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*DECK PIJWPR
SUBROUTINE PIJWPR(LOPT,NREG,NSOUT,SIGTAL,PROB,SIGVOL,MSYM)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Print-out for probability matrices.
*
*Copyright:
* Copyright (C) 1991 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): R. Roy, G. Marleau
*
*Parameters: input
* LOPT print-out form:
* <= 0 print all PSS/PVS/PVV;
* > 0 print only PVV.
* NREG total number of regions.
* NSOUT number of outer surface.
* SIGTAL albedo-cross section vector.
* PROB collision probabilities.
* SIGVOL region volumes.
* MSYM matrix format:
* = 1 symmetric matrix;
* = 0 non-symmetric full matrix.
*
*Comments:
* Format of compress probability matrix
* NPLEN=(NREG+NSOUT+2)*(NREG+NSOUT+1)/2
* IND(I,J)=MAX(I+NSOUT+1,J+NSOUT+1)
* *(MAX(I+NSOUT+1,J+NSOUT+1)-1)/2
* +MIN(I+NSOUT+1,J+NSOUT+1)
* IS=-NSOUT,-1; JS=-NSOUT,IS; I=IND(IS,JS)
* PROB(I)=VOLSUR(IS)*PSS(IS,JS)
* IV=1,NREG; JS=-NSOUT,-1; I=IND(IV,JS)
* SIGT(IV).GT.0.0
* PROB(I)=SIGT(IV)*VOLSUR(IV)*PVS(IV,JS)
* SIGT(IV).EQ.0.0
* PROB(I)=VOLSUR(IV)*PVS(IV,JS)
* IV=1,NREG; JV=1,IV; I=IND(IV,JV)
* SIGT(IV).GT.0.0 AND SIGT(JV).GT.0.0
* PROB(I)=SIGT(IV)*SIGT(JV)*VOLSUR(IV)*PVV(IV,JV)
* SIGT(IV).GT.0.0 AND SIGT(JV).EQ.0.0
* PROB(I)=SIGT(IV)*VOLSUR(IV)*PVV(IV,JV)
* SIGT(IV).EQ.0.0 AND SIGT(JV).GT.0.0
* PROB(I)=SIGT(JV)*VOLSUR(IV)*PVV(IV,JV)
* SIGT(IV).EQ.0.0 AND SIGT(JV).EQ.0.0
* PROB(I)=VOLSUR(IV)*PVV(IV,JV)
*
*-----------------------------------------------------------------------
*
IMPLICIT NONE
INTEGER IUNOUT, LOPT, NREG, NSOUT, MSYM,
> IND, I, J, NSUR, NVOL,
> NSURC, NSURM, NVOLC, NVOLM, IP, IR,
> JR, III
PARAMETER (IUNOUT=6)
REAL SIGTAL(-NSOUT:NREG), BILANP(10), XSJR, WPR,
> VPR(10), SIGVOL(NREG), COF
DOUBLE PRECISION PROB(*)
*
IND(I,J) = MAX(I+NSOUT+1,J+NSOUT+1)*(MAX(I+NSOUT+1,J+NSOUT+1)-1)/2
> + MIN(I+NSOUT+1,J+NSOUT+1)
*
WPR(I,J)= REAL(PROB( IND(I,J) ) / PROB( IND(I,0) ))
*
*NOTE:
* IF( SIGT(I).NE.0.0 )THEN
* PROB(IND(I,0))= SIGT(I) * VOLSUR(I)
* ELSE
* PROB(IND(I,0))= VOLSUR(I)
* ENDIF
*
NSUR= -NSOUT
NVOL= NREG
*
WRITE(IUNOUT,'(24H REGIONAL CROSS SECTIONS)')
WRITE(IUNOUT,'(5(1X,6HREGION,5X,16HCROSS SECTION ))')
WRITE(IUNOUT,'(5(1X,I6,3X,E15.7))') (JR,SIGTAL(JR),JR=1,NVOL)
IF(MSYM .EQ. 0) THEN
WRITE(IUNOUT,'(5(1X,6HREGION,5X,16HVOLUMES ))')
WRITE(IUNOUT,'(5(1X,I6,3X,E15.7))')
> (JR,SIGVOL(JR),JR=1,NVOL)
ELSE
WRITE(IUNOUT,'(5(1X,6HREGION,5X,16HSURFACE/VOLUMES ))')
WRITE(IUNOUT,'(5(1X,I6,3X,E15.7))')
> (JR,PROB(IND(JR,0)),JR=-NSOUT,NVOL)
ENDIF
IF( LOPT.LE.0 )THEN
NSURC = -1
DO 40 IP = 1, (9 - NSUR) / 10
NSURM= MAX( NSUR, NSURC-9 )
WRITE(IUNOUT,'(30H0 SURFACE CONSERVATION LAWS: ,
> 31H( P.S<-S + P.V<-S = 1 + ERR.S ) ,
> 31H FOR XS.TOTAL=0, REDUCED P.V<-S ,
> 11H IS PRINTED )')
WRITE(IUNOUT,'(1X,8H(P.S<-S),1X,10( A5, I6,:)/)')
> (' SUR ',-IR,IR= NSURC, NSURM, -1)
DO 10 IR =NSURC, NSURM, -1
BILANP(IR-NSURM+1)= 0.0
10 CONTINUE
