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|
*DECK NXTRIS
SUBROUTINE NXTRIS(IPRINT,ITYPG ,MAXMSH,NREG ,ITRN ,ITST ,
> ITSYM ,NM ,MIX ,ISPLT ,DAMESH,
> NMS ,MIXR ,ISPLTR,DAMESR)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Rotate geometry according to reference turn and test, if required,
* in such a way that it satisfies intrinsic symmetries.
*
*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
* IPRINT intermediate printing level for output.
* ITYPG geometry type.
* MAXMSH maximum number of elements in MESH array.
* NREG number of elements in MIX array.
* ITRN geometry original turn number.
* ITST flag for testing symmetry.
* ITSYM flag for symmetries to test.
*
*Parameters: input/output
* NM mesh size in all directions ($X$, $Y$, $Z$ and $R$).
* MIX final mixture description for geometry (including HMIX).
* ISPLT final split desctiption for geometry.
* DAMESH final mesh description for geometry.
* NMS mesh size after splitting.
*
*Parameters: temporary storage
* MIXR mixture description for rotated geometry (including HMIX).
* ISPLTR split desctiption for rotated geometry.
* DAMESR mesh description for rotated geometry.
*
*Reference:
* G. Marleau,
* New Geometries Processing in DRAGON: The NXT: Module,
* Report IGE-260, Polytechnique Montreal,
* Montreal, 2005.
*
*-----------------------------------------------------------------------
*
IMPLICIT NONE
*----
* Subroutine arguments
*----
INTEGER IPRINT,ITYPG,MAXMSH,NREG,ITRN,ITST,
> NM(4),ITSYM(4)
INTEGER ISPLT(0:MAXMSH-1,4),MIX(0:NREG-1,2)
DOUBLE PRECISION DAMESH(-1:MAXMSH,4)
INTEGER NMS(4),ISPLTR(0:MAXMSH-1,4,2),
> MIXR(0:NREG-1,2,2)
DOUBLE PRECISION DAMESR(-1:MAXMSH,4,2)
*----
* Local parameters
*----
INTEGER IOUT
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NAMSBR='NXTRIS')
DOUBLE PRECISION DCUTOF,DZERO,DONE,DTWO
PARAMETER (DCUTOF=1.0D-6,DZERO=0.0D0,DONE=1.0D0,DTWO=2.0D0)
*----
* Functions
*----
INTEGER NXTTRS
*----
* Local variables
*----
INTEGER NR,NX,NY,NZ,ITM(4,2),NPG,IPG,IG,ICT,ITG,
> IDIR,IKT,IDMI,ITMI,IX,IY,IZ,IR,NRP1,NMR,
> NMT(4),NMTS(4),NMTMP
DOUBLE PRECISION DDD
*----
* Data
*----
CHARACTER CDIR(1:4)*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. 100) THEN
WRITE(IOUT,6000) NAMSBR
ENDIF
*----
* Turn reference geometry (IPG=1)
* and symmetric geometries (IPG=2,3,4,5)
*----
ICT=0
NX=NM(1)
NY=NM(2)
NZ=MAX(NM(3),1)
NR=NM(4)
NRP1=NR+1
NMR=NR
IF(ITYPG .EQ. 3 .OR. ITYPG .EQ. 6 .OR.
> ITYPG .EQ. 10 .OR. ITYPG .EQ. 11 ) THEN
NRP1=NR
NMR=NR-1
ENDIF
ITM(3,1)=3
ITM(3,2)=3
ITM(4,1)=4
ITM(4,2)=4
NPG=1
IF(ITST .EQ. 1) NPG=5
DO IPG=1,NPG
IF(IPG .EQ. 1) THEN
IG=1
ICT=ITRN
DO IX=0,NR-1
DAMESR(IX,4,IG)=DAMESH(IX,4)
ISPLTR(IX,4,IG)=ISPLT(IX,4)
ENDDO
DAMESR(NR,4,IG)=DAMESH(NR,4)
ELSE
IG=2
ITG=IPG-1
IF(ABS(ITSYM(ITG)) .GE. 1) THEN
*----
* Symmetry is valid
* Determine final turn after applying symmetry on
* current turn
*----
IF(ITG .EQ. 1) THEN
*----
* Symmetry in X
*----
ICT=NXTTRS(ITRN,1)
ELSE IF(ITG .EQ. 2) THEN
*----
* Symmetry in Y
*----
ICT=NXTTRS(ITRN,3)
ELSE IF(ITG .EQ. 3) THEN
*----
* Symmetry in Z
*----
ICT=NXTTRS(ITRN,-1)
ELSE IF(ITG .EQ. 4) THEN
*----
* Symmetry in X=Y or X=-Y
*----
IF(ABS(ITSYM(ITG)) .EQ. 1) THEN
ICT=NXTTRS(ITRN,2)
ELSE
ICT=NXTTRS(ITRN,4)
ENDIF
ENDIF
ELSE
*----
* No need to test the geometry for this
* intrinsic symmetry.
