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|
*DECK NXTTLS
SUBROUTINE NXTTLS(IPTRK ,IFTEMP,IPRINT,IGTRK ,NDIM ,MAXMSH,
> NFSUR ,NFREG ,NUCELL,NBUCEL,NBANGL,NQUAD ,
> NPLANE,NPOINT,LINMAX,MXGSUR,MXGREG,RENO ,
> MAXPIN,NBTDIR,NBDR ,ITYPBC,IFMT ,
> RCUTOF,SPACLN,WEIGHT,RADIUS,CENTER,
> IUNFLD,SURVOL,DGMESH,DANGLT,DDENWT,
> MAXSGL,NTLINE,DVNOR ,DSNOR)
*
*-----------------------------------------------------------------------
*
*Purpose:
* To generate the standard tracking lines (isotropic tracking)
* for a geometry.
*
*Copyright:
* Copyright (C) 2005 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
*Author(s):
* G. Marleau
*
*Parameters: input
* IPTRK pointer to the TRACKING data structure in
* update or creation mode.
* IFTEMP pointer to a temporary TRACKING data structure in
* update or creation mode.
* IPRINT print level.
* IGTRK flag to generate the tracking file. In the case where
* IGTRK=1, the tracking is performed and
* used to evaluate the track normalisation factor and the
* tracking file is generated. When IGTRK=0, the tracking is
* still performed and used to evaluate the
* track normalisation factor but the tracking file is not
* generated.
* NDIM problem dimensions.
* MAXMSH maximum number of elements in MESH array.
* NFSUR number of surfaces.
* NFREG number of regions.
* NUCELL number of cell after unfolding in
* $X$, $Y$ and $Z$ directions.
* NBUCEL number of cells in unfolded geometry.
* NBANGL number of angles.
* NQUAD number of quadrant (in 3-D) and quarter (in 2-D).
* NPLANE number of normal planes considered.
* NPOINT number of integration points along each axis
* in a plane mormal to track direction.
* LINMAX maximum number of segments in a track.
* MXGSUR maximum number of surfaces for any geometry.
* MXGREG maximum number of region for any geometry.
* RENO track normalisation option. A value RENO=-1 implies
* a direction dependent normalization of the tracks
* for the volume while a value RENO=0, implies
* a global normalisation.
* MAXPIN maximum number of pins in a cell.
* NBTDIR number of tracks directions considered.
* NBDR number of directions for track normalization.
* ITYPBC type of boundary conditions where:
* =0 for geometry with Cartesianb oundaries;
* =1 for geometry with annular boundary;
* =2 for geometry with hexagonal boundary.
* IFMT tracking file format:
* =0 for short file;
* =1 long file required by TLM:.
* RCUTOF corner cutoff.
* SPACLN linear track spacing in the plane.
* WEIGHT weight associated with each line in the plane.
* RADIUS radius of circle (2-D) or sphere (3-D) surrounding
* the geometry.
* CENTER center of circle (2-D) or sphere (3-D) surrounding
* the geometry.
* IUNFLD description of unfolded geometry.
* SURVOL global surface volume vector.
* DGMESH meshing vector for global geometry.
* DANGLT angles.
* DDENWT angular density for each angle.
*
*Parameters: output
* MAXSGL maximum number of segments in a line.
* NTLINE total number of lines generated.
* DVNOR ratio of analytic to tracked volume.
* DSNOR ratio of analytic to tracked surface area.
*
*Reference:
* G. Marleau,
* New Geometries Processing in DRAGON: The NXT: Module,
* Report IGE-260, Polytechnique Montreal,
* Montreal, 2005.
* \\\\
* Based on the XELTI2 and XELTI3 routines.
