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*DECK NXTPCA
SUBROUTINE NXTPCA(IPRINT,NDIM ,IDIRC ,MXMESH,MAXSUR,MAXREG,
> MESH ,DMESH ,NPIN ,ITPIN ,DPIN ,
> NBSUR ,NBREG ,INDXSR,SURVOL)
*
*----------
*
*Purpose:
* Remove from the volumes or surfaces
* associated with a Cartesian 2-D or 3-D geometry
* the volumes or surfaces of the overlapping pins.
*
*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 print level.
* NDIM dimension of problem.
* IDIRC the direction of the first axis of a Cartesian geometry
* assuming the axis are in a cyclic rotation.
* MXMESH maximum number of spatial subdivision in
* $X$, $Y$ and $Z$.
* MAXSUR maximum number of surfaces in the geometry.
* MAXREG maximum number of regions in the geometry.
* MESH effective number of spatial subdivision in
* each direction ($X$, $Y$ and $Z$).
* DMESH spatial description of the Cartesian geometry.
* NPIN number of pins to superimpose on geometry.
* ITPIN type of pin.
* DPIN pin location and dimensions.
* NBSUR number of surfaces in the geometry.
* NBREG final number of non void regions in the geometry.
*
*Parameters: input/output
* INDXSR local indexing of regions.
* SURVOL volume of regions.
*
*Reference:
* G. Marleau,
* New Geometries Processing in DRAGON: The NXT: Module,
* Report IGE-260, Polytechnique Montreal,
* Montreal, 2005.
*
*Comments:
* 1- Meaning of IDIRC:
* IDIRC axes in 1-D axes in 2-D axes in 3-D
* 1 x (x,y) (x,y,z)
* 2 y (y,z) (y,z,x)
* 3 z (z,x) (z,x,y)
* 2- Contents of the DMESH array:
* mesh in $X$ is x(i)=DMESH(i,1) for i=0,MESH(1);
* mesh in $Y$ is y(j)=DMESH(j,2) for j=0,MESH(2);
* mesh in $Z$ is z(k)=DMESH(k,3) for k=0,MESH(3);
* 3- Contents of the DPIN array for pin IPIN:
* if(ITPIN(3,IPIN) = 1) then
* -> annular pin
* if(IDIRC = 1) then
* ->annular regions in the $X-Y$ plane
* centre (x,y,z)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* outer pin radius r=DPIN(4,IPIN)
* pin height dz(iz)=DPIN(3,IPIN)
* else if(IDIRC = 2) then
* ->annular regions in the $Y-Z$ plane
* centre (y,z,x)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* outer pin radius r=DPIN(4,IPIN)
* pin height dx(ix)=DPIN(1,IPIN)
* else if(IDIRC = 3) then
* ->annular regions in the $Z-X$ plane
* centre (z,x,y)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* outer pin radius r=DPIN(4,IPIN)
* pin height dy(iy)=DPIN(2,IPIN)
* endif
* else if(ITPIN(3,IPIN) = 2) then
* -> Cartesian pin
* if(IDIRC = 1) then
* ->Cartesian region in the $X-Y$ plane
* centre (x,y,z)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* pin width in $X$ dx=DPIN(1,IPIN)
* pin width in $Y$ dy=DPIN(2,IPIN)
* pin height dz(iz)=DPIN(3,IPIN)
* else if(IDIRC = 2) then
* ->Cartesian region in the $Y-Z$ plane
* centre (y,z,x)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* pin width in $Y$ dy=DPIN(2,IPIN)
* pin width in $Z$ dz=DPIN(3,IPIN)
* pin height dx(ix)=DPIN(1,IPIN)
* else if(IDIRC = 3) then
* ->Cartesian region in the $Z-X$ plane
* centre (z,x,y)=(DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
* DPIN(0,IPIN)*SIN(DPIN(-1,IPIN)),0.0D0)
* pin width in $Z$ dz=DPIN(3,IPIN)
* pin width in $X$ dx=DPIN(1,IPIN)
* pin height dy(iy)=DPIN(2,IPIN)
* endif
* endif
* 4- Contents of the INDXSR array:
* For i>0
* INDXSR(1,i)= ix is the $X$ location of region i
* INDXSR(2,i)= iy is the $Y$ location of region i
* INDXSR(3,i)= iz is the $Z$ location of region i
* INDXSR(4,i)= ir =0 is the $R$ location of region i.
