* * $Id$ * * $Log$ * Revision 1.1.1.1 1995/10/24 10:19:42 cernlib * Geant * * #include "geant321/pilot.h" *CMZ : 3.21/02 29/03/94 15.41.31 by S.Giani *-- Author : SUBROUTINE CGBRIK(DX,DY,DZ,LCG,CG) ************************************************************************ * * * Name: CGBRIK * * Author: E. Chernyaev Date: 24.03.88 * * Revised: * * * * Function: Create CG-object for BRICK * * * * References: CGSIZE * * * * Input: DX - X-size * * DY - Y-size * * DZ - Z-size * * LCG - max-size of CG-object * * * * Output: CG - CG-object * * CG(1) - length of CG-object * * = 0 if error in parameters * * < 0 if no space * * * * Errors: none * * * ************************************************************************ #include "geant321/cggpar.inc" REAL CG(*),XYZ(3,8) INTEGER IORDER(4,6) SAVE XYZ,IORDER DATA XYZ/24*0./ DATA IORDER/1,2,3,4, + 1,5,6,2, 2,6,7,3, 3,7,8,4, 4,8,5,1, + 8,7,6,5/ *- CG(KCGSIZ) = 0. * T E S T P A R A M E T E R S C O R R E C T N E S S IF (DX.LE.0. .OR. DY.LE.0. .OR. DZ.LE.0.) GOTO 999 * C O M P U T E S I Z E O F C G - O B J E C T NFATYP = 1 NFAC = 6 NEDG = 4 CG(KCGSIZ) = CGSIZE(LCG,NFATYP,NFAC,NEDG) IF (CG(KCGSIZ) .LE. 0.) GOTO 999 * P R E P A R E N O D E S C O O R D I N A T E S XYZ(2,2) = DY XYZ(1,3) = DX XYZ(2,3) = DY XYZ(1,4) = DX DO 100 I=1,4 XYZ(1,I+4) = XYZ(1,I) XYZ(2,I+4) = XYZ(2,I) XYZ(3,I+4) = DZ 100 CONTINUE * C R E A T E C G - O B J E C T F O R B R I K CG(KCGATT) = 0. CG(KCGNF) = 6. JCG = LCGHEA DO 300 NF=1,6 CG(JCG+KCGAF) = 0. X1 = XYZ(1,IORDER(2,NF))-XYZ(1,IORDER(1,NF)) Y1 = XYZ(2,IORDER(2,NF))-XYZ(2,IORDER(1,NF)) Z1 = XYZ(3,IORDER(2,NF))-XYZ(3,IORDER(1,NF)) X2 = XYZ(1,IORDER(3,NF))-XYZ(1,IORDER(2,NF)) Y2 = XYZ(2,IORDER(3,NF))-XYZ(2,IORDER(2,NF)) Z2 = XYZ(3,IORDER(3,NF))-XYZ(3,IORDER(2,NF)) A = Y1*Z2 - Y2*Z1 IF (A .GT. 0.) A = 1. IF (A .LT. 0.) A =-1. B = X2*Z1 - X1*Z2 IF (B .GT. 0.) B = 1. IF (B .LT. 0.) B =-1. C = X1*Y2 - X2*Y1 IF (C .GT. 0.) C = 1. IF (C .LT. 0.) C =-1. D =-(A*XYZ(1,IORDER(1,NF)) + + B*XYZ(2,IORDER(1,NF)) + + C*XYZ(3,IORDER(1,NF)) ) CG(JCG+KCGAA) = A CG(JCG+KCGBB) = B CG(JCG+KCGCC) = C CG(JCG+KCGDD) = D CG(JCG+KCGNE) = 4. JCG = JCG + LCGFAC DO 200 NE=1,4 NE2 = NE + 1 IF (NE .EQ. 4) NE2 = 1 CG(JCG+KCGAE) = 0. CG(JCG+KCGX1) = XYZ(1,IORDER(NE,NF)) CG(JCG+KCGY1) = XYZ(2,IORDER(NE,NF)) CG(JCG+KCGZ1) = XYZ(3,IORDER(NE,NF)) CG(JCG+KCGX2) = XYZ(1,IORDER(NE2,NF)) CG(JCG+KCGY2) = XYZ(2,IORDER(NE2,NF)) CG(JCG+KCGZ2) = XYZ(3,IORDER(NE2,NF)) JCG = JCG + LCGEDG 200 CONTINUE 300 CONTINUE * 999 RETURN END