*
*----------
*
USE GANLIB
IMPLICIT NONE
*----
* Subroutine arguments
*----
TYPE(C_PTR) IPTRK
INTEGER IFTEMP
INTEGER IPRINT,IGTRK,NDIM,MAXMSH,NFSUR,NFREG,
> NUCELL(3),NQUAD,NBANGL,NBUCEL,
> NPLANE,NPOINT,LINMAX,MXGSUR,MXGREG,RENO,
> MAXPIN,NTLINE,NBTDIR,NBDR,ITYPBC,IFMT,MAXSGL
DOUBLE PRECISION RCUTOF,SPACLN,WEIGHT
DOUBLE PRECISION RADIUS,CENTER(NDIM)
INTEGER IUNFLD(2,NBUCEL)
DOUBLE PRECISION SURVOL(-NFSUR:NFREG),DGMESH(-1:MAXMSH,5),
> DANGLT(NDIM,NQUAD,NBANGL),DDENWT(NQUAD,NBANGL),
> DVNOR(NFREG,NBDR),
> DSNOR(NFSUR)
*----
* Local parameters
*----
INTEGER IOUT
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NAMSBR='NXTTLS')
DOUBLE PRECISION DCUTOF,DZERO,DONE,DTWO
PARAMETER (DCUTOF=1.0D-8,DZERO=0.0D0,DONE=1.0D0,DTWO=2.0D0)
*----
* Functions
*----
DOUBLE PRECISION XDRCST,PI
INTEGER NXTLCA,NXTLHA,IRLA
*----
* Local variables
*----
INTEGER NPO2,NCUTOF,
> ITDIR,IANGL,IQUAD,IPLANE,IDIR,
> NPTA2,NPTA3,IPTA2,IPTA3,ITST,NBCOR(2),NBSINT,
> ITRN,ICEL,ICI,JLINE,IBLIN,IELIN,NBSEG,ISURF,
> IX,IY,IZ,IOX,IOY,IOZ,IOC,LMAXT
DOUBLE PRECISION RAD2G,RAD2T,ANGLES(3,3),DNPDIR(3,2,3),
> TRKORI(3),TRKOR2(3),TCUTOF(3,2,2),TRKLIM(2),
> CELLPO(3,2),DSTART,DCERR,FACVOL,FACSUR,
> DSVERR,DMVERR,DAVERR,DSSERR,DMSERR,DASERR,DERR
DOUBLE PRECISION DWGT,DAWGT,VCONT,VCONTA,WGTFAC,TORIG(3)
INTEGER ISEG,JSEG,IREG,ILREG,ISUR,NBVERR,NBSERR,
> NBV0,NBV1,NBS0,IPRINL
INTEGER ISD,NSDEB,ISF,NSFIN,NBREG,ISBL,NTSEG,IST
INTEGER IOFF,NGLINE
DOUBLE PRECISION TOTVE,TOTVA,TOTVD,TOTVDR,DELV,
> TOTSE,TOTSA,TOTSD,TOTSDR,DELS
INTEGER NICSS,ICISS,ICSR,ICSRR
*----
* Allocatable arrays (local)
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: NUMERO
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ICINT
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: LENGTH,DLENGT,
> DCINT,DWGTRK
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:) :: DDIRET
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:,:,:) :: DORITR
*----
* Data
*----
CHARACTER CDIR(4)*1
SAVE CDIR
DATA CDIR /'X','Y','Z','R'/
*----
* Processing starts:
* print routine openning output header if required
* and initialize various parameters.
*----
IF(IPRINT .GE. 1) THEN
WRITE(IOUT,6000) NAMSBR
ENDIF
LMAXT=4*(NBUCEL+4)
WGTFAC=DONE
PI=XDRCST('Pi',' ')
MAXSGL=0
ITST=RENO
ITST=1
NPTA2=NPOINT
NPTA3=1
RAD2G=RADIUS*RADIUS
IF(NDIM .EQ. 3) NPTA3=NPOINT
DVNOR(:NFREG,:NBDR)=DZERO
DSNOR(:NFSUR)=DZERO
NPO2=NPOINT/2
IF(RCUTOF .EQ. DZERO) THEN
NCUTOF= 1
ELSE
NCUTOF= 4
ENDIF
IOC=0
*----
* Allocate: temporary storage (local)
* NUMERO region/surface identification number for segment.
* LENGTH segment length.
* DLENGT spatial location of each line segment.
* ICINT identification of spatial position for each
* line segment in cell description of geometry.
* DCINT position of each intersection point for each
* line segment in cell description of geometry.
* DDIRET direction of tracking lines.
* DWGTRK weight of tracking lines.
* DORITR origin of tracking lines.
