then
ov%temp(rtf(i))=sign(1.d98,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.d98) then
ov%lsf(rtf(i),ilsf)=sign(1.d98,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.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
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
if (abs(ov%w(rtf(i))).ge.1.d98) ov%w(rtf(i))=sign(1.d98,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.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
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
wmod=ov%w(rtf(i))-ov%wiso(rtf(i))
if (abs(wmod).ge.1.d98) wmod=sign(1.d98,wmod)
if (abs(wmod).le.1.d-99) wmod=0.d0
write(iunit,'(3e17.6)')ov%u(rtf(i)),ov%v(rtf(i)),wmod
Dave Whipp
committed
enddo
endif
if(output_iso_velo_vect==1) then
Dave Whipp
committed
do i=1,nnn
if (abs(ov%wiso(rtf(i))).ge.1.d98) ov%wiso(rtf(i))=sign(1.d98,ov%wiso(rtf(i)))
if (abs(ov%wiso(rtf(i))).le.1.d-99) ov%wiso(rtf(i))=0.d0
write(iunit,'(3e17.6)')0.d0,0.d0,ov%wiso(rtf(i))
if (output_strain_tensor/=0) then
allocate (strainn(3,3,nnn),nstrain(nnn))
strainn=0.d0
nstrain=0
do ie=1,nnne
if (elvoid(ie).eq.0) then
do k=1,nne
strainn(:,:,ftr(ov%icon(k,ie)))=strainn(:,:,ftr(ov%icon(k,ie)))+strain(:,:,ie)
nstrain(ftr(ov%icon(k,ie)))=nstrain(ftr(ov%icon(k,ie)))+1
enddo
endif
enddo
do i=1,nnn
if (nstrain(i).ne.0) strainn(:,:,i)=strainn(:,:,i)/nstrain(i)
enddo
!if (strainn(1,:,i).ge.1.d98) strainn(1,:,i)=1.d98
!if (strainn(1,:,i).le.1.d-99) strainn(1,:,i)=1.d0
!if (strainn(2,:,i).ge.1.d98) strainn(2,:,i)=1.d98
!if (strainn(2,:,i).le.1.d-99) strainn(2,:,i)=1.d0
!if (strainn(3,:,i).ge.1.d98) strainn(3,:,i)=1.d98
!if (strainn(3,:,i).le.1.d-99) strainn(3,:,i)=1.d0
write(iunit,'(3e13.6)') strainn(1,:,i)
write(iunit,'(3e13.6)') strainn(2,:,i)
write(iunit,'(3e13.6)') strainn(3,:,i)
enddo
deallocate (strainn,nstrain)
write(iunit,'(a10,i10)')'CELL_DATA ', nnne
if (output_e2d_fielde==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%e2d(ie)).ge.1.d98) ov%e2d(ie)=sign(1.d98,ov%e2d(ie))
if (abs(ov%e2d(ie)).le.1.d-99) ov%e2d(ie)=0.d0
write(iunit,'(e13.6)') ov%e2d(ie)
endif
enddo
end if
if(output_press_fielde==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%pressure(ie)).ge.1.d98) then
ov%pressure(ie)=sign(1.d98,ov%pressure(ie))
endif
if (abs(ov%pressure(ie)).le.1.d-99) ov%pressure(ie)=0.d0
write(iunit,'(e13.6)') ov%pressure(ie)
endif
enddo
end if
if(output_smooth_press_fielde==1) then
write(iunit,'(a)')'SCALARS smooth_pressure_e double 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%spressure(ie)).ge.1.d98) then
ov%spressure(ie)=sign(1.d98,ov%spressure(ie))
endif
if (abs(ov%spressure(ie)).le.1.d-99) ov%spressure(ie)=0.d0
write(iunit,'(e13.6)') ov%spressure(ie)
endif
enddo
end if
if(output_eviscosity_fielde==1) then
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%eviscosity(ie)).ge.1.d98) then
ov%eviscosity(ie)=sign(1.d98,ov%eviscosity(ie))
endif
if (abs(ov%eviscosity(ie)).le.1.d-99) ov%eviscosity(ie)=0.d0
write(iunit,'(e13.6)') ov%eviscosity(ie)
endif
enddo
end if
if(output_is_plastic_fielde==1) then
write(iunit,'(a)')'SCALARS is_plastic_e integer 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
write(iunit,'(I10)') ov%is_plastic(ie)
endif
if (output_yield_ratio_fielde==1) then
write(iunit,'(a)')'SCALARS yield_ratio double 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%yield_ratio(ie)).ge.1.d98) then
ov%yield_ratio(ie)=sign(1.d98,ov%yield_ratio(ie))
endif
