*-- Author : I. O. Skillicorn 18/11/93 SUBROUTINE FPRFIT * REFIT TRACK MODEL( PHI-Z) INCLUDING RADIALS * CALL THIS ROUTINE WHEN ALL PLANAR PATREC IS COMPLETE *KEEP,FRDIMS. PARAMETER (MAXHTS=200) PARAMETER (NUMWPL=36) PARAMETER (MAXTRK=200) PARAMETER (MXTTRK=900) PARAMETER (MAXTR3=200) PARAMETER (MAXHPW=2) PARAMETER (MAXDIG=2000) PARAMETER (NUMRWR=1727) PARAMETER (NUMPWR=1151) *KEEP,FH1WORK. COMMON/FGMIOS/ * Planar geometry + ZPP(140),C(140),S(140),ITYPE(140),WZERO(140),WSPACE, * * Radial geometry + ZP(36),PHW(36),WS(36) * COMMON/H1WORK/ * Radial data... + WW(MAXHTS,36),DRI(MAXHTS,36),RM(MAXHTS,36), + NDP(36), NW(MAXHTS,36), DWS(MAXHTS,36), * * Planar Data + NDPW(NUMWPL),DW(MAXHTS,NUMWPL), + DRIW(MAXHTS,NUMWPL),NDW(MAXHTS,NUMWPL), + WWP(MAXHTS,NUMWPL), + IPHOLE(MAXHTS,NUMWPL), * * Pointers into DIGI bank for IOS labelled hits + IPFRRE(MAXHTS,36),IPFRPE(MAXHTS,36),NFRRE,NFRPE, + IRPIOS(MAXDIG,2), IPPIOS(MAXDIG,2), * * Track segment data + NTRAKS(3),IRPT(12,MAXTRK,3),SDRFT(12,MAXTRK,3), * * Fit data + PCOSL(MAXTRK,3),PSINL(MAXTRK,3),PHZL(MAXTRK,3), + DPCOSL(MAXTRK,3),DPSINL(MAXTRK,3), + DPHZL(MAXTRK,3),CHSQ(MAXTRK,3),RZI(MAXTRK,3), + RPCOSG(MAXTRK),RPSING(MAXTRK), + PHZG(MAXTRK),CC(3,MAXTRK),ZIG(MAXTRK), + IRADG(36,MAXTRK),PHIG(36,MAXTRK), + IG,SDRADG(36,MAXTRK), + R1,Z1,RFIT(MAXTRK,3), + CHG(MAXTRK), + PPA(MAXTRK,3), ZZA(MAXTRK,3), + GPA(MAXTRK,3),GZA(MAXTRK,3) * * *KEEP,FPTVTX. COMMON/VERTVV/ZV ,XVV,YVV **the common/VERTEX/ becomes /VERTVV/ (in analogy to /VERTFF/) on the ** 17/6/91, since it is in conflict with the VERTEX module (g.bernardi) ** (note that all these common names should start by F in this deck...) *KEEP,FRH3FT. * Common for RETRAC results (SJM) COMMON/FRH3FT/ IRN(36,MAXTRK),SDN(36,MAXTRK), + IRP(36,MAXTRK),SDP(36,MAXTRK), + IG2,IGTTRK(MAXTRK), + CHISQ(MAXTRK),NUMDF(MAXTRK), + FITX(MAXTRK),FITY(MAXTRK),FITZ(MAXTRK), + FITTH(MAXTRK),FITPH(MAXTRK), + FITCU(MAXTRK),FTCOV(15,MAXTRK) *KEEP,FPPRAM. C C--- MAXSEG is maximum number of segments per supermodule C--- MAXCON is maximum number of amibiguous segments associatable with C--- one segment C--- LIMSTO is maximum number of 2 cluster planes intersections to be C--- stored per supermodule C--- MSEGLM is maximum number of clusters that can be found before C--- connectivity considered C--- MAXCLU is maximum number of clusters that can be found after C--- forming non-connected set MUST BE 50 IF RUN WITH OLD RCW C--- (cluster = 3/4 digits found in a straight line in one C--- 4-wire orientation) C PARAMETER (MAXSEG = 200) PARAMETER (MAXCON = 