*----
ALLOCATE(NUMERO(LINMAX),ICINT(0:5,LMAXT))
ALLOCATE(LENGTH(LINMAX),DLENGT(LINMAX),DCINT(LMAXT),
> DDIRET(NDIM,NQUAD*NBANGL),DWGTRK(NQUAD*NBANGL),
> DORITR(NDIM*(NDIM+1),NPLANE,NQUAD*NBANGL))
*----
* Compute number of track directions
*----
NBTDIR=0
DO IANGL=1,NBANGL
DO IQUAD=1,NQUAD
IF(DDENWT(IQUAD,IANGL) .GT. DZERO) THEN
NBTDIR=NBTDIR+1
ENDIF
ENDDO
ENDDO
FACVOL=DTWO
IF(NDIM .EQ. 2) THEN
FACSUR=PI
ELSE
FACSUR=DTWO*DTWO
ENDIF
IF(IPRINT .GT. 1000) THEN
IF(ITYPBC .EQ. 2) THEN
WRITE(IOUT,6070) 'DGMESH X',NUCELL(1)
WRITE(IOUT,6071) (DGMESH(IX,1),IX=-1,NUCELL(1))
WRITE(IOUT,6070) 'DGMESH Y',NUCELL(1)
WRITE(IOUT,6071) (DGMESH(IX,2),IX=-1,NUCELL(1))
IF(NDIM .EQ.3) THEN
WRITE(IOUT,6070) 'DGMESH Z',NUCELL(3)
WRITE(IOUT,6071) (DGMESH(IX,3),IX=-1,NUCELL(3))
ENDIF
ELSE
DO IDIR=1,NDIM
WRITE(IOUT,6070) 'DGMESH '//CDIR(IDIR),NUCELL(IDIR)
WRITE(IOUT,6071) (DGMESH(IX,IDIR),IX=-1,NUCELL(IDIR))
ENDDO
ENDIF
ENDIF
DDIRET(:NDIM,:NQUAD*NBANGL)=DZERO
DWGTRK(:NQUAD*NBANGL)=DZERO
DORITR(:NDIM*(NDIM+1),:NPLANE,:NQUAD*NBANGL)=DZERO
*----
* Loop over angles in a quarter (2-D) or a quadrant (3-D)
*----
NGLINE=0
NTLINE=0
ITDIR=0
DO IANGL=1,NBANGL
*----
* Loop over 2 quarters (2-D) or 4 quadrants (3-D)
*----
DO IQUAD=1,NQUAD
*----
* Do not track angle with 0 density
* because of the problem symmetry
*----
IF(DDENWT(IQUAD,IANGL) .EQ. DZERO) GO TO 105
DWGT=WEIGHT/DDENWT(IQUAD,IANGL)
DAWGT=WEIGHT
*----
* Track this angle
*----
ITDIR=ITDIR+1
DWGTRK(ITDIR)=DWGT
*----
* Find planes mormal to selected direction
*----
TRKORI(:3)=DZERO
TRKOR2(:3)=DZERO
ANGLES(:3,:3)=DZERO
DNPDIR(:3,:2,:3)=DZERO
DO IDIR=1,NDIM
ANGLES(IDIR,1)=DANGLT(IDIR,IQUAD,IANGL)
DDIRET(IDIR,ITDIR)=ANGLES(IDIR,1)
ENDDO
CALL NXTQPS(NDIM,ANGLES,DNPDIR)
*----
* Loop over planes normal to direction
* 1 in 2-D and 3 in 3-D
*----
DO IPLANE=1,NPLANE
DO IDIR=1,NDIM
DO JLINE=2,NDIM
ANGLES(IDIR,JLINE)=SPACLN*DNPDIR(IDIR,JLINE-1,IPLANE)
ENDDO
IF(NCUTOF .NE. 1)THEN
TCUTOF(IDIR,1,1)=RCUTOF*(ANGLES(IDIR,2)+ANGLES(IDIR,3))
TCUTOF(IDIR,1,2)=RCUTOF*(ANGLES(IDIR,2)-ANGLES(IDIR,3))
TCUTOF(IDIR,2,1)=-TCUTOF(IDIR,1,2)
TCUTOF(IDIR,2,2)=-TCUTOF(IDIR,1,1)
ENDIF
TRKOR2(IDIR)=CENTER(IDIR)
> -DBLE(NPO2+1)*(ANGLES(IDIR,2)+ANGLES(IDIR,3))
ENDDO
*----
* Fill array for localisation of integration lines
*----
DO IDIR=1,NDIM
DORITR(IDIR,IPLANE,ITDIR)=TRKOR2(IDIR)
ENDDO
IOFF=NDIM
DO JLINE=1,NDIM
DO IDIR=1,NDIM
DORITR(IDIR+IOFF,IPLANE,ITDIR)=ANGLES(IDIR,JLINE)
ENDDO
IOFF=IOFF+NDIM
ENDDO
*----
* Loop over lines on first normal axis (direction 2)
*----
DO IPTA2=1,NPTA2
*----
* Displace starting point by an additional value of SPALLN
* along first normal axis (direction 2)
*----
DO IDIR=1,NDIM
TRKOR2(IDIR)=TRKOR2(IDIR)+ANGLES(IDIR,2)
TRKORI(IDIR)=TRKOR2(IDIR)
ENDDO