*----
GO TO 1005
ENDIF
ENDIF
IF(ICT .GT. 12 ) THEN
IKT=12-ICT
ELSE
IKT=ICT
ENDIF
DO IX=0,NR-1
DAMESR(IX,4,IG)=DAMESH(IX,4)
ISPLTR(IX,4,IG)=ISPLT(IX,4)
ENDDO
DAMESR(NR,4,IG)=DAMESH(NR,4)
IF(IKT .LT. 0) THEN
DAMESR(-1,3,IG)=-DAMESH(-1,3)
DAMESR(-1,4,IG)=-DAMESH(-1,4)
ELSE
DAMESR(-1,3,IG)=DAMESH(-1,3)
DAMESR(-1,4,IG)=DAMESH(-1,4)
ENDIF
IF (ABS(IKT) .EQ. 1) THEN
ITM(1,IG)=1
ITM(2,IG)=2
DO 100 IX=0,NX-1
DAMESR(IX,1,IG)=DAMESH(IX+1,1)-DAMESH(IX,1)
ISPLTR(IX,1,IG)=ISPLT(IX,1)
100 CONTINUE
DAMESR(-1,1,IG)=DAMESH(-1,1)
DO 110 IY=0,NY-1
DAMESR(IY,2,IG)=DAMESH(IY+1,2)-DAMESH(IY,2)
ISPLTR(IY,2,IG)=ISPLT(IY,2)
110 CONTINUE
DAMESR(-1,2,IG)=DAMESH(-1,2)
IF(IKT .LT. 0) THEN
DO 120 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
ITMI=IZ*NX*NY*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1
DO 121 IY=0,NY-1
DO 122 IX=0,NX-1
DO 123 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
123 CONTINUE
122 CONTINUE
121 CONTINUE
120 CONTINUE
ELSE
DO 130 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
ITMI=IZ*NX*NY*NRP1
IDMI=ITMI
DO 131 IY=0,NY-1
DO 132 IX=0,NX-1
DO 133 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
133 CONTINUE
132 CONTINUE
131 CONTINUE
130 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 2) THEN
*----
* ROTATION OF PI/2
*----
ITM(1,IG)=2
ITM(2,IG)=1
DO 200 IX=0,NY-1
DAMESR(IX,1,IG)=DAMESH(IX+1,2)-DAMESH(IX,2)
ISPLTR(IX,1,IG)=ISPLT(IX,2)
200 CONTINUE
DAMESR(-1,1,IG)=DAMESH(-1,2)
DO 210 IY=0,NX-1
DAMESR(IY,2,IG)=DAMESH(NX-IY,1)-DAMESH(NX-IY-1,1)
ISPLTR(IY,2,IG)=ISPLT(NX-IY-1,1)
210 CONTINUE
DAMESR(-1,2,IG)=-DAMESH(-1,1)
IF(IKT .LT. 0) THEN
DO 220 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 221 IY=0,NX-1
DO 222 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+(NY-IX-1)*NX*NRP1+
> IY*NRP1
DO 223 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
223 CONTINUE
222 CONTINUE
221 CONTINUE
220 CONTINUE
ELSE
DO 230 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 231 IY=0,NX-1
DO 232 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+IX*NX*NRP1+
> (NX-IY-1)*NRP1
DO 233 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
233 CONTINUE
232 CONTINUE
231 CONTINUE
230 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 3) THEN
*----
* ROTATION OF PI
*----
ITM(1,IG)=1
ITM(2,IG)=2
DO 300 IX=0,NX-1
DAMESR(IX,1,IG)=DAMESH(NX-IX,1)-DAMESH(NX-IX-1,1)
ISPLTR(IX,1,IG)=ISPLT(NX-IX-1,1)
300 CONTINUE
DAMESR(-1,1,IG)=-DAMESH(-1,1)
DO 310 IY=0,NY-1
DAMESR(IY,2,IG)=DAMESH(NY-IY,2)-DAMESH(NY-IY-1,2)
ISPLTR(IY,2,IG)=ISPLT(NY-IY-1,2)
310 CONTINUE
DAMESR(-1,2,IG)=-DAMESH(-1,2)
IF(IKT .LT. 0) THEN
DO 320 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 321 IY=0,NY-1
DO 322 IX=0,NX-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+(NY-IY-1)*NX*NRP1+
> (NX-IX-1)*NRP1
DO 323 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
323 CONTINUE