* INDXSR(5,i)= not used.
* For i<0
* INDXSR(1,i)= ix is the $X$ location of surface i
* INDXSR(2,i)= iy is the $Y$ location of surface i
* INDXSR(3,i)= iz is the $Z$ location of surface i
* INDXSR(4,i)= ir =0 is the $R$ location of surface i.
* INDXSR(5,i)= not used.
* with INDXSR(n,i)=-1 for surface associated with
* location 0 in direction n.
* with INDXSR(n,i)=-2 for surface associated with
* location MESH(n) in direction n.
* Note that for radial regions INDXSR(n,i)=-1 does not
* exists.
*
*----------
*
IMPLICIT NONE
*----
* Subroutine arguments
*----
INTEGER IPRINT,NDIM,IDIRC,MXMESH,MAXSUR,MAXREG
INTEGER MESH(4)
DOUBLE PRECISION DMESH(-1:MXMESH,4)
INTEGER NPIN,ITPIN(3,NPIN)
DOUBLE PRECISION DPIN(-1:4,NPIN)
INTEGER NBSUR,NBREG,INDXSR(5,-MAXSUR:MAXREG)
DOUBLE PRECISION SURVOL(-MAXSUR:MAXREG)
*----
* Local parameters
*----
INTEGER IOUT
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NAMSBR='NXTPCA')
INTEGER MAXDIM
PARAMETER (MAXDIM=4)
DOUBLE PRECISION DCUTOF
PARAMETER (DCUTOF=1.0D-8)
DOUBLE PRECISION DZERO,DONE,DTWO
PARAMETER (DZERO=0.0D0,DONE=1.0D0,DTWO=2.0D0)
*----
* Functions
*----
DOUBLE PRECISION XDRCST,PI
INTEGER NXTIRA,NXTIRR
INTEGER ITYIRP
DOUBLE PRECISION VOLINT
*----
* Local variables
*----
INTEGER ID,IDG,IDIR(MAXDIM),NM(MAXDIM),IDM(MAXDIM),
> IDGP1,IDGP2,IDGPP,NSOZB,NSOZT
INTEGER IPIN,IXYZ,IZ,IY,IX,ISUR,IVOL,IR,ILOC
DOUBLE PRECISION ZB,ZT
DOUBLE PRECISION POSPIN(0:2),XYPIN(4),XYCAR(4)
DOUBLE PRECISION VOLPIN,PPRMIN,PPRMAX,PPPMIN,PPPMAX,DPP
*----
* Data
*----
CHARACTER CDIR(MAXDIM)*1
SAVE CDIR
DATA CDIR /'X','Y','Z','R'/
*----
* Prepare loops over spatial directions as a function
* of IDIRC and NDIM for Cartesian mesh.
*----
IF(NDIM .LT. 2) CALL XABORT(NAMSBR//
>': Problem must be 2-D or 3-D')
ITYIRP=0
VOLPIN=DZERO
ZB=DZERO
ZT=DZERO
PI=XDRCST('Pi',' ')
DO 100 ID=1,NDIM
IDG=MOD(IDIRC+ID-2,3)+1
IDIR(ID)=IDG
NM(IDG)=MESH(IDG)
IDM(IDG)=1
100 CONTINUE
DO 101 ID=NDIM+1,3
IDG=MOD(IDIRC+ID-2,3)+1
IDIR(ID)=IDG
NM(IDG)=1
IDM(IDG)=0
101 CONTINUE
IDGP1=IDIR(1)
IDGP2=IDIR(2)
IDGPP=IDIR(3)
NSOZB=2*NM(IDGPP)*(NM(IDGP1)+NM(IDGP2))
NSOZT=NSOZB+NM(IDGP1)*NM(IDGP2)
*----
* Print mesh if required
*----
IF(IPRINT .GE. 100) THEN
WRITE(IOUT,6000) NAMSBR
*----
* Cartesian mesh
*----
DO 600 ID=1,NDIM
IDG=IDIR(ID)
WRITE(IOUT,6002) 'MESH'//CDIR(IDG)