*----
* For 3-D models:
* Loop over lines on second normal axis (direction 3)
* For 2-D models:
* NPTA3=1
*----
DO IPTA3=1,NPTA3
RAD2T=0.0
*----
* For 3-D models:
* Displace starting point by an additional value of SPALLN
* along second normal axis (direction 3)
* For 2-D models:
* No displacement since ANGLES(IDIR,3)=0
*----
NGLINE=NGLINE+1
DO IDIR=1,NDIM
TRKORI(IDIR)=TRKORI(IDIR)+ANGLES(IDIR,3)
RAD2T=RAD2T+(TRKORI(IDIR)-CENTER(IDIR))**2
ENDDO
*----
* Eliminate tracks outside circle or sphere surrounding geometry
*----
IF(RAD2T .GT. RAD2G) GO TO 115
*----
* Find cells crossed by track
*----
IPRINL=IPRINT
* IF(NTLINE+1 .EQ. 676
* > .OR. NTLINE+1 .EQ. 1814
* > .OR. NTLINE+1 .EQ. 1831
* > ) IPRINL=IPRINT+4000
IRLA=-1
IF(ITYPBC .EQ. 0) THEN
*----
* Cartesian assembly
*----
IRLA=NXTLCA(IPRINL,ITST ,NDIM ,MAXMSH,LMAXT,
> NUCELL,TRKORI,ANGLES,DGMESH,
> NBCOR ,NBSINT,ICINT ,DCINT)
ELSE IF(ITYPBC .EQ. 1) THEN
*----
* Annular assembly
*----
CALL XABORT(NAMSBR//': Circular BC not implemented')
ELSE IF(ITYPBC .EQ. 2) THEN
*----
* Hexagonal assembly
*----
IRLA=NXTLHA(IPRINL,ITST ,NDIM ,MAXMSH,LMAXT,
> NUCELL,TRKORI,ANGLES,DGMESH,
> NBCOR ,NBSINT,ICINT ,DCINT)
ENDIF
IF(IRLA .EQ. -1) CALL XABORT(NAMSBR//
>': This type of cell cannot be tracked by NXT:')
*----
* When no external face crossed go to next line
*----
IF(IRLA .EQ. 0) GO TO 115
*----
* Test for multiple line segments in hexagonal assemblies
*
*----
NICSS=1
IF(ITYPBC .EQ. 2) THEN
DO ICI=2,NBSINT
IF(ICINT(0,ICI) .EQ. 0) THEN
NICSS=NICSS+1
ENDIF
ENDDO
ICSRR=NBCOR(1)+1
ELSE
ICSRR=NBCOR(1)+1
ENDIF
*----
* For each region crossed loop track geometry
* present in this region
*----
* write(6,*) 'NICSS,ICSRR=',NICSS,ICSRR
DO ICISS=1,NICSS
ICSR=ICSRR
NTLINE=NTLINE+1
IF(IPRINL .GE. 500) THEN
WRITE(IOUT,6039)
WRITE(IOUT,6040) NTLINE,ITDIR,IPLANE,
> IPTA2,IPTA3,WEIGHT,SPACLN
WRITE(IOUT,6041) NTLINE,TRKORI
WRITE(IOUT,6042) NTLINE,ANGLES
WRITE(IOUT,6043) NTLINE,DCINT(ICSR-1)
ELSE IF(IPRINL .GE. 50) THEN
WRITE(IOUT,6040) NTLINE,ITDIR,IPLANE,
> IPTA2,IPTA3,WEIGHT,SPACLN
ENDIF
IBLIN=1
IELIN=0
NUMERO(IBLIN)=0
DLENGT(IBLIN)=DCINT(ICSR-1)
DSTART=DCINT(ICSR-1)
IBLIN=IBLIN+1
DO ICI=ICSR,NBSINT-NBCOR(2)+1
ICSRR=ICSRR+1
IF(ITYPBC .EQ. 0) THEN
IX=ICINT(1,ICI)
IY=ICINT(2,ICI)
IOX=IX
CELLPO(1,2)=DGMESH(IX,1)
CELLPO(1,1)=DGMESH(IX-1,1)
CELLPO(2,2)=DGMESH(IY,2)
CELLPO(2,1)=DGMESH(IY-1,2)
IOY=(IY-1)*NUCELL(1)
IOZ=0
IF(NDIM .EQ. 3) THEN
IZ=ICINT(3,ICI)
IOZ=(IZ-1)*NUCELL(1)*NUCELL(2)
CELLPO(3,2)=DGMESH(IZ,3)
CELLPO(3,1)=DGMESH(IZ-1,3)
ENDIF
IOC=IOX+IOY+IOZ
ELSE IF(ITYPBC .EQ. 2) THEN
IOC=ICINT(0,ICI+1)
*----
* For multiple track segment IOC=0 indicates that the current
* segment is completed and that a new track segment should be
* started at ICI+2