322 CONTINUE
321 CONTINUE
320 CONTINUE
ELSE
DO 330 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 331 IY=0,NY-1
DO 332 IX=0,NX-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+(NY-IY-1)*NX*NRP1+
> (NX-IX-1)*NRP1
DO 333 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
333 CONTINUE
332 CONTINUE
331 CONTINUE
330 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 4) THEN
*----
* ROTATION OF 3*PI/2
*----
ITM(1,IG)=2
ITM(2,IG)=1
DO 400 IX=0,NY-1
DAMESR(IX,1,IG)=DAMESH(NY-IX,2)-DAMESH(NY-IX-1,2)
ISPLTR(IX,1,IG)=ISPLT(NY-IX-1,2)
400 CONTINUE
DAMESR(-1,1,IG)=-DAMESH(-1,2)
DO 410 IY=0,NX-1
DAMESR(IY,2,IG)=DAMESH(IY+1,1)-DAMESH(IY,1)
ISPLTR(IY,2,IG)=ISPLT(IY,1)
410 CONTINUE
DAMESR(-1,2,IG)=DAMESH(-1,1)
IF(IKT .LT. 0) THEN
DO 420 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 421 IY=0,NX-1
DO 422 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+(NY-IX-1)*NX*NRP1+
> IY*NRP1
DO 423 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
423 CONTINUE
422 CONTINUE
421 CONTINUE
420 CONTINUE
ELSE
DO 430 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 431 IY=0,NX-1
DO 432 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+(NY-IX-1)*NX*NRP1+
> IY*NRP1
DO 433 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
433 CONTINUE
432 CONTINUE
431 CONTINUE
430 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 5) THEN
*----
* REFLECTION WITH RESPECT TO AXIS // TO Y
*----
ITM(1,IG)=1
ITM(2,IG)=2
DO 500 IX=0,NX-1
DAMESR(IX,1,IG)=DAMESH(NX-IX,1)-DAMESH(NX-IX-1,1)
ISPLTR(IX,1,IG)=ISPLT(NX-IX-1,1)
500 CONTINUE
DAMESR(-1,1,IG)=-DAMESH(-1,1)
DO 510 IY=0,NY-1
DAMESR(IY,2,IG)=DAMESH(IY+1,2)-DAMESH(IY,2)
ISPLTR(IY,2,IG)=ISPLT(IY,2)
510 CONTINUE
DAMESR(-1,2,IG)=DAMESH(-1,2)
IF(IKT .LT. 0) THEN
DO 520 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 521 IY=0,NY-1
DO 522 IX=0,NX-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+IY*NX*NRP1+
> (NX-IX-1)*NRP1
DO 523 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
523 CONTINUE
522 CONTINUE
521 CONTINUE
520 CONTINUE
ELSE
DO 530 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 531 IY=0,NY-1
DO 532 IX=0,NX-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+IY*NX*NRP1+
> (NX-IX-1)*NRP1
DO 533 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
533 CONTINUE
532 CONTINUE
531 CONTINUE
530 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 6) THEN
*----
* ROTATION OF PI/2 FOLLOWED BY
* REFLECTION WITH RESPECT TO AXIS // TO Y
*----
ITM(1,IG)=2
ITM(2,IG)=1
DO 600 IX=0,NY-1
DAMESR(IX,1,IG)=DAMESH(IX+1,2)-DAMESH(IX,2)
ISPLTR(IX,1,IG)=ISPLT(IX,2)
600 CONTINUE
DAMESR(-1,1,IG)=DAMESH(-1,2)
DO 610 IY=0,NX-1
DAMESR(IY,2,IG)=DAMESH(IY+1,1)-DAMESH(IY,1)
ISPLTR(IY,2,IG)=ISPLT(IY,1)
610 CONTINUE
DAMESR(-1,2,IG)=DAMESH(-1,1)
IF(IKT .LT. 0) THEN
DO 620 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 621 IY=0,NX-1
