* * $Id: gtnino.F,v 1.1.1.1 1995/10/24 10:21:44 cernlib Exp $ * * $Log: gtnino.F,v $ * Revision 1.1.1.1 1995/10/24 10:21:44 cernlib * Geant * * #include "geant321/pilot.h" *CMZ : 3.21/04 01/11/94 16.25.59 by S.Ravndal *-- Author : SUBROUTINE GTNINO C. C. ****************************************************************** C. * * C. * Tracking routine for "GEANTINO" type tracks * C. * * C. * ==>Called by : GTRACK * C. * Author R.Brun, F.Bruyant * C. * * C. ****************************************************************** C. #include "geant321/gconsp.inc" #include "geant321/gctmed.inc" #include "geant321/gctrak.inc" #if defined(CERNLIB_DEBUG) #include "geant321/gcunit.inc" #endif #if !defined(CERNLIB_SINGLE) PARAMETER (EPSMAC=1.E-6) #endif #if defined(CERNLIB_SINGLE) PARAMETER (EPSMAC=1.E-11) #endif C. C. ------------------------------------------------------------------ C. STEP = STEMAX IPROC = 103 CALL GTNEXT IF (IGNEXT.NE.0) THEN STEP = SNEXT + PREC IPROC=0 INWVOL= 2 NMEC = 1 LMEC(1)=1 * * *** Linear transport * DO 10 I = 1,3 VECTMP = VECT(I) +STEP*VECT(I+3) IF(VECTMP.EQ.VECT(I)) THEN * * *** Correct for machine precision * IF(VECT(I+3).NE.0.) THEN VECTMP = VECT(I)+ABS(VECT(I))*SIGN(1.,VECT(I+3))* + EPSMAC * IF(NMEC.GT.0) THEN * IF(LMEC(NMEC).EQ.32) NMEC=NMEC-1 * ENDIF * NMEC=NMEC+1 * LMEC(NMEC)=32 #if defined(CERNLIB_DEBUG) WRITE(CHMAIL, 10000) CALL GMAIL(0,0) WRITE(CHMAIL, 10100) GEKIN, NUMED, STEP, SNEXT CALL GMAIL(0,0) 10000 FORMAT(' Boundary correction in GTNINO: ', + ' GEKIN NUMED STEP SNEXT') 10100 FORMAT(31X,E10.3,1X,I10,1X,E10.3,1X,E10.3,1X) #endif ENDIF ENDIF VECT(I) = VECTMP 10 CONTINUE ELSE DO 20 I = 1,3 VECT(I) = VECT(I) +STEP*VECT(I+3) 20 CONTINUE ENDIF SLENG = SLENG +STEP * * *** Update time of flight * TOFG = TOFG +STEP/CLIGHT * IF(IPROC.NE.0) THEN NMEC=NMEC+1 LMEC(NMEC)=IPROC ENDIF END