DO 25 JR = -1, NSUR, -1
WRITE(IUNOUT,'(5H SUR ,I4,1X,10F11.8)')
> -JR, (WPR(IR,JR),IR=NSURC,NSURM,-1)
DO 20 IR = NSURC, NSURM, -1
BILANP(IR-NSURM+1)= BILANP(IR-NSURM+1)
> + WPR(IR,JR)
20 CONTINUE
25 CONTINUE
WRITE(IUNOUT,'(1X,8H(P.V<-S) )')
DO 35 JR = 1, NVOL, 1
IF( SIGTAL(JR).EQ.0.0 ) THEN
WRITE(IUNOUT,'(5H VOL ,I4,1X,3H 0*,10(F8.5,:,3H 0*))')
> JR,(WPR(IR,JR),IR=NSURC,NSURM,-1)
XSJR= 0.0
ELSE
WRITE(IUNOUT,'(5H VOL ,I4,1X,10F11.8)')
> JR,(WPR(IR,JR),IR=NSURC,NSURM,-1)
XSJR= 1.0
ENDIF
DO 30 IR = NSURC, NSURM, -1
BILANP(IR-NSURM+1)= BILANP(IR-NSURM+1)
> + XSJR * WPR(IR,JR)
30 CONTINUE
35 CONTINUE
WRITE(IUNOUT,'(1H )')
WRITE(IUNOUT,'(5H SUM ,5X,10F11.8)')
> (BILANP(IR-NSURM+1),IR=NSURC,NSURM,-1)
NSURC = NSURC - 10
40 CONTINUE
ENDIF
NVOLC = 1
DO 90 IP = 1, (9 + NVOL) / 10
NVOLM= MIN( NVOL, NVOLC+9 )
IF( LOPT.LE.0 )THEN
WRITE(IUNOUT,'(30H0 VOLUME CONSERVATION LAWS: ,
> 31H( P.S<-V + P.V<-V = 1 + ERR.V ) ,
> 31H FOR XS.TOTAL=0, REDUCED P.V<-V ,
> 11H IS PRINTED )')
ELSE
WRITE(IUNOUT,'(30H0 VOLUME CONSERVATION LAWS: ,
> 32H( SUM OF P.V<-V = 1 + ESCAPE.V ) ,
> 31H FOR XS.TOTAL=0, REDUCED P.V<-V ,
> 11H IS PRINTED )')
ENDIF
DO 50 IR = NVOLC, NVOLM, 1
BILANP(IR-NVOLC+1)= 0.0
50 CONTINUE
IF( LOPT.LE.0 )THEN
WRITE(IUNOUT,'(1X,8H(P.S<-V),1X,10( A5 , I6,:)/)')
> (' VOL ',IR,IR=NVOLC,NVOLM, 1)
DO 65 JR = -1, NSUR, -1
WRITE(IUNOUT,'(5H SUR ,I4,1X,10F11.8)')
> -JR, (WPR(IR,JR),IR=NVOLC,NVOLM, 1)
DO 60 IR = NVOLC, NVOLM, 1
BILANP(IR-NVOLC+1)= BILANP(IR-NVOLC+1)
> + WPR(IR,JR)
60 CONTINUE
65 CONTINUE
WRITE(IUNOUT,'(1X,8H(P.V<-V) )')
ELSE
WRITE(IUNOUT,'(1X,8H(P.V<-V),1X,10( A5 , I6,:)/)')
> (' VOL ',IR,IR=NVOLC,NVOLM, 1)
ENDIF
*
IF(LOPT.GT.0.AND.MSYM.EQ.0)THEN
*
* PRINTING OF PIJK" FULL MATRIX
*
COF=1.5
DO 70 JR = 1, NVOL, 1
IF( SIGTAL(JR).EQ.0.0 )THEN
DO 75 IR=NVOLC, NVOLM, 1
III=JR+NREG*(IR-1)
VPR(IR-NVOLC+1)=COF*REAL(PROB(III))/SIGVOL(IR)
75 CONTINUE
WRITE(IUNOUT,'(5H VOL ,I4,1X,3H 0*,10(F8.5,:,3H 0*))')
> JR,(VPR(IR-NVOLC+1),IR=NVOLC,NVOLM,1)
ELSE
DO 76 IR=NVOLC, NVOLM, 1
III=JR+NREG*(IR-1)
VPR(IR-NVOLC+1)=COF*REAL(PROB(III))/SIGVOL(IR)
BILANP(IR-NVOLC+1)=BILANP(IR-NVOLC+1)+VPR(IR-NVOLC+1)
76 CONTINUE
WRITE(IUNOUT,'(5H VOL ,I4,1X,10F11.8)')
> JR,(VPR(IR-NVOLC+1),IR=NVOLC,NVOLM,1)
ENDIF
70 CONTINUE
WRITE(IUNOUT,'(1H )')
WRITE(IUNOUT,'(5H SUM ,5X,10F11.8)')
> (BILANP(IR-NVOLC+1),IR=NVOLC,NVOLM, 1)
*
ELSE
*
DO 85 JR = 1, NVOL, 1
IF( SIGTAL(JR).EQ.0.0 )THEN
WRITE(IUNOUT,'(5H VOL ,I4,1X,3H 0*,10(F8.5,:,3H 0*))')
> JR,(WPR(IR,JR),IR=NVOLC,NVOLM,1)
XSJR= 0.0
ELSE
WRITE(IUNOUT,'(5H VOL ,I4,1X,10F11.8)')
> JR,(WPR(IR,JR),IR=NVOLC,NVOLM,1)
XSJR= 1.0
ENDIF
DO 80 IR = NVOLC, NVOLM, 1
BILANP(IR-NVOLC+1)= BILANP(IR-NVOLC+1)
> + XSJR*WPR(IR,JR)
80 CONTINUE
85 CONTINUE
WRITE(IUNOUT,'(1H )')
WRITE(IUNOUT,'(5H SUM ,5X,10F11.8)')
> (BILANP(IR-NVOLC+1),IR=NVOLC,NVOLM, 1)
ENDIF
NVOLC = NVOLC + 10
90 CONTINUE
*
RETURN
END
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