--- DarthVader/TrackerLevel2/src/F77/analysissubroutines.f 2006/10/27 16:08:19 1.9 +++ DarthVader/TrackerLevel2/src/F77/analysissubroutines.f 2007/01/11 10:20:58 1.17 @@ -18,7 +18,6 @@ include 'common_xyzPAM.f' include 'common_mini_2.f' include 'calib.f' -c include 'level1.f' include 'level2.f' c include 'momanhough_init.f' @@ -183,6 +182,7 @@ c include 'momanhough_init.f' logical FIMAGE ! + real*8 AL_GUESS(5) *------------------------------------------------------------------------------- * STEP 4 (ITERATED until any other physical track isn't found) @@ -233,24 +233,53 @@ c$$$ enddo c$$$ if(ibest.eq.0)goto 880 !>> no good candidates - rchi2best=1000000000. +* ------------------------------------------------------- +* order track-candidates according to: +* 1st) decreasing n.points +* 2nd) increasing chi**2 +* ------------------------------------------------------- + rchi2best=1000000000. ndofbest=0 !(1) do i=1,ntracks - if(RCHI2_STORE(i).lt.rchi2best.and. - $ RCHI2_STORE(i).gt.0)then - ndof=0 !(1) - do ii=1,nplanes !(1) - ndof=ndof !(1) - $ +int(xgood_store(ii,i)) !(1) - $ +int(ygood_store(ii,i)) !(1) - enddo !(1) - if(ndof.ge.ndofbest)then !(1) + ndof=0 !(1) + do ii=1,nplanes !(1) + ndof=ndof !(1) + $ +int(xgood_store(ii,i)) !(1) + $ +int(ygood_store(ii,i)) !(1) + enddo !(1) + if(ndof.gt.ndofbest)then !(1) + ibest=i + rchi2best=RCHI2_STORE(i) + ndofbest=ndof !(1) + elseif(ndof.eq.ndofbest)then !(1) + if(RCHI2_STORE(i).lt.rchi2best.and. + $ RCHI2_STORE(i).gt.0)then ibest=i rchi2best=RCHI2_STORE(i) ndofbest=ndof !(1) endif !(1) endif enddo + +c$$$ rchi2best=1000000000. +c$$$ ndofbest=0 !(1) +c$$$ do i=1,ntracks +c$$$ if(RCHI2_STORE(i).lt.rchi2best.and. +c$$$ $ RCHI2_STORE(i).gt.0)then +c$$$ ndof=0 !(1) +c$$$ do ii=1,nplanes !(1) +c$$$ ndof=ndof !(1) +c$$$ $ +int(xgood_store(ii,i)) !(1) +c$$$ $ +int(ygood_store(ii,i)) !(1) +c$$$ enddo !(1) +c$$$ if(ndof.ge.ndofbest)then !(1) +c$$$ ibest=i +c$$$ rchi2best=RCHI2_STORE(i) +c$$$ ndofbest=ndof !(1) +c$$$ endif !(1) +c$$$ endif +c$$$ enddo + if(ibest.eq.0)goto 880 !>> no good candidates *------------------------------------------------------------------------------- * The best track candidate (ibest) is selected and a new fitting is performed. @@ -281,23 +310,39 @@ * ********************************************************** * ************************** FIT *** FIT *** FIT *** FIT *** * ********************************************************** + call guess() + do i=1,5 + AL_GUESS(i)=AL(i) + enddo +c print*,'## guess: ',al + do i=1,5 AL(i)=dble(AL_STORE(i,icand)) enddo + IDCAND = icand !fitted track-candidate ifail=0 !error flag in chi2 computation jstep=0 !# minimization steps iprint=0 - if(DEBUG)iprint=1 +c if(DEBUG)iprint=1 + if(VERBOSE)iprint=1 + if(DEBUG)iprint=2 call mini2(jstep,ifail,iprint) if(ifail.ne.0) then - if(DEBUG)then + if(VERBOSE)then print *, - $ '*** MINIMIZATION FAILURE *** (mini2) ' + $ '*** MINIMIZATION FAILURE *** (after refinement) ' $ ,iev + +c$$$ print*,'guess: ',(al_guess(i),i=1,5) +c$$$ print*,'previous: ',(al_store(i,icand),i=1,5) +c$$$ print*,'result: ',(al(i),i=1,5) +c$$$ print*,'xgood ',xgood +c$$$ print*,'ygood ',ygood +c$$$ print*,'----------------------------------------------' endif - chi2=-chi2 +c chi2=-chi2 endif if(DEBUG)then @@ -408,178 +453,6 @@ end - - -c$$$************************************************************ -c$$$ -c$$$ subroutine readmipparam -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'calib.f' -c$$$ -c$$$ character*60 fname_param -c$$$ 201 format('trk-LADDER',i1,'-mip.dat') -c$$$ do ilad=1,nladders_view -c$$$ write(fname_param,201)ilad -c$$$ print *,'Opening file: ',fname_param -c$$$ open(10, -c$$$ $ FILE='./bin-aux/'//fname_param(1:LNBLNK(fname_param)) -c$$$ $ ,STATUS='UNKNOWN' -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ if(iostat.ne.0)then -c$$$ print*,'READMIPPARAM: *** Error in opening file ***' -c$$$ return -c$$$ endif -c$$$ do iv=1,nviews -c$$$ read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ )pip, -c$$$ $ mip(int(pip),ilad) -c$$$c print*,ilad,iv,pip,mip(int(pip),ilad) -c$$$ enddo -c$$$ close(10) -c$$$ enddo -c$$$ -c$$$ return -c$$$ end -c$$$*** * * * *** * * * *** * * * *** * * * *** * * * *** * * * *** -c$$$ subroutine readchargeparam -c$$$ -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'calib.f' -c$$$ -c$$$ character*60 fname_param -c$$$ 201 format('charge-l',i1,'.dat') -c$$$ do ilad=1,nladders_view -c$$$ write(fname_param,201)ilad -c$$$ print *,'Opening file: ',fname_param -c$$$ open(10, -c$$$ $ FILE='./bin-aux/'//fname_param(1:LNBLNK(fname_param)) -c$$$ $ ,STATUS='UNKNOWN' -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ if(iostat.ne.0)then -c$$$ print*,'READCHARGEPARAM: *** Error in opening file ***' -c$$$ return -c$$$ endif -c$$$ do ip=1,nplanes -c$$$ read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ )pip, -c$$$ $ kch(ip,ilad),cch(ip,ilad),sch(ip,ilad) -c$$$c print*,ilad,ip,pip,kch(ip,ilad), -c$$$c $ cch(ip,ilad),sch(ip,ilad) -c$$$ enddo -c$$$ close(10) -c$$$ enddo -c$$$ -c$$$ return -c$$$ end -c$$$*** * * * *** * * * *** * * * *** * * * *** * * * *** * * * *** -c$$$ subroutine readetaparam -c$$$* ----------------------------------------- -c$$$* read eta2,3,4 calibration parameters -c$$$* and fill variables: -c$$$* -c$$$* eta2(netabin,nladders_view,nviews) -c$$$* eta3(2*netabin,nladders_view,nviews) -c$$$* eta4(2*netabin,nladders_view,nviews) -c$$$* -c$$$ include 'commontracker.f' -c$$$ include 'calib.f' -c$$$ -c$$$ character*40 fname_binning -c$$$ character*40 fname_param -c$$$c character*120 cmd1 -c$$$c character*120 cmd2 -c$$$ -c$$$ -c$$$******retrieve ANGULAR BINNING info -c$$$ fname_binning='binning.dat' -c$$$ print *,'Opening file: ',fname_binning -c$$$ open(10, -c$$$ $ FILE='./bin-aux/'//fname_binning(1:LNBLNK(fname_binning)) -c$$$ $ ,STATUS='UNKNOWN' -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ if(iostat.ne.0)then -c$$$ print*,'READETAPARAM: *** Error in opening file ***' -c$$$ return -c$$$ endif -c$$$ print*,'---- ANGULAR BINNING ----' -c$$$ print*,'Bin - angL - angR' -c$$$ 101 format(i2,' ',f6.2,' ',f6.2) -c$$$ do ibin=1,nangmax -c$$$ read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ )xnn,angL(ibin),angR(ibin) -c$$$ if(iostat.ne.0)goto 1000 -c$$$ write(*,101)int(xnn),angL(ibin),angR(ibin) -c$$$ enddo -c$$$ 1000 nangbin=int(xnn) -c$$$ close(10) -c$$$ print*,'-------------------------' -c$$$ -c$$$ -c$$$ -c$$$ do ieta=2,4 !loop on eta 2,3,4 -c$$$******retrieve correction parameters -c$$$ 200 format(' Opening eta',i1,' files...') -c$$$ write(*,200)ieta -c$$$ -c$$$ 201 format('eta',i1,'-bin',i1,'-l',i1,'.dat') -c$$$ 202 format('eta',i1,'-bin',i2,'-l',i1,'.dat') -c$$$ do iang=1,nangbin -c$$$ do ilad=1,nladders_view -c$$$ if(iang.lt.10)write(fname_param,201)ieta,iang,ilad -c$$$ if(iang.ge.10)write(fname_param,202)ieta,iang,ilad -c$$$c print *,'Opening file: ',fname_param -c$$$ open(10, -c$$$ $ FILE='./bin-aux/'//fname_param(1:LNBLNK(fname_param)) -c$$$ $ ,STATUS='UNKNOWN' -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ if(iostat.ne.0)then -c$$$ print*,'READETAPARAM: *** Error in opening file ***' -c$$$ return -c$$$ endif -c$$$ do ival=1,netavalmax -c$$$ if(ieta.eq.2)read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ $ eta2(ival,iang), -c$$$ $ (feta2(ival,iv,ilad,iang),iv=1,nviews) -c$$$ if(ieta.eq.3)read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ $ eta3(ival,iang), -c$$$ $ (feta3(ival,iv,ilad,iang),iv=1,nviews) -c$$$ if(ieta.eq.4)read(10,* -c$$$ $ ,IOSTAT=iostat -c$$$ $ ) -c$$$ $ eta4(ival,iang), -c$$$ $ (feta4(ival,iv,ilad,iang),iv=1,nviews) -c$$$ if(iostat.ne.0)then -c$$$ netaval=ival-1 -c$$$c$$$ if(eta2(1,iang).ne.-eta2(netaval,iang)) -c$$$c$$$ $ print*,'**** ERROR on parameters !!! ****' -c$$$ goto 2000 -c$$$ endif -c$$$ enddo -c$$$ 2000 close(10) -c$$$* print*,'... done' -c$$$ enddo -c$$$ enddo -c$$$ -c$$$ enddo !end loop on eta 2,3,4 -c$$$ -c$$$ -c$$$ return -c$$$ end -c$$$ - ************************************************************ ************************************************************ @@ -660,7 +533,7 @@ include 'common_align.f' include 'common_mech.f' include 'common_xyzPAM.f' - include 'common_resxy.f' +c include 'common_resxy.f' c logical DEBUG c common/dbg/DEBUG @@ -695,7 +568,7 @@ xPAM_B = 0. yPAM_B = 0. zPAM_B = 0. - +c print*,'## xyz_PAM: ',icx,icy,sensor,PFAx,PFAy,angx,angy * ----------------- * CLUSTER X * ----------------- @@ -814,7 +687,8 @@ endif - +c print*,'## stripx,stripy ',stripx,stripy + c=========================================================== C COUPLE C=========================================================== @@ -1016,6 +890,11 @@ endif + +c print*,'## xPAM,yPAM,zPAM ',xPAM,yPAM,zPAM +c print*,'## xPAM_A,yPAM_A,zPAM_A ',xPAM_A,yPAM_A,zPAM_A +c print*,'## xPAM_B,yPAM_B,zPAM_B ',xPAM_B,yPAM_B,zPAM_B + 100 continue end @@ -1429,274 +1308,6 @@ ************************************************************************* ************************************************************************* ************************************************************************* -c$$$ subroutine book_debug -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'common_momanhough.f' -c$$$ include 'common_level2debug.f' -c$$$ -c$$$ character*35 block1,block2,block3!,block4 -c$$$ $ ,block5!,block6 -c$$$ -c$$$* * * * * * * * * * * * * * * * * * * * * * * * -c$$$* HOUGH TRANSFORM PARAMETERS -c$$$ -c$$$ call HBOOK2(1003 -c$$$ $ ,'y vs tg thyz' -c$$$ $ ,300,-1.,1. !x -c$$$ $ ,3000,-70.,70.,0.) !y -c$$$ -c$$$ call HBOOK1(1004 -c$$$ $ ,'Dy' -c$$$ $ ,100,0.,2.,0.) -c$$$ -c$$$ call HBOOK1(1005 -c$$$ $ ,'D thyz' -c$$$ $ ,100,0.,.05,0.) -c$$$ -c$$$ -c$$$ -c$$$* DEBUG ntuple: -c$$$ call HBNT(ntp_level2+1,'LEVEL2',' ') -c$$$ -c$$$ call HBNAME(ntp_level2+1,'EVENT',good2_nt, -c$$$ $ 'GOOD2:L,NEV2:I') -c$$$ -c$$$ 411 format('NDBLT:I::[0,',I5,']') -c$$$ write(block1,411) ndblt_max_nt -c$$$ call HBNAME(ntp_level2+1,'HOUGH YZ',ndblt_nt, -c$$$ $ block1//' -c$$$ $ ,ALFAYZ1(NDBLT):R -c$$$ $ ,ALFAYZ2(NDBLT):R -c$$$ $ ,DB_CLOUD(NDBLT):I -c$$$ $ ') -c$$$ -c$$$ 412 format('NTRPT:I::[0,',I5,']') -c$$$ write(block2,412) ntrpt_max_nt -c$$$ call HBNAME(ntp_level2+1,'HOUGH XZ',NTRPT_nt, -c$$$ $ block2//' -c$$$ $ ,ALFAXZ1(NTRPT):R -c$$$ $ ,ALFAXZ2(NTRPT):R -c$$$ $ ,ALFAXZ3(NTRPT):R -c$$$ $ ,TR_CLOUD(NTRPT):I -c$$$ $ ') -c$$$ -c$$$ -c$$$ 413 format('NCLOUDS_YZ:I::[0,',I4,']') -c$$$c$$$ 414 format('DB_CLOUD(',I4,'):I') -c$$$ write(block3,413) ncloyz_max -c$$$c$$$ write(block4,414) ndblt_max_nt -c$$$ call HBNAME(ntp_level2+1,'CLOUD YZ',NCLOUDS_YZ, -c$$$ $ block3//' -c$$$ $ ,ALFAYZ1_AV(NCLOUDS_YZ):R -c$$$ $ ,ALFAYZ2_AV(NCLOUDS_YZ):R -c$$$ $ ,PTCLOUD_YZ(NCLOUDS_YZ):I' -c$$$c$$$ $ ,'//block4 -c$$$ $ ) -c$$$ -c$$$ 415 format('NCLOUDS_XZ:I::[0,',I4,']') -c$$$c$$$ 416 format('TR_CLOUD(',I5,'):I') -c$$$ write(block5,415) ncloxz_max -c$$$c$$$ write(block6,416) ntrpt_max_nt -c$$$ call HBNAME(ntp_level2+1,'CLOUD XZ',NCLOUDS_XZ, -c$$$ $ block5//' -c$$$ $ ,ALFAXZ1_AV(NCLOUDS_XZ):R -c$$$ $ ,ALFAXZ2_AV(NCLOUDS_XZ):R -c$$$ $ ,ALFAXZ3_AV(NCLOUDS_XZ):R -c$$$ $ ,PTCLOUD_XZ(NCLOUDS_XZ):I' -c$$$c$$$ $ ,'//block6 -c$$$ $ ) -c$$$ -c$$$ -c$$$ return -c$$$ end -***...***...***...***...***...***...***...***...***...***...***...***...***...***...***...*** -* -* -* -* -* -* -* -* -* -***...***...***...***...***...***...***...***...***...***...***...***...***...***...***...*** -c$$$ subroutine book_level2 -c$$$c***************************************************** -c$$$cccccc 11/9/2005 modified by david fedele -c$$$cccccc 07/10/2005 modified by elena vannuccini --> (2) -c$$$c***************************************************** -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'common_momanhough.f' -c$$$ include 'level2.f' -c$$$ -c$$$ character*35 block1,block2 -c$$$ -c$$$c print*,'__________ booking LEVEL2 n-tuple __________' -c$$$ -c$$$* LEVEL1 ntuple: -c$$$ call HBNT(ntp_level2,'LEVEL2',' ') -c$$$ -c$$$c***************************************************** -c$$$cccccc 11/9/2005 modified by david fedele -c$$$c call HBNAME(ntp_level2,'EVENT',good2,'GOOD2:L,NEV2:I') -c$$$cccccc 06/10/2005 modified by elena vannuccini -c$$$c call HBNAME(ntp_level2,'GENERAL',good2,'GOOD2:L,NEV2:I -c$$$c $ ,WHIC_CALIB:I,SWCODE:I') -c$$$ call HBNAME(ntp_level2,'GENERAL',good2,'GOOD2:L,NEV2:I -c$$$ $ ,WHICH_CALIB:I,SWCODE:I,CRC(12):L') -c$$$c********************************************************* -c$$$ -c$$$ -c$$$c$$$# ifndef TEST2003 -c$$$c$$$ -c$$$c$$$ call HBNAME(ntp_level2,'CPU',pkt_type -c$$$c$$$ $ ,'PKT_TYPE:I::[0,50] -c$$$c$$$ $ ,PKT_NUM:I -c$$$c$$$ $ ,OBT:I'// -c$$$c$$$c******************************************************** -c$$$c$$$cccccc 11/9/2005 modified by david fedele -c$$$c$$$c $ ,WHICH_CALIB:I::[0,50]') -c$$$c$$$ $ ',CPU_CRC:L') -c$$$c$$$c******************************************************** -c$$$c$$$ -c$$$c$$$# endif -c$$$ -c$$$ 417 format('NTRK:I::[0,',I4,']') -c$$$ 418 format(',IMAGE(NTRK):I::[0,',I4,']') -c$$$ write(block1,417)NTRKMAX -c$$$ write(block2,418)NTRKMAX -c$$$ call HBNAME(ntp_level2,'TRACKS',NTRK, -c$$$ $ block1// -c$$$ $ block2//' -c$$$ $ ,XM(6,NTRK):R -c$$$ $ ,YM(6,NTRK):R -c$$$ $ ,ZM(6,NTRK):R -c$$$ $ ,RESX(6,NTRK):R -c$$$ $ ,RESY(6,NTRK):R -c$$$ $ ,AL(5,NTRK):R -c$$$ $ ,COVAL(5,5,NTRK):R -c$$$ $ ,CHI2(NTRK):R -c$$$ $ ,XGOOD(6,NTRK):I::[0,1] -c$$$ $ ,YGOOD(6,NTRK):I::[0,1] -c$$$ $ ,XV(6,NTRK):R -c$$$ $ ,YV(6,NTRK):R -c$$$ $ ,ZV(6,NTRK):R -c$$$ $ ,AXV(6,NTRK):R -c$$$ $ ,AYV(6,NTRK):R'// -c$$$c***************************************************** -c$$$cccccc 11/9/2005 modified by david fedele -c$$$c $ ,DEDXP(6,NTRK):R'// -c$$$c $ ') -c$$$ $ ',DEDX_X(6,NTRK):R -c$$$ $ ,DEDX_Y(6,NTRK):R'// -c$$$c**************************************************** -c$$$cccccc 06/10/2005 modified by elena vannuccini -c$$$c $ ,CRC(12):L -c$$$ $ ',BdL(NTRK):R' -c$$$ $ ) -c$$$c**************************************************** -c$$$ -c$$$ -c$$$ call HBNAME(ntp_level2,'SINGLETX',nclsx, -c$$$c***************************************************** -c$$$cccccc 11/9/2005 modified by david fedele -c$$$c $ 'NCLSX(6):I,NCLSY(6):I') -c$$$ $ 'NCLSX:I::[0,500],PLANEX(NCLSX):I -c$$$ $ ,XS(2,NCLSX):R,SGNLXS(NCLSX):R') !(2) -c$$$c $ ,XS(NCLSX):R,SGNLXS(NCLSX):R') !(2) -c$$$ call HBNAME(ntp_level2,'SINGLETY',nclsy, -c$$$ $ 'NCLSY:I::[0,500],PLANEY(NCLSY):I -c$$$ $ ,YS(2,NCLSY):R,SGNLYS(NCLSY):R') !(2) -c$$$c $ ,YS(NCLSY):R,SGNLYS(NCLSY):R') !(2) -c$$$ return -c$$$ end - -c$$$ subroutine fill_level2_clouds -c$$$c***************************************************** -c$$$c 29/11/2005 created by elena vannuccini -c$$$c***************************************************** -c$$$ -c$$$* ------------------------------------------------------- -c$$$* This routine fills the variables related to the hough -c$$$* transform, for the debig n-tuple -c$$$* ------------------------------------------------------- -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'common_momanhough.f' -c$$$ include 'common_level2debug.f' -c$$$ include 'level2.f' -c$$$ -c$$$ good2_nt=.true.!good2 -c$$$c nev2_nt=nev2 -c$$$ -c$$$ if(.false. -c$$$ $ .or.ntrpt.gt.ntrpt_max_nt -c$$$ $ .or.ndblt.gt.ndblt_max_nt -c$$$ $ .or.NCLOUDS_XZ.gt.ncloxz_max -c$$$ $ .or.NCLOUDS_yZ.gt.ncloyz_max -c$$$ $ )then -c$$$ good2_nt=.false. -c$$$ ntrpt_nt=0 -c$$$ ndblt_nt=0 -c$$$ NCLOUDS_XZ_nt=0 -c$$$ NCLOUDS_YZ_nt=0 -c$$$ else -c$$$ ndblt_nt=ndblt -c$$$ ntrpt_nt=ntrpt -c$$$ if(ndblt.ne.0)then -c$$$ do id=1,ndblt -c$$$ alfayz1_nt(id)=alfayz1(id) !Y0 -c$$$ alfayz2_nt(id)=alfayz2(id) !tg theta-yz -c$$$c db_cloud_nt(id)=db_cloud(id) -c$$$ enddo -c$$$ endif -c$$$ if(ndblt.ne.0)then -c$$$ do it=1,ntrpt -c$$$ alfaxz1_nt(it)=alfaxz1(it) !X0 -c$$$ alfaxz2_nt(it)=alfaxz2(it) !tg theta-xz -c$$$ alfaxz3_nt(it)=alfaxz3(it) !1/r -c$$$c tr_cloud_nt(it)=tr_cloud(it) -c$$$ enddo -c$$$ endif -c$$$ nclouds_yz_nt=nclouds_yz -c$$$ nclouds_xz_nt=nclouds_xz -c$$$ if(nclouds_yz.ne.0)then -c$$$ nnn=0 -c$$$ do iyz=1,nclouds_yz -c$$$ ptcloud_yz_nt(iyz)=ptcloud_yz(iyz) -c$$$ alfayz1_av_nt(iyz)=alfayz1_av(iyz) -c$$$ alfayz2_av_nt(iyz)=alfayz2_av(iyz) -c$$$ nnn=nnn+ptcloud_yz(iyz) -c$$$ enddo -c$$$ do ipt=1,nnn -c$$$ db_cloud_nt(ipt)=db_cloud(ipt) -c$$$ enddo -c$$$c print*,'#### ntupla #### ptcloud_yz ' -c$$$c $ ,(ptcloud_yz(i),i=1,nclouds_yz) -c$$$c print*,'#### ntupla #### db_cloud ' -c$$$c $ ,(db_cloud(i),i=1,nnn) -c$$$ endif -c$$$ if(nclouds_xz.ne.0)then -c$$$ nnn=0 -c$$$ do ixz=1,nclouds_xz -c$$$ ptcloud_xz_nt(ixz)=ptcloud_xz(ixz) -c$$$ alfaxz1_av_nt(ixz)=alfaxz1_av(ixz) -c$$$ alfaxz2_av_nt(ixz)=alfaxz2_av(ixz) -c$$$ alfaxz3_av_nt(ixz)=alfaxz3_av(ixz) -c$$$ nnn=nnn+ptcloud_xz(ixz) -c$$$ enddo -c$$$ do ipt=1,nnn -c$$$ tr_cloud_nt(ipt)=tr_cloud(ipt) -c$$$ enddo -c$$$c print*,'#### ntupla #### ptcloud_xz ' -c$$$c $ ,(ptcloud_xz(i),i=1,nclouds_xz) -c$$$c print*,'#### ntupla #### tr_cloud ' -c$$$c $ ,(tr_cloud(i),i=1,nnn) -c$$$ endif -c$$$ endif -c$$$ end *************************************************** @@ -1754,10 +1365,10 @@ enddo * mask views with too many clusters do iv=1,nviews - if( ncl_view(iv).gt. nclustermax)then + if( ncl_view(iv).gt. nclusterlimit)then mask_view(iv) = 1 - print*,' * WARNING * cl_to_couple: n.clusters > ' - $ ,nclustermax,' on view ', iv,' --> masked!' + if(DEBUG)print*,' * WARNING * cl_to_couple: n.clusters > ' + $ ,nclusterlimit,' on view ', iv,' --> masked!' endif enddo @@ -1893,259 +1504,27 @@ goto 20 !charge not consistent endif endif - -* ------------------> COUPLE <------------------ -* check to do not overflow vector dimentions -c$$$ if(ncp_plane(nplx).gt.ncouplemax)then -c$$$ if(DEBUG)print*, -c$$$ $ ' ** warning ** number of identified'// -c$$$ $ ' couples on plane ',nplx, -c$$$ $ ' exceeds vector dimention'// -c$$$ $ ' ( ',ncouplemax,' )' -c$$$c good2=.false. -c$$$c goto 880 !fill ntp and go to next event -c$$$ iflag=1 -c$$$ return -c$$$ endif - - if(ncp_plane(nplx).eq.ncouplemax)then + + if(ncp_plane(nplx).gt.ncouplemax)then if(verbose)print*, $ '** warning ** number of identified '// $ 'couples on plane ',nplx, $ 'exceeds vector dimention ' - $ ,'( ',ncouplemax,' ) NB - THIS SHOULD NOT HAPPEN' -c good2=.false. -c goto 880 !fill ntp and go to next event - iflag=1 - return + $ ,'( ',ncouplemax,' ) --> masked!' + mask_view(nviewx(nplx)) = 2 + mask_view(nviewy(nply)) = 2 + goto 10 endif +* ------------------> COUPLE <------------------ ncp_plane(nplx) = ncp_plane(nplx) + 1 clx(nplx,ncp_plane(nplx))=icx cly(nply,ncp_plane(nplx))=icy cl_single(icx)=0 cl_single(icy)=0 - endif * ---------------------------------------------- - 20 continue - enddo !end loop on clusters(Y) - - 10 continue - enddo !end loop on clusters(X) - - - do icl=1,nclstr1 - if(cl_single(icl).eq.1)then - ip=npl(VIEW(icl)) - ncls(ip)=ncls(ip)+1 - cls(ip,ncls(ip))=icl - endif - enddo - - - if(DEBUG)then - print*,'clusters ',nclstr1 - print*,'good ',(cl_good(i),i=1,nclstr1) - print*,'singles ',(cl_single(i),i=1,nclstr1) - print*,'couples per plane: ',(ncp_plane(ip),ip=1,nplanes) - endif - - do ip=1,6 - ncp_tot=ncp_tot+ncp_plane(ip) - enddo -c if(ncp_tot.gt.ncp_max)goto 100!next event (TEMPORANEO!!!) - - if(ncp_tot.gt.ncp_max)then - if(verbose)print*, - $ '** warning ** number of identified '// - $ 'couples exceeds upper limit for Hough tr. ' - $ ,'( ',ncp_max,' )' -c good2=.false. -c goto 880 !fill ntp and go to next event - iflag=1 - return - endif - - return - end - -*************************************************** -* * -* * -* * -* * -* * -* * -************************************************** - subroutine cl_to_couples_nocharge(iflag) - - include 'commontracker.f' - include 'level1.f' - include 'common_momanhough.f' -c include 'momanhough_init.f' - include 'calib.f' -c include 'level1.f' - - -* output flag -* -------------- -* 0 = good event -* 1 = bad event -* -------------- - integer iflag - - integer badseed,badcl - -* init variables - ncp_tot=0 - do ip=1,nplanes - do ico=1,ncouplemax - clx(ip,ico)=0 - cly(ip,ico)=0 - enddo - ncp_plane(ip)=0 - do icl=1,nclstrmax_level2 - cls(ip,icl)=1 - enddo - ncls(ip)=0 - enddo - do icl=1,nclstrmax_level2 - cl_single(icl)=1 - cl_good(icl)=0 - enddo - -* start association - ncouples=0 - do icx=1,nclstr1 !loop on cluster (X) - if(mod(VIEW(icx),2).eq.1)goto 10 - -* ---------------------------------------------------- -* cut on charge (X VIEW) - if(dedx(icx).lt.dedx_x_min)then - cl_single(icx)=0 - goto 10 - endif -* cut BAD (X VIEW) - badseed=BAD(VIEW(icx),nvk(MAXS(icx)),nst(MAXS(icx))) - ifirst=INDSTART(icx) - if(icx.ne.nclstr1) then - ilast=INDSTART(icx+1)-1 - else - ilast=TOTCLLENGTH - endif - badcl=badseed - do igood=-ngoodstr,ngoodstr - ibad=1 - if((INDMAX(icx)+igood).gt.ifirst.and. - $ (INDMAX(icx)+igood).lt.ilast.and. - $ .true.)then - ibad=BAD(VIEW(icx), - $ nvk(MAXS(icx)+igood), - $ nst(MAXS(icx)+igood)) - endif - badcl=badcl*ibad - enddo - if(badcl.eq.0)then !<<<<<<<<<<<<<< BAD cut - cl_single(icx)=0 !<<<<<<<<<<<<<< BAD cut - goto 10 !<<<<<<<<<<<<<< BAD cut - endif !<<<<<<<<<<<<<< BAD cut -* ---------------------------------------------------- - - cl_good(icx)=1 - nplx=npl(VIEW(icx)) - nldx=nld(MAXS(icx),VIEW(icx)) - - do icy=1,nclstr1 !loop on cluster (Y) - if(mod(VIEW(icy),2).eq.0)goto 20 - -* ---------------------------------------------------- -* cut on charge (Y VIEW) - if(dedx(icy).lt.dedx_y_min)then - cl_single(icy)=0 - goto 20 - endif -* cut BAD (Y VIEW) - badseed=BAD(VIEW(icy),nvk(MAXS(icy)),nst(MAXS(icy))) - ifirst=INDSTART(icy) - if(icy.ne.nclstr1) then - ilast=INDSTART(icy+1)-1 - else - ilast=TOTCLLENGTH - endif - badcl=badseed - do igood=-ngoodstr,ngoodstr - ibad=1 - if((INDMAX(icy)+igood).gt.ifirst.and. - $ (INDMAX(icy)+igood).lt.ilast.and. - $ .true.) - $ ibad=BAD(VIEW(icy), - $ nvk(MAXS(icy)+igood), - $ nst(MAXS(icy)+igood)) - badcl=badcl*ibad - enddo - if(badcl.eq.0)then !<<<<<<<<<<<<<< BAD cut - cl_single(icy)=0 !<<<<<<<<<<<<<< BAD cut - goto 20 !<<<<<<<<<<<<<< BAD cut - endif !