DO 622 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+IX*NX*NRP1+
> IY*NRP1
DO 623 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
623 CONTINUE
622 CONTINUE
621 CONTINUE
620 CONTINUE
ELSE
DO 630 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 631 IY=0,NX-1
DO 632 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+IX*NX*NRP1+
> IY*NRP1
DO 633 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
633 CONTINUE
632 CONTINUE
631 CONTINUE
630 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 7) THEN
*----
* REFLECTION WITH RESPECT TO AXIS // TO X
*----
ITM(1,IG)=1
ITM(2,IG)=2
DO 700 IX=0,NX-1
DAMESR(IX,1,IG)=DAMESH(IX+1,1)-DAMESH(IX,1)
ISPLTR(IX,1,IG)=ISPLT(IX,1)
700 CONTINUE
DAMESR(-1,1,IG)=DAMESH(-1,1)
DO 710 IY=0,NY-1
DAMESR(IY,2,IG)=DAMESH(NY-IY,2)-DAMESH(NY-IY-1,2)
ISPLTR(IY,2,IG)=ISPLT(NY-IY-1,2)
710 CONTINUE
DAMESR(-1,2,IG)=-DAMESH(-1,2)
IF(IKT .LT. 0) THEN
DO 720 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 721 IY=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+(NY-IY-1)*NX*NRP1
DO 722 IX=0,NX-1
DO 723 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
723 CONTINUE
722 CONTINUE
721 CONTINUE
720 CONTINUE
ELSE
DO 730 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 731 IY=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NX*NRP1
IDMI=IZ*NX*NY*NRP1+(NY-IY-1)*NX*NRP1
DO 732 IX=0,NX-1
DO 733 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
733 CONTINUE
732 CONTINUE
731 CONTINUE
730 CONTINUE
ENDIF
ELSE IF(ABS(IKT) .EQ. 8) THEN
*----
* ROTATION OF PI/2 FOLLOWED BY
* REFLECTION WITH RESPECT TO AXIS // TO X
*----
ITM(1,IG)=2
ITM(2,IG)=1
DO 800 IX=0,NY-1
DAMESR(IX,1,IG)=DAMESH(NY-IX,2)-DAMESH(NY-IX-1,2)
ISPLTR(IX,1,IG)=ISPLT(NY-IX-1,2)
800 CONTINUE
DAMESR(-1,1,IG)=-DAMESH(-1,2)
DO 810 IY=0,NX-1
DAMESR(IY,2,IG)=DAMESH(NX-IY,1)-DAMESH(NX-IY-1,1)
ISPLTR(IY,2,IG)=ISPLT(NX-IY-1,1)
810 CONTINUE
DAMESR(-1,2,IG)=-DAMESH(-1,1)
IF(IKT .LT. 0) THEN
DO 820 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(NZ-IZ,3)-DAMESH(NZ-IZ-1,3)
ISPLTR(IZ,3,IG)=ISPLT(NZ-IZ-1,3)
DO 821 IY=0,NX-1
DO 822 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=(NZ-IZ-1)*NX*NY*NRP1+(NY-IX-1)*NX*NRP1+
> (NX-IY-1)*NRP1
DO 823 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
823 CONTINUE
822 CONTINUE
821 CONTINUE
820 CONTINUE
ELSE
DO 830 IZ=0,NZ-1
DAMESR(IZ,3,IG)=DAMESH(IZ+1,3)-DAMESH(IZ,3)
ISPLTR(IZ,3,IG)=ISPLT(IZ,3)
DO 831 IY=0,NX-1
DO 832 IX=0,NY-1
ITMI=IZ*NX*NY*NRP1+IY*NY*NRP1+
> IX*NRP1
IDMI=IZ*NX*NY*NRP1+(NY-IX-1)*NX*NRP1+
> (NX-IY-1)*NRP1
DO 833 IR=0,NMR
MIXR(ITMI,IG,1)=MIX(IDMI,1)
MIXR(ITMI,IG,2)=MIX(IDMI,2)
ITMI=ITMI+1
IDMI=IDMI+1
833 CONTINUE
832 CONTINUE
831 CONTINUE
830 CONTINUE
ENDIF
ENDIF
IF(IPRINT .GE. 100) THEN
*----
* Print turned mesh if required
*----
WRITE(IOUT,6010) (NM(ITM(IDIR,IG)),IDIR=1,3),NREG
DO IDIR=1,4
NMTMP=NM(ITM(IDIR,IG))