*----
IF(IOC .EQ. 0) THEN
ICSRR=ICSRR+2
GO TO 125
ENDIF
IOC=ICINT(0,ICI)
IX=ICINT(1,ICI)
IY=ICINT(1,ICI)
CELLPO(1,2)=DGMESH(IX,1)
CELLPO(1,1)=DGMESH(IX,1)
CELLPO(2,2)=DGMESH(IY,2)
CELLPO(2,1)=DGMESH(IY,2)
IF(NDIM .EQ. 3) THEN
IZ=ICINT(3,ICI)
IOZ=(IZ-1)*NUCELL(1)
CELLPO(3,2)=DGMESH(IZ,3)
CELLPO(3,1)=DGMESH(IZ-1,3)
IOC=IOZ+IX
ENDIF
ENDIF
ICEL=IUNFLD(1,IOC)
ITRN=IUNFLD(2,IOC)
TRKLIM(1)=DSTART
DSTART=DSTART+DCINT(ICI)
TRKLIM(2)=DSTART
IF(ICI .EQ. NBCOR(1)+1) THEN
*----
* initial surfaces (at TRKLIM(1)) considered
*----
ISURF=-1
ELSE IF(ICI .EQ. NBSINT-NBCOR(2)) THEN
*----
* final surfaces (at TRKLIM(2)) considered
*----
ISURF=1
ELSE
*----
* no surface considered
*----
ISURF=0
ENDIF
*----
* Track turned Cell
*----
CALL NXTTCR(IPTRK ,IPRINL,ICEL ,ITRN ,ISURF ,
> NDIM ,MAXMSH,LINMAX,MXGSUR,MXGREG,
> MAXPIN,CELLPO,TRKLIM,TRKORI,ANGLES,
> IBLIN ,IELIN ,NUMERO,DLENGT)
DERR=MAX(ABS(TRKLIM(1)),ABS(TRKLIM(2)))
DERR=(DLENGT(IELIN)-DSTART)/DERR
IF(DERR .GT. DCUTOF) THEN
WRITE(IOUT,9100) NAMSBR,NTLINE,
> DLENGT(IELIN),DSTART,DERR
CALL XABORT(NAMSBR//
>': End of track does not coincide with end of cell')
ENDIF
IBLIN=IELIN+1
ENDDO
125 CONTINUE
NBSEG=IELIN
*----
* Compress tracking vector for region with DLENGT=0.0 and
* for successive segments in the same region.
*----
JSEG=0
ILREG=-1
NBREG=0
DO ISEG=1,NBSEG
IREG=NUMERO(ISEG)
IF(DLENGT(ISEG) .GT. DZERO) THEN
IF(IREG .GT. 0) THEN
IF(IREG .EQ. ILREG) THEN
DLENGT(JSEG)=DLENGT(JSEG)+DLENGT(ISEG)
ELSE
JSEG=JSEG+1
DLENGT(JSEG)=DLENGT(ISEG)
NUMERO(JSEG)=IREG
ILREG=IREG
ENDIF
ELSE
JSEG=JSEG+1
DLENGT(JSEG)=DLENGT(ISEG)
NUMERO(JSEG)=IREG
ILREG=-1
ENDIF
ENDIF
ENDDO
NBSEG=JSEG
*----
* Add contribution of track to volume integration for this angle
* in this quadrant and compress tracking line by removing
* segments with NUMERO=0.
*----
JSEG=0
NSDEB=0
NSFIN=0
NBREG=0
DO ISEG=1,NBSEG
IREG=NUMERO(ISEG)
IF(DLENGT(ISEG) .GT. DZERO) THEN
IF(IREG .GT. 0) THEN
NBREG=NBREG+1
VCONT=DLENGT(ISEG)*DWGT*FACVOL
DVNOR(IREG,1)=DVNOR(IREG,1)+VCONT
IF(NBDR .GT. 1) THEN
VCONTA=DLENGT(ISEG)*DAWGT
DVNOR(IREG,ITDIR+1)=DVNOR(IREG,ITDIR+1)+VCONTA
ENDIF
JSEG=JSEG+1
LENGTH(JSEG)=DLENGT(ISEG)
NUMERO(JSEG)=IREG
ELSE IF(IREG .LT. 0) THEN
IF(NBREG .EQ. 0) THEN
NSDEB=NSDEB+1
ELSE
NSFIN=NSFIN+1
ENDIF
DSNOR(-IREG)=DSNOR(-IREG)
> +DLENGT(ISEG)*DWGT*FACSUR
JSEG=JSEG+1
LENGTH(JSEG)=DLENGT(ISEG)
NUMERO(JSEG)=IREG
ENDIF
ENDIF
ENDDO
NBSEG=JSEG
IF(NSDEB .GT. 1 .OR. NSFIN .GT. 1) THEN
IF(IPRINL .GE. 500) THEN
WRITE(IOUT,6025) NTLINE,ITDIR,NBSEG,
> NSDEB,NSFIN,NBREG,
> DLENGT(1),DLENGT(NBSEG)
WRITE(IOUT,6023) 'LineReg',NTLINE
WRITE(IOUT,6021) (NUMERO(ISEG),ISEG=1,NBSEG)
WRITE(IOUT,6024)
WRITE(IOUT,6023) 'LinePos',NTLINE
WRITE(IOUT,6022) (LENGTH(ISEG),ISEG=1,NBSEG)
WRITE(IOUT,6024)