<<<<<<<<<<<<<< BAD cut -* ---------------------------------------------------- - - - cl_good(icy)=1 - nply=npl(VIEW(icy)) - nldy=nld(MAXS(icy),VIEW(icy)) - -* ---------------------------------------------- -* CONDITION TO FORM A COUPLE -* ---------------------------------------------- -* geometrical consistency (same plane and ladder) - if(nply.eq.nplx.and.nldy.eq.nldx)then -* charge correlation -* =========================================================== -* this version of the subroutine is used for the calibration -* thus charge-correlation selection is obviously removed -* =========================================================== -c$$$ ddd=(dedx(icy) -c$$$ $ -kch(nplx,nldx)*dedx(icx)-cch(nplx,nldx)) -c$$$ ddd=ddd/sqrt(kch(nplx,nldx)**2+1) -c$$$ cut=chcut*sch(nplx,nldx) -c$$$ if(abs(ddd).gt.cut)goto 20 !charge not consistent -* =========================================================== - - -* ------------------> COUPLE <------------------ -* check to do not overflow vector dimentions -c$$$ if(ncp_plane(nplx).gt.ncouplemax)then -c$$$ if(DEBUG)print*, -c$$$ $ ' ** warning ** number of identified'// -c$$$ $ ' couples on plane ',nplx, -c$$$ $ ' exceeds vector dimention'// -c$$$ $ ' ( ',ncouplemax,' )' -c$$$c good2=.false. -c$$$c goto 880 !fill ntp and go to next event -c$$$ iflag=1 -c$$$ return -c$$$ endif - - if(ncp_plane(nplx).eq.ncouplemax)then - if(verbose)print*, - $ '** warning ** number of identified '// - $ 'couples on plane ',nplx, - $ 'exceeds vector dimention ' - $ ,'( ',ncouplemax,' )' -c good2=.false. -c goto 880 !fill ntp and go to next event - iflag=1 - return - endif - - ncp_plane(nplx) = ncp_plane(nplx) + 1 - clx(nplx,ncp_plane(nplx))=icx - cly(nply,ncp_plane(nplx))=icy - cl_single(icx)=0 - cl_single(icy)=0 endif -* ---------------------------------------------- 20 continue enddo !end loop on clusters(Y) @@ -2171,24 +1550,11 @@ endif do ip=1,6 - ncp_tot=ncp_tot+ncp_plane(ip) + ncp_tot = ncp_tot + ncp_plane(ip) enddo -c if(ncp_tot.gt.ncp_max)goto 100!next event (TEMPORANEO!!!) - - if(ncp_tot.gt.ncp_max)then - if(verbose)print*, - $ '** warning ** number of identified '// - $ 'couples exceeds upper limit for Hough tr. ' - $ ,'( ',ncp_max,' )' -c good2=.false. -c goto 880 !fill ntp and go to next event - iflag=1 - return - endif return end - *************************************************** * * @@ -2200,18 +1566,13 @@ ************************************************** subroutine cp_to_doubtrip(iflag) -c***************************************************** -c 02/02/2006 modified by Elena Vannuccini --> (1) -c***************************************************** include 'commontracker.f' include 'level1.f' include 'common_momanhough.f' -c include 'momanhough_init.f' include 'common_xyzPAM.f' include 'common_mini_2.f' include 'calib.f' -c include 'level1.f' * output flag @@ -2245,13 +1606,26 @@ * ----------------------------- +* -------------------------------------------- +* put a limit to the maximum number of couples +* per plane, in order to apply hough transform +* (couples recovered during track refinement) +* -------------------------------------------- + do ip=1,nplanes + if(ncp_plane(ip).gt.ncouplelimit)then + mask_view(nviewx(ip)) = 8 + mask_view(nviewy(ip)) = 8 + endif + enddo + ndblt=0 !number of doublets ntrpt=0 !number of triplets do ip1=1,(nplanes-1) !loop on planes - COPPIA 1 - do is1=1,2 !loop on sensors - COPPIA 1 - + if( mask_view(nviewx(ip1)).ne.0 .or. + $ mask_view(nviewy(ip1)).ne.0 )goto 10 !skip plane + do is1=1,2 !loop on sensors - COPPIA 1 do icp1=1,ncp_plane(ip1) !loop on COPPIA 1 icx1=clx(ip1,icp1) icy1=cly(ip1,icp1) @@ -2261,7 +1635,10 @@ ym1=yPAM zm1=zPAM c print*,'***',is1,xm1,ym1,zm1 + do ip2=(ip1+1),nplanes !loop on planes - COPPIA 2 + if( mask_view(nviewx(ip2)).ne.0 .or. + $ mask_view(nviewy(ip2)).ne.0 )goto 20 !skip plane do is2=1,2 !loop on sensors -ndblt COPPIA 2 do icp2=1,ncp_plane(ip2) !loop on COPPIA 2 @@ -2286,6 +1663,9 @@ $ ,'( ',ndblt_max,' )' c good2=.false. c goto 880 !fill ntp and go to next event + do iv=1,12 + mask_view(iv) = 3 + enddo iflag=1 return endif @@ -2319,8 +1699,11 @@ * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - if(ip2.eq.nplanes)goto 30 !no possible combination with 3 couples + if(ip2.eq.nplanes)goto 31 !no possible combination with 3 couples + do ip3=(ip2+1),nplanes !loop on planes - COPPIA 3 + if( mask_view(nviewx(ip3)).ne.0 .or. + $ mask_view(nviewy(ip3)).ne.0 )goto 30 !skip plane do is3=1,2 !loop on sensors - COPPIA 3 do icp3=1,ncp_plane(ip3) !loop on COPPIA 3 @@ -2356,6 +1739,9 @@ $ ,'( ',ntrpt_max,' )' c good2=.false. c goto 880 !fill ntp and go to next event + do iv=1,nviews + mask_view(iv) = 4 + enddo iflag=1 return endif @@ -2394,15 +1780,18 @@ endif enddo !end loop on COPPIA 3 enddo !end loop on sensors - COPPIA 3 + 30 continue