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246 lines
7.8 KiB
Plaintext
246 lines
7.8 KiB
Plaintext
5 years ago
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c----------------------------------------------------------------blocks
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subroutine blocks(nx,ny,nz,np,ne,nop,cord,nxyz,egrp,nbeg,nend,
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* nelg,nbb,nee,nelb,nblk,egps,itype,ebox,m,num)
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c---------------------------------------------------------------------c
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c Purpose: c
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c To divide FE mesh into blocks. c
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c---------------------------------------------------------------------c
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common /etype/inode(4)
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integer*2 nop
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dimension nop(20,1),cord(3,1),egrp(6,1),nbeg(1),nend(1),
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* nelg(1),nee(1),nbb(1),nelb(1),nblk(2,1),egps(6,1),
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* itype(1),ebox(6,1)
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c
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xmax=cord(1,1)
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xmin=cord(1,1)
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ymax=cord(2,1)
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ymin=cord(2,1)
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zmax=cord(3,1)
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zmin=cord(3,1)
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disd=0.0
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do i=1,ne
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if(nop(9,i).eq.0) goto 10
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c
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c----------store element type
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c
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if(nop(20,i).ne.0) then
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itype(i)=3
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else if(nop(15,i).ne.0) then
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itype(i)=2
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else if(nop(13,i).ne.0) then
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itype(i)=4
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else
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itype(i)=1
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endif
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c
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c----------find B.L. and T.R. conners of each element
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c
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ebox(1,i)=cord(1,nop(1,i))
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ebox(4,i)=cord(1,nop(1,i))
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ebox(2,i)=cord(2,nop(1,i))
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ebox(5,i)=cord(2,nop(1,i))
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ebox(3,i)=cord(3,nop(1,i))
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ebox(6,i)=cord(3,nop(1,i))
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do k=2,inode(itype(i))
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ebox(1,i)=min(ebox(1,i),cord(1,nop(k,i)))
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ebox(4,i)=max(ebox(4,i),cord(1,nop(k,i)))
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ebox(2,i)=min(ebox(2,i),cord(2,nop(k,i)))
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ebox(5,i)=max(ebox(5,i),cord(2,nop(k,i)))
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ebox(3,i)=min(ebox(3,i),cord(3,nop(k,i)))
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ebox(6,i)=max(ebox(6,i),cord(3,nop(k,i)))
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enddo
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ebox(1,i)=ebox(1,i)-1.0e-5*abs(ebox(1,i))
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ebox(4,i)=ebox(4,i)+1.0e-5*abs(ebox(4,i))
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ebox(2,i)=ebox(2,i)-1.0e-5*abs(ebox(2,i))
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ebox(5,i)=ebox(5,i)+1.0e-5*abs(ebox(5,i))
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ebox(3,i)=ebox(3,i)-1.0e-5*abs(ebox(3,i))
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ebox(6,i)=ebox(6,i)+1.0e-5*abs(ebox(6,i))
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c
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c----------calculate the maximum diagonal distance
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c
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disd0=sqrt((ebox(4,i)-ebox(1,i))*(ebox(4,i)-ebox(1,i))+
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* (ebox(5,i)-ebox(2,i))*(ebox(5,i)-ebox(2,i)))
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disd=max(disd,disd0)
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c
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c-------find B.L. and T.R. conners of the FE mesh
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c
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xmax=max(xmax,ebox(4,i))
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xmin=min(xmin,ebox(1,i))
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ymax=max(ymax,ebox(5,i))
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ymin=min(ymin,ebox(2,i))
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zmax=max(zmax,ebox(6,i))
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zmin=min(zmin,ebox(3,i))
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10 enddo
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m=1
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dx=(xmax-xmin)/float(nx)
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if(dx.lt.disd) then
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nx=(xmax-xmin)/disd
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if(nx.lt.1) nx=1
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dx=(xmax-xmin)/float(nx)
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endif
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dy=(ymax-ymin)/float(ny)
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if(dy.lt.disd) then
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ny=(ymax-ymin)/disd
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if(ny.lt.1) ny=1
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dy=(ymax-ymin)/float(ny)
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endif
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dz=(zmax-zmin)/float(nz)
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x=xmin
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c
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c-------divide into blocks
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c
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do i=1,nx
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y=ymin
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do j=1,ny
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z=zmin
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do k=1,nz
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egrp(1,m)=x-dx*0.01
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egrp(2,m)=y-dy*0.01
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egrp(3,m)=z-dz*0.01
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egrp(4,m)=x+dx*1.01
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egrp(5,m)=y+dy*1.01
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egrp(6,m)=z+dz*1.01
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z=z+dz
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m=m+1
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enddo
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y=y+dy
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enddo
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x=x+dx
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enddo
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nxyz=nx*ny*nz
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nxyz0=nxyz
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num=1
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do i=1,nxyz
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nbeg(i)=num
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do j=1,ne
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if(nop(9,j).ne.0) then
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do k=1,inode(itype(j))
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if(cord(1,nop(k,j)).gt.egrp(4,i).or.