ENDIF
ENDIF
MAXSGL=MAX(MAXSGL,NBSEG)
IF(NSDEB*NSFIN .EQ. 0) THEN
*----
* Missing outer or inner surface
* Skip track and return warning
*----
WRITE(IOUT,9006) NAMSBR
WRITE(IOUT,9026) NTLINE,ITDIR,NBSEG,NSDEB,NSFIN,
> DLENGT(1),DLENGT(NBSEG)
ELSE
*----
* Store line on temporary tracking file if required
*----
WGTFAC=DONE/DBLE(NSDEB*NSFIN)
IF(IPRINL .GE. 500) THEN
WRITE(IOUT,6020) NTLINE,ITDIR,NBSEG,DWGT*WGTFAC,
> DLENGT(1),DLENGT(NBSEG)
* WRITE(6,*) IPLANE,IPTA2,IPTA3,
* > (TRKORI(IST),IST=1,NDIM),DCINT(ICSR-1)
WRITE(IOUT,6023) 'LineReg',NTLINE
WRITE(IOUT,6021) (NUMERO(ISEG),ISEG=1,NBSEG)
WRITE(IOUT,6024)
WRITE(IOUT,6023) 'LinePos',NTLINE
WRITE(IOUT,6022) (LENGTH(ISEG),ISEG=1,NBSEG)
WRITE(IOUT,6024)
ENDIF
NTSEG=NBSEG-NSDEB-NSFIN+2
ISBL=0
DO ISD=1,NSDEB
DO ISF=0,NSFIN-1
ISBL=ISBL+1
IF(NSDEB*NSFIN .GT. 1 .AND. IPRINL .GE. 500)
> WRITE(IOUT,6026) NTLINE-1+ISBL,NTLINE,ISBL
IF(IGTRK .EQ. 1) THEN
IF(IFMT .EQ. 1) THEN
DO IST=1,NDIM
TORIG(IST)=TRKORI(IST)+DCINT(ICSR-1)*
> DANGLT(IST,IQUAD,IANGL)
ENDDO
WRITE(IFTEMP) 1,NTSEG,DWGT*WGTFAC,ITDIR,
> NUMERO(ISD),
> (NUMERO(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> NUMERO(NBSEG-ISF),
> DONE,
> (LENGTH(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> DONE,
> NTLINE-1+ISBL,IPLANE,IPTA2,IPTA3,
> (TORIG(IST),IST=1,NDIM)
ELSE
WRITE(IFTEMP) 1,NTSEG,DWGT*WGTFAC,ITDIR,
> NUMERO(ISD),
> (NUMERO(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> NUMERO(NBSEG-ISF),
> DONE,
> (LENGTH(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> DONE
ENDIF
ENDIF
ENDDO
ENDDO
ENDIF
IF(ISBL .EQ. 0) THEN
WRITE(IOUT,6027) NTLINE,ITDIR,NBSEG,
> NSDEB,NSFIN,NBREG,
> NUMERO(1),DLENGT(1),
> NUMERO(NBSEG),DLENGT(NBSEG)
ISBL=1
IF(IGTRK .EQ. 1) THEN
WRITE(IFTEMP) 1,NTSEG,DWGT*WGTFAC,ITDIR,
> NUMERO(1),
> (NUMERO(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> NUMERO(NBSEG),
> DONE,
> (LENGTH(ISEG),ISEG=NSDEB+1,NBSEG-NSFIN),
> DONE
ENDIF
ENDIF
NTLINE=NTLINE-1+ISBL
ENDDO
*----
* Exit because line is outside circle or sphere surrounding geometry
*----
115 CONTINUE
*----
* END loop over points on second normal axis
*----
ENDDO
*----
* END loop over points on first normal axis
*----
ENDDO
*----
* END loop over planes
*----
ENDDO
*----
* Exit because angle with 0 density not tracked
*----
105 CONTINUE
*----
* END loop over quarter or quadrant
*----
ENDDO
*----
* END loop over angles
*----
ENDDO
*----
* Save general tracking information
*----
CALL LCMPUT(IPTRK,'TrackingOrig',
> NDIM*(NDIM+1)*NPLANE*NBTDIR,4,DORITR)
CALL LCMPUT(IPTRK,'TrackingWgtD',NBTDIR,4,DWGTRK)
CALL LCMPUT(IPTRK,'TrackingDirc',NDIM*NBTDIR,4,DDIRET)
*----
* Compute DVNOR and DSNOR by comparing ratio of analytical
* to numerically integrated volume or surfaces.