enddo !end loop on planes - COPPIA 3 - 30 continue + 31 continue 1 enddo !end loop on COPPIA 2 enddo !end loop on sensors - COPPIA 2 + 20 continue enddo !end loop on planes - COPPIA 2 enddo !end loop on COPPIA1 enddo !end loop on sensors - COPPIA 1 + 10 continue enddo !end loop on planes - COPPIA 1 if(DEBUG)then @@ -2584,6 +1973,9 @@ $ ,'( ',ncloyz_max,' )' c good2=.false. c goto 880 !fill ntp and go to next event + do iv=1,nviews + mask_view(iv) = 5 + enddo iflag=1 return endif @@ -2803,6 +2195,9 @@ $ ,'( ',ncloxz_max,' )' c good2=.false. c goto 880 !fill ntp and go to next event + do iv=1,nviews + mask_view(iv) = 6 + enddo iflag=1 return endif @@ -2900,7 +2295,7 @@ * ----------------------------------------------------------- * variables for track fitting double precision AL_INI(5) - double precision tath +c double precision tath * ----------------------------------------------------------- c real fitz(nplanes) !z coordinates of the planes in cm @@ -2966,7 +2361,8 @@ nplused=nplused+ hit_plane(ip) enddo - if(nplused.lt.nplxz_min)goto 888 !next doublet +c if(nplused.lt.nplxz_min)goto 888 !next doublet + if(nplused.lt.nplyz_min)goto 888 !next doublet if(ncp_ok.lt.ncpok)goto 888 !next cloud if(DEBUG)then @@ -2993,23 +2389,33 @@ c$$$ print*,'~~~~~~~~~~~~~~~~~~~~~~~~~' * -------> INITIAL GUESS <------- - AL_INI(1) = dreal(alfaxz1_av(ixz)) - AL_INI(2) = dreal(alfayz1_av(iyz)) - AL_INI(4) = PIGR + datan(dreal(alfayz2_av(iyz)) - $ /dreal(alfaxz2_av(ixz))) - tath = -dreal(alfaxz2_av(ixz))/dcos(AL_INI(4)) - AL_INI(3) = tath/sqrt(1+tath**2) - AL_INI(5) = (1.e2*alfaxz3_av(ixz))/(0.3*0.43) !0. - -c print*,'*******',AL_INI(5) - if(AL_INI(5).gt.defmax)goto 888 !next cloud - -c print*,'alfaxz2, alfayz2 ' -c $ ,alfaxz2_av(ixz),alfayz2_av(iyz) - -* -------> INITIAL GUESS <------- -c print*,'AL_INI ',(al_ini(i),i=1,5) - +cccc SBAGLIATO +c$$$ AL_INI(1) = dreal(alfaxz1_av(ixz)) +c$$$ AL_INI(2) = dreal(alfayz1_av(iyz)) +c$$$ AL_INI(4) = PIGR + datan(dreal(alfayz2_av(iyz)) +c$$$ $ /dreal(alfaxz2_av(ixz))) +c$$$ tath = -dreal(alfaxz2_av(ixz))/dcos(AL_INI(4)) +c$$$ AL_INI(3) = tath/sqrt(1+tath**2) +c$$$ AL_INI(5) = (1.e2*alfaxz3_av(ixz))/(0.3*0.43) !0. +cccc GIUSTO (ma si sua guess()) +c$$$ AL_INI(1) = dreal(alfaxz1_av(ixz)) +c$$$ AL_INI(2) = dreal(alfayz1_av(iyz)) +c$$$ tath = -dreal(alfaxz2_av(ixz))/dcos(AL_INI(4)) +c$$$ AL_INI(3) = tath/sqrt(1+tath**2) +c$$$ IF(alfaxz2_av(ixz).NE.0)THEN +c$$$ AL_INI(4) = PIGR + datan(dreal(alfayz2_av(iyz)) +c$$$ $ /dreal(alfaxz2_av(ixz))) +c$$$ ELSE +c$$$ AL_INI(4) = acos(-1.)/2 +c$$$ IF(alfayz2_av(iyz).LT.0)AL_INI(4) = AL_INI(4)+acos(-1.) +c$$$ ENDIF +c$$$ IF(alfaxz2_av(ixz).LT.0)AL_INI(4)= acos(-1.)+ AL_INI(4) +c$$$ AL_INI(4) = -acos(-1.) + AL_INI(4) !from incidence direction to tracking rs +c$$$ +c$$$ AL_INI(5) = (1.e2*alfaxz3_av(ixz))/(0.3*0.43) !0. +c$$$ +c$$$ if(AL_INI(5).gt.defmax)goto 888 !next cloud + if(DEBUG)then print*,'1 >>> ',(cp_match(6,i),i=1,ncp_match(6)) print*,'2 >>> ',(cp_match(5,i),i=1,ncp_match(5)) @@ -3077,21 +2483,34 @@ * ********************************************************** * ************************** FIT *** FIT *** FIT *** FIT *** * ********************************************************** +cccc scommentare se si usa al_ini della nuvola +c$$$ do i=1,5 +c$$$ AL(i)=AL_INI(i) +c$$$ enddo + call guess() do i=1,5 - AL(i)=AL_INI(i) + AL_INI(i)=AL(i) enddo ifail=0 !error flag in chi^2 computation jstep=0 !number of minimization steps iprint=0 - if(DEBUG)iprint=1 +c if(DEBUG)iprint=1 + if(DEBUG)iprint=2 call mini2(jstep,ifail,iprint) if(ifail.ne.0) then if(DEBUG)then print *, $ '*** MINIMIZATION FAILURE *** ' - $ //'(mini2 in clouds_to_ctrack)' + $ //'(clouds_to_ctrack)' + print*,'initial guess: ' + + print*,'AL_INI(1) = ',AL_INI(1) + print*,'AL_INI(2) = ',AL_INI(2) + print*,'AL_INI(3) = ',AL_INI(3) + print*,'AL_INI(4) = ',AL_INI(4) + print*,'AL_INI(5) = ',AL_INI(5) endif - chi2=-chi2 +c chi2=-chi2 endif * ********************************************************** * ************************** FIT *** FIT *** FIT *** FIT *** @@ -3110,6 +2529,9 @@ $ ,'( ',NTRACKSMAX,' )' c good2=.false. c goto 880 !fill ntp and go to next event + do iv=1,nviews + mask_view(iv) = 7 + enddo iflag=1 return endif @@ -3230,11 +2652,13 @@ call track_init do ip=1,nplanes !loop on planes +* ||||||||||||||||||||||||||||||||||||||||||||||||| * ------------------------------------------------- * If the plane has been already included, it just * computes again the coordinates of the x-y couple * using improved PFAs * ------------------------------------------------- +* ||||||||||||||||||||||||||||||||||||||||||||||||| if(XGOOD_STORE(nplanes-ip+1,ibest).eq.1..and. $ YGOOD_STORE(nplanes-ip+1,ibest).eq.1. )then @@ -3269,10 +2693,12 @@ dedxtrk_x(nplanes-ip+1)=dedx(icx)/mip(VIEW(icx),LADDER(icx)) !