if (abs(ov%yield_ratio(ie)).le.1.d-99) ov%yield_ratio(ie)=0.d0
write(iunit,'(e13.6)') ov%yield_ratio(ie)
endif
enddo
end if
if (output_frict_angle_fielde==1) then
write(iunit,'(a)')'SCALARS frict_angle double 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%frict_angle(ie)).ge.1.d98) then
ov%frict_angle(ie)=sign(1.d98,ov%frict_angle(ie))
endif
if (abs(ov%frict_angle(ie)).le.1.d-99) ov%frict_angle(ie)=0.d0
write(iunit,'(e13.6)') ov%frict_angle(ie)
endif
enddo
end if
if (output_dilatr_fielde==1) then
write(iunit,'(a)')'SCALARS dilatation_rate double 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
if (abs(ov%dilatr(ie)).ge.1.d98) then
ov%dilatr(ie)=sign(1.d98,ov%dilatr(ie))
endif
if (abs(ov%dilatr(ie)).le.1.d-99) ov%dilatr(ie)=0.d0
write(iunit,'(e13.6)') ov%dilatr(ie)
enddo
end if
if (output_elem_matnum==1) then
write(iunit,'(a)')'SCALARS material_number integer 1'
write(iunit,'(a)')'LOOKUP_TABLE default'
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
write(iunit,'(I10)') ov%matnum(ie)
endif
enddo
end if
close(iunit)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing visu.vtk '
deallocate(countnode)
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!==============================================================================
!======[produce norm<i>.vtk file]==============================================
!==============================================================================
if (output_surface_icon==1) then
do is=1,ov%nlsf
write(cs,'(i1)') is
open(unit=30,file='norm'//cs//'.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'surface'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET UNSTRUCTURED_GRID'
write(30,'(a7,i10,a6)')'POINTS ',surface(is)%nsurface,' float'
do i=1,surface(is)%nsurface
write(30,'(3f16.11)')surface(is)%x(i),surface(is)%y(i),surface(is)%z(i)
enddo
write(30,'(a6, 2I10)') 'CELLS ',surface(is)%nt,(1+3)*surface(is)%nt
do i=1,surface(is)%nt
write(30,'(9I10)')3,surface(is)%icon(1:3,i)-1
enddo
write(30,'(A11, I10)') 'CELL_TYPES ',surface(is)%nt
do i=1,surface(is)%nt
write(30,'(I2)')5 ! octree (8 nodes)
end do
write(30,'(a11,i10)') 'POINT_DATA ',surface(is)%nsurface
write(30,'(a)')'SCALARS z float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,surface(is)%nsurface
enddo
if (is.eq.1) then
write(30,'(a)')'SCALARS erosion_rate float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,surface(is)%nsurface
enddo
write(30,'(a)')'SCALARS rock_uplift float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,surface(is)%nsurface
enddo
endif
write(30,'(a)') 'VECTORS normal float'
do i=1,surface(is)%nsurface
write(30,'(3e17.6)') surface(is)%xn(i),surface(is)%yn(i),surface(is)%zn(i)
end do
write(30,'(a)') 'VECTORS vel float'
do i=1,surface(is)%nsurface
write(30,'(3e17.6)') surface(is)%u(i),surface(is)%v(i),surface(is)%w(i)
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end do
close(30)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing norm'//cs//'.vtk'
enddo
end if
!==============================================================================
!======[produce rivers.vtk file]==============================================
!==============================================================================
if (output_rivers==1) then
allocate (donor(surface(1)%nsurface),order(surface(1)%nsurface))
call rivers (surface(1)%icon,surface(1)%nt,surface(1)%x,surface(1)%y,surface(1)%z, &