*----
NBVERR=0
DSVERR=DZERO
DMVERR=DZERO
DAVERR=DZERO
NBV0=0
NBV1=0
TOTVE=DZERO
TOTVA=DZERO
TOTVD=DZERO
TOTVDR=DZERO
DO IREG=1,NFREG
IF(IPRINT .GE. 20 ) THEN
WRITE(IOUT,6030) IREG,
> SURVOL(IREG),DVNOR(IREG,1)
ENDIF
TOTVE=TOTVE+SURVOL(IREG)
TOTVA=TOTVA+DVNOR(IREG,1)
DELV=SURVOL(IREG)-DVNOR(IREG,1)
TOTVDR=TOTVDR+DELV*DELV
DO IDIR=1,NBDR
IF(DVNOR(IREG,IDIR) .EQ. DZERO) THEN
IF(IPRINT .GE. 10) THEN
WRITE(IOUT,9000) NAMSBR,IREG,ITDIR
ENDIF
DVNOR(IREG,IDIR)=DONE
IF(IDIR .EQ. 1) THEN
NBV0=NBV0+1
ELSE
NBV1=NBV1+1
ENDIF
ELSE
DVNOR(IREG,IDIR)=SURVOL(IREG)
> /DVNOR(IREG,IDIR)
IF(IDIR .EQ. 1) THEN
NBVERR=NBVERR+1
ENDIF
ENDIF
ENDDO
DCERR=100.0D0*(DONE-DVNOR(IREG,1))
DMVERR=MAX(DMVERR,ABS(DCERR))
DSVERR=DSVERR+DCERR*DCERR
DAVERR=DAVERR+DCERR
ENDDO
TOTVD=100.0D0*(TOTVE-TOTVA)/TOTVE
TOTVDR=100.0D0*SQRT(TOTVDR/DBLE(NBVERR))/TOTVE
IF(NBV0 .GT. 0) THEN
WRITE(IOUT,9002) NAMSBR
ENDIF
IF(NBV1 .GT. 0) THEN
WRITE(IOUT,9005) NAMSBR
ENDIF
DSVERR=SQRT(DSVERR/DBLE(NBVERR))
DAVERR=DAVERR/DBLE(NBVERR)
NBSERR=0
DSSERR=DZERO
DMSERR=DZERO
DASERR=DZERO
NBS0=0
TOTSE=DZERO
TOTSA=DZERO
TOTSD=DZERO
TOTSDR=DZERO
DO ISUR=1,NFSUR
IF(IPRINT .GE. 20 ) THEN
WRITE(IOUT,6031) ISUR,
> SURVOL(-ISUR),DSNOR(ISUR)
ENDIF
TOTSE=TOTSE+SURVOL(-ISUR)
TOTSA=TOTSA+DSNOR(ISUR)
DELS=SURVOL(-ISUR)-DSNOR(ISUR)
TOTSDR=TOTSDR+DELS*DELS
IF(DSNOR(ISUR) .EQ. DZERO) THEN
IF(IPRINT .GE. 10) THEN
WRITE(IOUT,9001) NAMSBR,-ISUR
ENDIF
NBS0=NBS0+1
DSNOR(ISUR)=DONE
ELSE
DSNOR(ISUR)=SURVOL(-ISUR)
> /DSNOR(ISUR)
NBSERR=NBSERR+1
ENDIF
DCERR=100.0D0*(DONE-DSNOR(ISUR))
DMSERR=MAX(DMSERR,ABS(DCERR))
DSSERR=DSSERR+DCERR*DCERR
DASERR=DASERR+DCERR
ENDDO
TOTSD=100.0D0*(TOTSE-TOTSA)/TOTSE
TOTSDR=100.0D0*SQRT(TOTSDR/DBLE(NBSERR))/TOTSE
IF(NBS0 .GT. 0) THEN
WRITE(IOUT,9003) NAMSBR,NBS0
ENDIF
DSSERR=SQRT(DSSERR/DBLE(NBSERR))
DASERR=DASERR/DBLE(NBSERR)
*----
* Processing finished:
* print track normalization vector.