WRITE(IOUT,6006) (DMESH(IXYZ,IDG),IXYZ=0,NM(IDG))
WRITE(IOUT,6003)
600 CONTINUE
*----
* Pin description
*----
WRITE(IOUT,6007) 'PINDIR',IDGPP
DO 610 IPIN=1,NPIN
WRITE(IOUT,6017) 'PinTyp',IPIN,ITPIN(3,IPIN)
IF(ITPIN(3,IPIN) .GE. 1) THEN
WRITE(IOUT,6019) 'PinC'//CDIR(IDGP1)//CDIR(IDGP2),IPIN,
> DPIN(0,IPIN)*COS(DPIN(-1,IPIN)),
> DPIN(0,IPIN)*SIN(DPIN(-1,IPIN))
WRITE(IOUT,6018) 'PinRad',IPIN,DPIN(4,IPIN)
ELSE IF(ITPIN(3,IPIN) .LE. -1) THEN
WRITE(IOUT,6019) 'PinC'//CDIR(IDGP1)//CDIR(IDGP2),IPIN,
> DPIN(0,IPIN)*COS(DPIN(-1,IPIN)),
> DPIN(0,IPIN)*SIN(DPIN(-1,IPIN))
WRITE(IOUT,6019) 'PinW'//CDIR(IDGP1)//CDIR(IDGP2),IPIN,
> DPIN(IDGP1,IPIN),DPIN(IDGP2,IPIN)
ENDIF
IF(NDIM .EQ. 3) THEN
WRITE(IOUT,6019) 'PinPo'//CDIR(IDGPP),IPIN,
> DMESH(-1,IDGPP)-DPIN(IDGPP,IPIN)/DTWO,
> DMESH(-1,IDGPP)+DPIN(IDGPP,IPIN)/DTWO
ENDIF
610 CONTINUE
ENDIF
*----
* Loop over pins
*----
DO 110 IPIN=1,NPIN
*----
* for 3-D problem,
* Find pin bottom (ZB) and top (ZT) z location.
*----
IF(NDIM .EQ. 3) THEN
ZB=DMESH(-1,IDGPP)-DPIN(IDGPP,IPIN)/DTWO
ZT=ZB+DPIN(IDGPP,IPIN)
ENDIF
IF(ITPIN(3,IPIN) .GE. 1) THEN
*----
* Annular pin properties
*----
POSPIN(0)=DPIN(4,IPIN)
POSPIN(1)=DPIN(0,IPIN)*COS(DPIN(-1,IPIN))
POSPIN(2)=DPIN(0,IPIN)*SIN(DPIN(-1,IPIN))
VOLPIN=PI*POSPIN(0)*POSPIN(0)
ELSE IF (ITPIN(3,IPIN) .LE. -1) THEN
*----
* Rectangular pin properties
*----
XYPIN(1)=DMESH(-1,IDGP1)-DPIN(IDGP1,IPIN)/DTWO
XYPIN(2)=DMESH(-1,IDGP1)+DPIN(IDGP1,IPIN)/DTWO
XYPIN(3)=DMESH(-1,IDGP2)-DPIN(IDGP2,IPIN)/DTWO
XYPIN(4)=DMESH(-1,IDGP2)+DPIN(IDGP2,IPIN)/DTWO
VOLPIN=DPIN(IDGP2,IPIN)*DPIN(IDGP1,IPIN)
ENDIF
*----
* 1- Loop over second normal direction
*----
DO 120 IY=1,NM(IDGP2)
XYCAR(3)=DMESH(IY-1,IDGP2)
XYCAR(4)=DMESH(IY,IDGP2)
*----
* 2- Loop over first normal direction
*----
DO 121 IX=1,NM(IDGP1)
XYCAR(1)=DMESH(IX-1,IDGP1)
XYCAR(2)=DMESH(IX,IDGP1)
IF(ITPIN(3,IPIN) .GE. 1) THEN
*----
* Find rectangle/annular pin intersection
*----
ITYIRP=NXTIRA(XYCAR ,POSPIN,VOLINT)
ELSE IF (ITPIN(3,IPIN) .LE. -1) THEN
*----
* Find rectangle/rectangular pin intersection
*----
ITYIRP=NXTIRR(XYCAR ,XYPIN ,VOLINT)
ENDIF
IF(ITYIRP .NE. 0) THEN
VOLPIN=VOLPIN-VOLINT
*----
* There is an intersection possible between the pin and
* the rectangle.
* 1- Look for botton and top surface in 3-D
*----
IF(NDIM .EQ. 3) THEN
ILOC=(IY-1)*NM(IDGP1)+IX
IF(ZB .LE. DMESH(0,IDGPP) .AND.