surface(1)%nsurface,donor,order)
iordermin=3
nlinks=0
do i=1,surface(1)%nsurface
if (order(i).gt.iordermin.and.donor(i).gt.0) nlinks=nlinks+1
enddo
open(unit=30,file='rivers.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'rivers'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET UNSTRUCTURED_GRID'
write(30,'(a7,i10,a6)')'POINTS ',surface(1)%nsurface,' float'
do i=1,surface(1)%nsurface
write(30,'(3f16.11)')surface(1)%x(i),surface(1)%y(i),surface(1)%z(i)+.001
enddo
write(30,'(a6, 2I10)') 'CELLS ',nlinks,(1+2)*nlinks
do i=1,surface(1)%nsurface
if (order(i).gt.iordermin.and.donor(i).gt.0) write(30,'(9I10)')2,i-1,donor(i)-1
enddo
write(30,'(A11, I10)') 'CELL_TYPES ',nlinks
do i=1,nlinks
write(30,'(I2)')3 ! octree (2 nodes)
end do
close(30)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing rivers.vtk'
deallocate (donor,order)
end if
!==============================================================================
!======[produce regular.vtk file]==============================================
!==============================================================================
if (output_regular==1) then
allocate (levs(ov%nleaves))
call octree_find_element_level (ov%octree,ov%noctree,levs,ov%nleaves)
levmax=maxval(levs)
zmax=maxval(surface(1)%z)
dz=1.d0/(2.d0**levmax)
nz=(zmax/dz)+1
allocate (str11(ov%nnode),str12(ov%nnode),str13(ov%nnode), &
str22(ov%nnode),str23(ov%nnode),str33(ov%nnode),nstrain(ov%nnode))
nstrain=0
str11=0.;str12=0.;str13=0.
str22=0.;str23=0.;str33=0.
do ie=1,ov%nleaves
if (elvoid(ie).eq.0) then
do k=1,nne
i=ov%icon(k,ie)
str11(i)=str11(i)+strain(1,1,ie)
str12(i)=str12(i)+strain(1,2,ie)
str13(i)=str13(i)+strain(1,3,ie)
str22(i)=str22(i)+strain(2,2,ie)
str23(i)=str23(i)+strain(2,3,ie)
str33(i)=str33(i)+strain(3,3,ie)
nstrain(i)=nstrain(i)+1
enddo
endif
enddo
do i=1,ov%nnode
if (nstrain(i).ne.0) then
str11(i)=str11(i)/nstrain(i)
str12(i)=str12(i)/nstrain(i)
str13(i)=str13(i)/nstrain(i)
str22(i)=str22(i)/nstrain(i)
str23(i)=str23(i)/nstrain(i)
str33(i)=str33(i)/nstrain(i)
endif
enddo
!print*,minval(str11),maxval(str11)
!print*,minval(str12),maxval(str12)
!print*,minval(str13),maxval(str13)
!print*,minval(str22),maxval(str22)
!print*,minval(str23),maxval(str23)
!print*,minval(str33),maxval(str33)
ni=nz*(2**levmax+1)*(2**levmax+1)
allocate (xi(ni),yi(ni),zi(ni),ui(ni),vi(ni),wi(ni),si(ni),ei(ni),li(ni), &
s11(ni),s12(ni),s13(ni),s22(ni),s23(ni),s33(ni))
do k=1,nz
do j=1,2**levmax+1
do i=1,2**levmax+1
ijk=ijk+1
xi(ijk)=(i-1)*dz
yi(ijk)=(j-1)*dz
zi(ijk)=(k-1)*dz
call octree_interpolate_many (12,ov%octree,ov%noctree,ov%icon,ov%nleaves,ov%nnode, &
xi(ijk),yi(ijk),zi(ijk), &
ov%u,ui(ijk),ov%v,vi(ijk),ov%w,wi(ijk), &
ov%strain,si(ijk),ov_nodee2d,ei(ijk),ov%lsf(1,1),li(ijk), &
str11,s11(ijk),str12,s12(ijk),str13,s13(ijk), &
str22,s22(ijk),str23,s23(ijk),str33,s33(ijk))
enddo
enddo
enddo
!print*,minval(s11),maxval(s11)
!print*,minval(s12),maxval(s12)
!print*,minval(s13),maxval(s13)
!print*,minval(s22),maxval(s22)
!print*,minval(s23),maxval(s23)
!print*,minval(s33),maxval(s33)
deallocate (str11,str12,str13,str22,str23,str33,strain)
do i=1,2**levmax+1
do j=1,2**levmax+1
do k=1,nz
ijk=ijk+1
! if (li(ijk).gt.0.) then
! if (k.eq.1) stop 'error in lsf1'
! ui(ijk)=ui(ijk-1)
! vi(ijk)=vi(ijk-1)
! wi(ijk)=wi(ijk-1)
! si(ijk)=si(ijk-1)
! ei(ijk)=ei(ijk-1)
! endif
enddo
enddo
enddo
allocate (azimuth1(ni),azimuth3(ni),dip1(ni),dip3(ni))