IF(NMTMP .GT. 0) THEN
WRITE(IOUT,6011) 'MESH'//CDIR(IDIR)//' ='
WRITE(IOUT,6012) (DAMESR(IX,IDIR,IG),IX=-1,NMTMP)
WRITE(IOUT,6011) 'SPLT'//CDIR(IDIR)//' ='
WRITE(IOUT,6013) (ISPLTR(IX-1,IDIR,IG),IX=1,NMTMP)
ENDIF
ENDDO
WRITE(IOUT,6011) 'MIX ='
WRITE(IOUT,6013) (MIXR(IX,IG,1),IX=0,NREG-1)
WRITE(IOUT,6011) 'HMIX ='
WRITE(IOUT,6013) (MIXR(IX,IG,2),IX=0,NREG-1)
ENDIF
IF(IPG .GT. 1) THEN
*----
* COMPARE GEOMETRY
* 1- MESH AND SPLIT IN X, Y AND Z
* 2- MIXTURES
* 3- OFFCENTER
*----
DO 900 IDIR=1,3
NMTMP=NM(ITM(IDIR,1))
IF(NMTMP .NE. NM(ITM(IDIR,2))) CALL XABORT(NAMSBR//
> ': Symmetry invalid with this mesh')
DO 910 IX=0,NMTMP-1
DDD=ABS(DAMESR(IX,IDIR,1)-DAMESR(IX,IDIR,2))
IF(DDD .GT. DCUTOF) CALL XABORT(NAMSBR//
> ': Symmetry invalid with this mesh')
IF(ISPLTR(IX,IDIR,1) .NE. ISPLTR(IX,IDIR,2) )
> CALL XABORT(NAMSBR//
> ': Symmetry invalid with this split')
910 CONTINUE
900 CONTINUE
DO 920 IX=0,NREG-1
IF(MIXR(IX,1,1) .NE. MIXR(IX,2,1) ) CALL XABORT(NAMSBR//
> ': Symmetry invalid with this mixture')
IF(MIXR(IX,1,2) .NE. MIXR(IX,2,2) ) CALL XABORT(NAMSBR//
> ': Symmetry invalid with this merging mixture')
920 CONTINUE
IF(DAMESR(-1,1,1) .NE. DAMESR(-1,1,2) .OR.
> DAMESR(-1,2,1) .NE. DAMESR(-1,2,2) .OR.
> DAMESR(-1,3,1) .NE. DAMESR(-1,3,2) ) CALL XABORT(NAMSBR//
> ': Symmetry invalid with this off center')
ELSE
*----
* Reset reference geometry for turn
*----
DO IX=0,NR-1
DAMESH(IX,4)=DAMESR(IX,4,IG)
ISPLT(IX,4)=ISPLTR(IX,4,IG)
ENDDO
DAMESH(NR,4)=DAMESR(NR,4,IG)
DAMESH(-1,4)=DAMESR(-1,4,IG)
*----
* Find splitted mesh dimensions
*----
DO 930 IDIR=1,4
NMTMP=NM(ITM(IDIR,1))
NMT(IDIR)=NMTMP
NMTS(IDIR)=0
DO 931 IX=0,NMTMP-1
NMTS(IDIR)=NMTS(IDIR)+ABS(ISPLTR(IX,IDIR,1))
931 CONTINUE
IF(NMTS(IDIR) .NE. NMS(ITM(IDIR,1))) CALL XABORT(NAMSBR//
> ': Global symmetry invalid with this split')
930 CONTINUE
ENDIF
1005 CONTINUE
ENDDO
*----
* Reset final mesh (center+original turn)
*----
DO IDIR=1,3
NMTMP=NMT(IDIR)
DAMESH(-1:NM(IDIR),IDIR)=DZERO
NM(IDIR)=NMTMP
DDD=DZERO
DO IX=0,NMTMP-1
DDD=DDD+DAMESR(IX,IDIR,1)
ENDDO
DDD=DDD/DTWO
DAMESH(-1,IDIR)=DAMESR(-1,IDIR,1)
DAMESH(0,IDIR)=-DDD
DO IX=1,NMTMP
DAMESH(IX,IDIR)=DAMESH(IX-1,IDIR)+DAMESR(IX-1,IDIR,1)
ENDDO
DO IX=0,NMTMP
ISPLT(IX,IDIR)=ISPLTR(IX,IDIR,1)
ENDDO
ENDDO
DO IDIR=1,4
NMTMP=NM(IDIR)
NMS(IDIR)=0
DO IX=0,NMTMP-1
NMS(IDIR)=NMS(IDIR)+ABS(ISPLT(IX,IDIR))
ENDDO
ENDDO
*----
* Processing finished:
* print routine closing output header if required
* and return
*----
IF(IPRINT .GE. 100) THEN
WRITE(IOUT,6001) NAMSBR
ENDIF
*----
* FORMATS
*----
*----
* Output formats
*----
6000 FORMAT('(* Output from --',A6,'-- follows ')
6001 FORMAT(' Output from --',A6,'-- completed *)')
6010 FORMAT(1X,' DIMENSIONS =',5I10/1X,' ORIGINAL MESH ')
6011 FORMAT(1X,A7)
6012 FORMAT(5F15.9)
6013 FORMAT(5I15)
END
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