> ZT .GE. DMESH(0,IDGPP)) THEN
*----
* Remove area contribution from bottom surface
*----
ISUR=NSOZB+ILOC
SURVOL(-ISUR)=SURVOL(-ISUR)-VOLINT
ENDIF
IF(ZB .LE. DMESH(NM(IDGPP),IDGPP) .AND.
> ZT .GE. DMESH(NM(IDGPP),IDGPP)) THEN
*----
* Remove area contribution from top surface
*----
ISUR=NSOZT+ILOC
SURVOL(-ISUR)=SURVOL(-ISUR)-VOLINT
ENDIF
PPPMIN=ZB
PPPMAX=PPPMIN+DPIN(IDGPP,IPIN)
DO 130 IZ=1,NM(IDGPP)
PPRMIN=MAX(DMESH(IZ-1,IDGPP),PPPMIN)
PPRMAX=MIN(DMESH(IZ,IDGPP),PPPMAX)
IF(PPRMIN .LT. PPRMAX) THEN
DPP=VOLINT*(PPRMAX-PPRMIN)
IVOL=((IZ-1)*NM(IDGP2)+(IY-1))*NM(IDGP1)+IX
SURVOL(IVOL)=SURVOL(IVOL)-DPP
ENDIF
130 CONTINUE
ELSE
IVOL=(IY-1)*NM(IDGP1)+IX
SURVOL(IVOL)=SURVOL(IVOL)-VOLINT
ENDIF
ENDIF
*----
* If pin all extracted, go to next pin
*----
IF(VOLPIN .LE. DZERO) GO TO 115
121 CONTINUE
120 CONTINUE
115 CONTINUE
110 CONTINUE
*----
* Test for negative surface area and volumes
*----
DO 140 ISUR=1,NBSUR
IF(SURVOL(-ISUR) .LT. -DCUTOF) THEN
WRITE(IOUT,9000) NAMSBR,-ISUR
WRITE(IOUT,9002) (INDXSR(IR,-ISUR),IR=1,5),SURVOL(-ISUR)
CALL XABORT(NAMSBR//
> ': Region with negative surface area detected')
ELSE IF(SURVOL(-ISUR) .LT. DCUTOF) THEN
SURVOL(-ISUR)=DZERO
ENDIF
140 CONTINUE
DO 141 IVOL=1,NBREG
IF(SURVOL(IVOL) .LT. -DCUTOF) THEN
WRITE(IOUT,9001) NAMSBR,IVOL
WRITE(IOUT,9002) (INDXSR(IR,IVOL),IR=1,5),SURVOL(IVOL)
CALL XABORT(NAMSBR//
> ': Region with negative volume detected')
ELSE IF(SURVOL(IVOL) .LT. DCUTOF) THEN
SURVOL(IVOL)=DZERO
ENDIF
141 CONTINUE
*----
* Print volumes if required
*----
IF(IPRINT .GE. 100) THEN
WRITE(IOUT,6002) 'SurVol'
WRITE(IOUT,6005) (IVOL,(INDXSR(IR,IVOL),IR=1,5),SURVOL(IVOL),
> IVOL=-NBSUR,NBREG)
WRITE(IOUT,6003)
WRITE(IOUT,6001) NAMSBR
ENDIF
RETURN
*----
* Output formats
*----
6000 FORMAT('(* Output from --',A6,'-- follows ')
6001 FORMAT(' Output from --',A6,'-- completed *)')
6002 FORMAT(A12,'={')
6003 FORMAT('};')
6005 FORMAT((6(I10,','),F20.10,:,','))
6006 FORMAT(6(F20.10,:,','))
6007 FORMAT(A6,'=',I10,';')
6017 FORMAT(A6,I4.4,'=',I10,';')
6018 FORMAT(A6,I4.4,'=',F20.10,';')
6019 FORMAT(A6,I4.4,'={',F20.10,',',F20.10,'};')
*----
* Error and Warning formats
*----
9000 FORMAT('**** ERROR in -- ',A6,'-- found'/
> ' Area of region ',I5,' is negative')
9001 FORMAT('**** ERROR in -- ',A6,'-- found'/
> ' Volume of region ',I5,' is negative')
9002 FORMAT(5I10,F20.10)
END
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