azimuth1=0.d0
azimuth3=0.d0
dip1=0.d0
dip3=0.d0
do i=1,ni
call PS (s11(i),s22(i),s33(i),s12(i),s23(i),s13(i),l1,l2,l3, &
n11,n12,n13, &
n21,n22,n23, &
n31,n32,n33)
if (n11.ne.0.d0 .or. n12.ne.0.d0) azimuth1(i)=atan2(n12,n11)
if (abs(n13).le.1.d0) dip1(i)=asin(n13)
if (n31.ne.0.d0 .or. n32.ne.0.d0) azimuth3(i)=atan2(n32,n31)
if (abs(n33).le.1.d0) dip3(i)=asin(n33)
enddo
con=45.d0/atan(1.d0)
azimuth1=azimuth1*con
azimuth3=azimuth3*con
dip1=dip1*con
dip3=dip3*con
open(unit=30,file='regular.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'regular'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET STRUCTURED_POINTS'
write(30,'(a,3i10)') 'DIMENSIONS',2**levmax+1,2**levmax+1,nz
write(30,'(a,3f16.11)') 'ORIGIN',0.,0.,0.
write(30,'(a,3f16.11)') 'SPACING',dz,dz,dz
write(30,'(a11,i10)')'POINT_DATA ',(2**levmax+1)*(2**levmax+1)*nz
write(30,'(a)')'VECTORS Velocity float'
do i=1,(2**levmax+1)*(2**levmax+1)*nz
write(30,'(3e15.4)') ui(i),vi(i),wi(i)
enddo
write(30,'(a)')'SCALARS Strain float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,(2**levmax+1)*(2**levmax+1)*nz
enddo
write(30,'(a)')'SCALARS StrainRate float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,(2**levmax+1)*(2**levmax+1)*nz
enddo
! write(30,'(a)')'SCALARS azimuth_sigma1 float 1'
! write(30,'(a)')'LOOKUP_TABLE default'
! do i=1,(2**levmax+1)*(2**levmax+1)*nz
! enddo
! write(30,'(a)')'SCALARS dip_sigma1 float 1'
! write(30,'(a)')'LOOKUP_TABLE default'
! do i=1,(2**levmax+1)*(2**levmax+1)*nz
! enddo
! write(30,'(a)')'SCALARS azimuth_sigma3 float 1'
! write(30,'(a)')'LOOKUP_TABLE default'
! do i=1,(2**levmax+1)*(2**levmax+1)*nz
! enddo
! write(30,'(a)')'SCALARS dip_sigma3 float 1'
! write(30,'(a)')'LOOKUP_TABLE default'
! do i=1,(2**levmax+1)*(2**levmax+1)*nz
! enddo
write(30,'(a)')'TENSORS StrainDot float'
do i=1,(2**levmax+1)*(2**levmax+1)*nz
write(30,'(3e14.6)') s11(i),s12(i),s13(i)
write(30,'(3e14.6)') s12(i),s22(i),s23(i)
write(30,'(3e14.6)') s13(i),s23(i),s33(i)
enddo
close(30)
deallocate (xi,yi,zi,ui,vi,wi,si,ei,li,s11,s12,s13,s22,s23,s33)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing regular.vtk '
write(*,*) '--------------------------------------------------------------------------'
endif
!==============================================================================
!======[produce zisodisp.vtk file]=============================================
!==============================================================================
open(unit=30,file='zisodisp.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'zisodisp'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET UNSTRUCTURED_GRID'
write(30,'(a7,i10,a6)')'POINTS ',int((nb+1)**2.d0),' float'
write(30,'(3f16.11)') (i-1)*dxy,(j-1)*dxy,zisodisp(i,j)
write(30,'(a6, 2I10)') 'CELLS ',int(nb**2.d0),int((4+1)*nb**2.d0)
write(30,'(9I10)')4,ptcnt,ptcnt+1,ptcnt+1+(nb+1),ptcnt+(nb+1)
ptcnt=ptcnt+1
enddo
ptcnt=ptcnt+1
enddo
write(30,'(A11, I10)') 'CELL_TYPES ',int(nb**2.d0)
do j=1,nb
do i=1,nb
write(30,'(I2)')9 ! VTK quad (4 nodes)
enddo
enddo
write(30,'(a11,i10)') 'POINT_DATA ',int((nb+1)**2.d0)
write(30,'(a)')'SCALARS zisodisp float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do j=1,nb+1
do i=1,nb+1
!write(30,'(a11,i10)') 'POINT_DATA ',int((nb+1)**2.d0)
write(30,'(a)')'SCALARS zisoslx float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do j=1,nb+1
do i=1,nb+1
if (i==1) then