* and routine closing output header if required
* and return
*----
IF(IPRINT .GE. 1) THEN
WRITE(IOUT,6007) TOTVE,TOTVA,TOTVD,TOTVDR
WRITE(IOUT,6005) DSVERR,DMVERR,DAVERR
IF(IPRINT .GE. 10) THEN
DO IREG=1,NFREG
WRITE(IOUT,6010) IREG,SURVOL(IREG)
WRITE(IOUT,6012) DVNOR(IREG,1),
> 100.0D0*(DONE-DVNOR(IREG,1))
ENDDO
ENDIF
WRITE(IOUT,6008) TOTSE,TOTSA,TOTSD,TOTSDR
WRITE(IOUT,6006) DSSERR,DMSERR,DASERR
IF(IPRINT .GE. 10) THEN
DO ISUR=1,NFSUR
WRITE(IOUT,6011) -ISUR,SURVOL(-ISUR)
WRITE(IOUT,6012) DSNOR(ISUR),
> 100.0D0*(DONE-DSNOR(ISUR))
ENDDO
ENDIF
WRITE(IOUT,6001) NAMSBR
ENDIF
*----
* Save track normalisation vector
*----
IF(MAXSGL .EQ. 0) THEN
WRITE(IOUT,9004) NAMSBR
MAXSGL=LINMAX
ENDIF
*----
* Scratch storage deallocation
*----
DEALLOCATE(DORITR,DWGTRK,DDIRET,DCINT,DLENGT,LENGTH)
DEALLOCATE(ICINT,NUMERO)
RETURN
*----
* Output formats
*----
6000 FORMAT('(* Output from --',A6,'-- follows ')
6001 FORMAT(' Output from --',A6,'-- completed *)')
6005 FORMAT(' Global RMS, maximum and average errors (%) ',
> 'on region volumes :',3(2X,F10.5))
6006 FORMAT(' Global RMS, maximum and average errors (%) ',
> 'on surface areas :',3(2X,F10.5))
6007 FORMAT(' Total exact volume = ',F19.10/
> ' Total approximate volume = ',F19.10/
> ' Error on total volume = ',4X,F10.5/
> ' RMS Error on total volume= ',4X,F10.5)
6008 FORMAT(' Total exact surface area = ',F19.10/
> ' Total approximate surface area = ',F19.10/
> ' Error on total surface area = ',4X,F10.5/
> ' RMS Error on total surface area= ',4X,F10.5)
6010 FORMAT(' Normalisation factors and relative errors (%) ',
> 'for region ',I8,' with volume ',F19.10)
6011 FORMAT(' Normalisation factors and relative error (%) ',
> 'for surface ',I8,' with area ',F19.10)
6012 FORMAT((2X,F15.10,2X,F10.5))
6020 FORMAT('Line',I10.10,'={',2(I10,','),
> F18.10,',',F18.10,',',F18.10,'};')
6021 FORMAT(6(I10,:,',',9X))
6022 FORMAT(6(F18.10,:,','))
6023 FORMAT(A7,I10.10,'={')
6024 FORMAT(18X,'};')
6025 FORMAT('Line',I10.10,'={',5(I10,','),
> F18.10,',',F18.10,'};')
6026 FORMAT('Line',I10.10,'={',I10,',',I10,'};')
6027 FORMAT('Problem with Line',I10.10,'={',5(I10,','),
> I10,',',F18.10,',',I10,',',F18.10,'};')
6030 FORMAT(' Normalization volumes =',I10,1P,2D20.10)
6031 FORMAT(' Normalization surfaces =',I10,1P,2D20.10)
6039 FORMAT(1X)
6040 FORMAT('Track',I10.10,'={',4(I10,','),
>F15.8,',',F15.8,'};')
6041 FORMAT('Torig',I10.10,'={',2(F15.8,','),F15.8,'};')
6042 FORMAT('Tdire',I10.10,'={',8(F15.8,','),F15.8,'};')
6043 FORMAT('Tstrt',I10.10,'={',F15.8,'};')
6070 FORMAT(1X,A8,5X,I10)
6071 FORMAT(5F18.10)
9000 FORMAT(1X,'***** Warning in ',A6,'*****'/
> 7X,'For region ',I8,
> 1X,'no crossing by angle ',I8)
9001 FORMAT(1X,'***** Warning in ',A6,'*****'/
> 7X,'For surface ',I8,
> 1X,'no crossing by any angle ')
9002 FORMAT(1X,'***** Warning in ',A6,'*****'/
> 7X,' regions not tracked for any direction ')
9003 FORMAT(1X,' ***** Warning in ',A6,'*****'/
> 7X,I8,' surfaces not tracked for direction ',I8)
9004 FORMAT(1X,' ***** Warning in ',A6,'*****'/
> 7X,' no line segments detected in tracking ')
9005 FORMAT(1X,'***** Warning in ',A6,'*****'/
> 7X,' regions not tracked for some directions')
9006 FORMAT(1X,'***** Warning in ',A6,'*****'/
> 7X,' Final or initial surface could not be identified')
9026 FORMAT('Line',I10.10,'={',4(I10,','),
> F18.10,',',F18.10,'};')
9100 FORMAT(1X,' ***** Error in ',A6,'***** for line ',I8/
> 7X,'Positions (current and reference ) =',1P,2D21.14/
> 7X,'Relative error = ',D21.14)
END
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