100) PARAMETER (LIMSTO = 5000) PARAMETER (MSEGLM = 150) PARAMETER (MAXCLU = 50) C--- *KEEP,FPLSEG. C--- COMMON /FPLSEG / PW(12,MAXSEG,3) , PWC(12,MAXSEG,3) , 1 PRCHI(MAXSEG,3) , NFSEG(3) , 2 XYDXY(4,MAXSEG,3) , EXYDXY(4,4,MAXSEG,3) , 3 ZSEG(2,MAXSEG,3) , 4 ASEGIN(MAXSEG,3) , ISEGIN(5,MAXSEG,3) , 5 MASKSG(MAXSEG,3) , IDGISG(12,MAXSEG,3) C--- *KEEP,FPTFLG. COMMON/FPTFLG/IPLAR, NIT, IREZ, LUNFP, NPLMAX *KEEP,FPTPAR. COMMON/FPTPAR/PCUT1, PCUT2, PCUT3, CXP, CYP, + DRPCT1, DRPCT2, DRPCT3, + DRCUT1, DRCUT2, DRCUT3 *KEEP,FDIFLG. COMMON/LDIAG/IDIAG,IDIAG2,MAXPRT,IDOHIS,PMCUT *KEND. * Common for track parameter errors... COMMON /FTRERR/ DSLPHI, DPHZER, COVP, DSLPR, DRZER, COVR * Common for segment numbers... COMMON /FPSEGN/ ISG(3,MAXTRK) * COMMON FOR IOS PLANAR LINK COMMON/FTPS3/NS(3),SPAR(4,50,3),IPT(12,50,3),IPLA(12,50,3), 1 SGN(12,50,3),YYS(12,50,3),YYF(12,50,3) COMMON/FTPPBK/NPP,IPP(36,100),CHPP(100),LP(3,100) C THE SIGN OF THE PLANAR DRIFT IS FILLED IN FTADD COMMON/FTPPBS/SPP(36,100) COMMON/FPPFIT/PSSS(100),PISS(100),RSSS(100),RISS(100) COMMON/FPLNK/KTIP(3,50),LPP(3,100) C COMMON FOR RADIALS ASSOCIATED WITH PLANAR TRACKS COMMON/FTRRBK/IRR(36,MAXTRK),SRR(36,MAXTRK),LRR(3,MAXTRK) C PLANAR SEGMENTS ASSOCIATED WITH RADIALS COMMON /FPSEG1/ ISGG(3,MAXTRK) COMMON /FLINK3/LNK3(MAXTRK,3) * Local arrays... DIMENSION XX(100),YY(100),WP(100) PARAMETER(PI2=6.283185307) DO 100 I=1,NPP IC=0 DO 200 ISM=1,3 IPLAN=LPP(ISM,I) I1=(ISM-1)*12+1 I2=ISM*12 C PLANARS IF(IPLAN.NE.0)THEN DO 210 IP=I1,I2 Z1=ZPP(IP) XF=XYDXY(1,IPLAN,ISM)/10.+Z1*XYDXY(3,IPLAN,ISM) YF=XYDXY(2,IPLAN,ISM)/10.+Z1*XYDXY(4,IPLAN,ISM) IC=IC+1 XX(IC)=Z1 YY(IC)=ATAN2(YF,XF) IF(YY(IC).LT.0.0)YY(IC)=YY(IC)+PI2 WP(IC)=1./(0.1/SQRT(XF**2+YF**2)) 210 CONTINUE ENDIF C RADIALS DO 220 IP=I1,I2 Z1=ZP(IP) C RADIUS DEFINED BY PLANARS RR=RISS(I)+RSSS(I)*Z1 C FOR GRAPHICS C J=IRN(IP,I) C FOR H1REC J=IRR(IP,I) IF(J.EQ.0)GOTO220 IC=IC+1 C FOR GRAPHICS C PHI=ATAN((DRI(J,IP)*SDN(IP,I)+DWS(J,IP))/RR) +WW(J,IP) C FOR H1REC PHI=ATAN((DRI(J,IP)*SRR(IP,I)+DWS(J,IP))/RR) +WW(J,IP) IF(PHI.LT.0.0)PHI=PHI+PI2 XX(IC)=Z1 YY(IC)=PHI WP(IC)=1./(0.1/RR) 220 CONTINUE 200 CONTINUE IF(IC.GT.1)THEN DO 250 JJ=2,IC DP=YY(JJ)-YY(JJ-1) IF(DP.GT.0.0)THEN IF(ABS(DP).GT.ABS(DP-PI2))YY(JJ)=YY(JJ)-PI2 ELSE IF(ABS(DP).GT.ABS(DP+PI2))YY(JJ)=YY(JJ)+PI2 ENDIF 250 CONTINUE ENDIF C REFIT PHI-Z INCLUDING RADIALS (NOTE: FPSP DOES NOT FIT C THE LINESEG ) C WRITE(*,*)I,PISS(I),PSSS(I) CALL FTLFTW(XX,YY,WP,IC,0,2,PS,PI,D1,D2,D3,D4) PISS(I)=PI PSSS(I)=PS C WRITE(*,*)I,PISS(I),PSSS(I) 100 CONTINUE RETURN END * * * *