write(30,'(e13.6)') (zisodisp(i+1,j)-zisodisp(i,j))/dxy
write(30,'(e13.6)') (zisodisp(i,j)-zisodisp(i-1,j))/dxy
write(30,'(e13.6)') ((zisodisp(i,j)-zisodisp(i-1,j))/dxy+&
(zisodisp(i+1,j)-zisodisp(i,j))/dxy)/2.d0
endif
enddo
enddo
close(30)
write(*,*) '--------------------------------------------------------------------------'
write(*,*)'opla I am done producing zisodisp.vtk'
end if
!==============================================================================
!======[produce cloud.vtk file]================================================
!==============================================================================
if (output_cloud==1) then
npclv=0
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) npclv=npclv+1
open(unit=30,file='cloud.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'DOUAR cloud output'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET UNSTRUCTURED_GRID'
write(30,'(a7,i10,a6)')'POINTS ',npclv,' float'
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(3f16.11)') cl%x(i),cl%y(i),cl%z(i)
write(30,'(a6, 2I10)') 'CELLS ',1,npclv+1
write(30,'(256I10)') npclv,(i-1,i=1,npclv)
write(30,'(A11, I10)') 'CELL_TYPES ',1
write(30,'(I10)') 2
write(30,'(a11,i10)') 'POINT_DATA ',npclv
write(30,'(a)')'SCALARS strain float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%strain(i)
enddo
write(30,'(a)')'SCALARS lsf0 float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%lsf0(i)
enddo
write(30,'(a)')'SCALARS temp float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%temp(i)
enddo
write(30,'(a)')'SCALARS press float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%press(i)
write(30,'(a)')'SCALARS e2dp float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
if (cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%e2dp(i)
enddo
write(30,'(a)')'SCALARS tag integer 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if (cl%lsf0(i).le.0.d0) write(iunit,'(I10)') cl%tag(i)
enddo
close(30)
write(*,*) '--------------------------------------------------------------------------'
write(*,*) 'Finished producing cloud.vtk'
!==============================================================================
!======[produce cloud0.vtk file]================================================
!==============================================================================
if (output_cloud0==1) then
Dave Whipp
committed
npclv=0
do i=1,npcl
if (cl%lsf0(i).le.0.d0) npclv=npclv+1
enddo
open(unit=30,file='cloud0.vtk')
write(30,'(a)')'# vtk DataFile Version 3.0'
write(30,'(a)')'DOUAR cloud0 output'
write(30,'(a)')'ASCII'
write(30,'(a)')'DATASET UNSTRUCTURED_GRID'
Dave Whipp
committed
write(30,'(a7,i10,a6)')'POINTS ',npclv,' float'
Dave Whipp
committed
if(cl%lsf0(i).le.0.d0) write(iunit,'(3f16.11)') cl%x0(i),cl%y0(i),cl%z0(i)
Dave Whipp
committed
write(30,'(a6, 2I10)') 'CELLS ',1,npclv+1
write(30,'(256I10)') npclv,(i-1,i=1,npclv)
write(30,'(A11, I10)') 'CELL_TYPES ',1
write(30,'(I10)') 2
Dave Whipp
committed
write(30,'(a11,i10)') 'POINT_DATA ',npclv
write(30,'(a)')'SCALARS z0 float 1'
write(30,'(a)')'LOOKUP_TABLE default'
do i=1,npcl
Dave Whipp
committed
if(cl%lsf0(i).le.0.d0) write(iunit,'(f16.11)') cl%z0(i)
enddo
close(30)
write(*,*) '--------------------------------------------------------------------------'
write(*,*) 'Finished producing cloud0.vtk'
end if
write(*,*) '**************************************************************************'