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* cord(1,nop(k,j)).lt.egrp(1,i)) goto 30
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if(cord(2,nop(k,j)).gt.egrp(5,i).or.
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* cord(2,nop(k,j)).lt.egrp(2,i)) goto 30
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if(cord(3,nop(k,j)).gt.egrp(6,i).or.
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* cord(3,nop(k,j)).lt.egrp(3,i)) goto 30
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nelg(num)=j
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num=num+1
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goto 40
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30 enddo
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endif
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40 enddo
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nend(i)=num-1
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enddo
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i=1
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45 if(nend(i)-nbeg(i).lt.0) then
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nxyz=nxyz-1
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do j=i,nxyz
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nbeg(j)=nbeg(j+1)
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nend(j)=nend(j+1)
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do k=1,6
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egrp(k,j)=egrp(k,j+1)
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enddo
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enddo
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else
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i=i+1
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endif
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if(i.le.nxyz) goto 45
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c
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c-------divide into sub-blocks
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c
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m=1
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num=1
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do n=1,nxyz
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num_elem=nend(n)-nbeg(n)+1
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if(num_elem.gt.nxyz+nxyz) then
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a_multiplier=sqrt(float(num_elem))/float(nx*ny)
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nxs=int(nx*a_multiplier)
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if(nxs.lt.1) nxs=1
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nys=int(ny*a_multiplier)
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if(nys.lt.1) nys=1
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dx=(egrp(4,n)-egrp(1,n))/float(nxs)
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dy=(egrp(5,n)-egrp(2,n))/float(nys)
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if(dx.lt.disd) then
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nxs=(egrp(4,n)-egrp(1,n))/disd
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if(nxs.lt.1) nxs=1
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dx=(egrp(4,n)-egrp(1,n))/float(nxs)
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endif
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if(dy.lt.disd) then
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dy=disd
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nys=(egrp(5,n)-egrp(2,n))/disd
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if(nys.lt.1) nys=1
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dy=(egrp(5,n)-egrp(2,n))/float(nys)
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endif
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nxyzs=nxs*nys
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if(nxyzs.le.1) goto 70
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dz=(egrp(6,n)-egrp(3,n))
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nblk(1,n)=nxyzs
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nblk(2,n)=m
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x=egrp(1,n)
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do i=1,nxs
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y=egrp(2,n)
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do j=1,nys
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z=egrp(3,n)
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egps(1,m)=x-0.01*dx
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egps(2,m)=y-0.01*dy
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egps(3,m)=z-0.01*dz
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egps(4,m)=x+dx*1.01
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egps(5,m)=y+dy*1.01
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egps(6,m)=z+dz*1.01
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y=y+dy
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m=m+1
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enddo
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x=x+dx
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enddo
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do i=nblk(2,n),nblk(2,n)+nblk(1,n)-1
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nbb(i)=num
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do j=nbeg(n),nend(n)
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if(nop(9,nelg(j)).ne.0) then
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do k=1,inode(itype(nelg(j)))
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if(cord(1,nop(k,nelg(j))).gt.egps(4,i).or.
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* cord(1,nop(k,nelg(j))).lt.egps(1,i)) goto 50
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if(cord(2,nop(k,nelg(j))).gt.egps(5,i).or.
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* cord(2,nop(k,nelg(j))).lt.egps(2,i)) goto 50
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if(cord(3,nop(k,nelg(j))).gt.egps(6,i).or.
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* cord(3,nop(k,nelg(j))).lt.egps(3,i)) goto 50
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nelb(num)=nelg(j)
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num=num+1
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goto 60
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50 enddo
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endif
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60 enddo
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nee(i)=num-1
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enddo
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i=nblk(2,n)
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65 if(nee(i)-nbb(i).lt.0) then
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nblk(1,n)=nblk(1,n)-1
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m=m-1
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do j=i,nblk(2,n)+nblk(1,n)-1
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nbb(j)=nbb(j+1)
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nee(j)=nee(j+1)
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do k=1,6
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egps(k,j)=egps(k,j+1)
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enddo
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enddo
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else
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i=i+1
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endif
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if(i.le.nblk(2,n)+nblk(1,n)-1) goto 65
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else
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70 nblk(1,n)=1
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nblk(2,n)=m
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nbb(m)=num
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do i=nbeg(n),nend(n)
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nelb(num)=nelg(i)
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num=num+1
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enddo
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do j=1,6
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egps(j,m)=egrp(j,n)
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enddo
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nee(m)=num-1
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m=m+1
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endif
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enddo
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return
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end
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