(1)(2) dedxtrk_y(nplanes-ip+1)=dedx(icy)/mip(VIEW(icy),LADDER(icy)) !(1)(2) +* ||||||||||||||||||||||||||||||||||||||||||||||||| * ------------------------------------------------- * If the plane has NOT been already included, * it tries to include a COUPLE or a single cluster * ------------------------------------------------- +* ||||||||||||||||||||||||||||||||||||||||||||||||| else xgood(nplanes-ip+1)=0 @@ -3327,6 +2753,7 @@ $ AYV_STORE(nplanes-ip+1,ibest)) distance = distance_to(XP,YP) + distance = distance / RCHI2_STORE(ibest)!<<< MS id=id_cp(ip,icp,ist) if(DEBUG)print*,'( couple ',id $ ,' ) normalized distance ',distance @@ -3397,7 +2824,7 @@ $ PFA,PFA, $ AXV_STORE(nplanes-ip+1,ibest),0.) distance = distance_to(XP,YP) -c if(DEBUG)print*,'normalized distance ',distance + distance = distance / RCHI2_STORE(ibest)!<<< MS if(DEBUG)print*,'( cl-X ',icx $ ,' in cp ',id,' ) normalized distance ',distance if(distance.lt.distmin)then @@ -3425,6 +2852,7 @@ $ PFA,PFA, $ 0.,AYV_STORE(nplanes-ip+1,ibest)) distance = distance_to(XP,YP) + distance = distance / RCHI2_STORE(ibest)!<<< MS if(DEBUG)print*,'( cl-Y ',icy $ ,' in cp ',id,' ) normalized distance ',distance if(distance.lt.distmin)then @@ -3444,9 +2872,11 @@ endif 11882 continue enddo !end loop on cluster inside couples -*----- single clusters ----------------------------------------------- +*----- single clusters ----------------------------------------------- +c print*,'## ncls(',ip,') ',ncls(ip) do ic=1,ncls(ip) !loop on single clusters icl=cls(ip,ic) +c print*,'## ic ',ic,' ist ',ist c if(cl_used(icl).eq.1.or. !if the cluster is already used if(cl_used(icl).ne.0.or. !if the cluster is already used !(3) $ LADDER(icl).ne.nldt.or. !or the ladder number does not match @@ -3464,9 +2894,11 @@ endif distance = distance_to(XP,YP) + distance = distance / RCHI2_STORE(ibest)!<<< MS if(DEBUG)print*,'( cl-s ',icl - $ ,' ) normalized distance ',distance + $ ,' ) normalized distance ',distance,'<',distmin,' ?' if(distance.lt.distmin)then + if(DEBUG)print*,'YES' xmm_A = xPAM_A ymm_A = yPAM_A zmm_A = zPAM_A @@ -3488,22 +2920,30 @@ endif 18882 continue enddo !end loop on single clusters - +c print*,'## distmin ', distmin,' clinc ',clinc if(distmin.le.clinc)then CLS_STORE(nplanes-ip+1,ibest)=iclm !<<<< * ---------------------------- +c print*,'~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~' if(mod(VIEW(iclm),2).eq.0)then XGOOD(nplanes-ip+1)=1. resx(nplanes-ip+1)=rxmm if(DEBUG)print*,'%%%% included X-cl ',iclm - $ ,' ( norm.dist.= ',distmin,', cut ',clinc,' )' +c if(.true.)print*,'%%%% included X-cl ',iclm + $ ,'( chi^2, ',RCHI2_STORE(ibest) + $ ,', norm.dist.= ',distmin + $ ,', cut ',clinc,' )' else YGOOD(nplanes-ip+1)=1. resy(nplanes-ip+1)=rymm if(DEBUG)print*,'%%%% included Y-cl ',iclm - $ ,' ( norm.dist.= ',distmin,', cut ',clinc,' )' +c if(.true.)print*,'%%%% included Y-cl ',iclm + $ ,'( chi^2, ',RCHI2_STORE(ibest) + $ ,', norm.dist.= ', distmin + $ ,', cut ',clinc,' )' endif +c print*,'~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~' * ---------------------------- xm_A(nplanes-ip+1) = xmm_A ym_A(nplanes-ip+1) = ymm_A @@ -3616,103 +3056,6 @@ -c$$$*** * * * *** * * * *** * * * *** * * * *** * * * *** * * * *** -c$$$ real function fbad_cog(ncog,ic) -c$$$ -c$$$ -c$$$ include 'commontracker.f' -c$$$ include 'level1.f' -c$$$ include 'calib.f' -c$$$ -c$$$* --> signal of the central strip -c$$$ sc = CLSIGNAL(INDMAX(ic)) !center -c$$$ -c$$$* signal of adjacent strips -c$$$* --> left -c$$$ sl1 = 0 !left 1 -c$$$ if( -c$$$ $ (INDMAX(ic)-1).ge.INDSTART(ic) -c$$$ $ ) -c$$$ $ sl1 = max(0.,CLSIGNAL(INDMAX(ic)-1)) -c$$$ -c$$$ sl2 = 0 !left 2 -c$$$ if( -c$$$ $ (INDMAX(ic)-2).ge.INDSTART(ic) -c$$$ $ ) -c$$$ $ sl2 = max(0.,CLSIGNAL(INDMAX(ic)-2)) -c$$$ -c$$$* --> right -c$$$ sr1 = 0 !right 1 -c$$$ if( -c$$$ $ (ic.ne.NCLSTR1.and.(INDMAX(ic)+1).lt.INDSTART(ic+1)) -c$$$ $ .or. -c$$$ $ (ic.eq.NCLSTR1.and.(INDMAX(ic)+1).le.TOTCLLENGTH) -c$$$ $ ) -c$$$ $ sr1 = max(0.,CLSIGNAL(INDMAX(ic)+1)) -c$$$ -c$$$ sr2 = 0 !right 2 -c$$$ if( -c$$$ $ (ic.ne.NCLSTR1.and.(INDMAX(ic)+2).lt.INDSTART(ic+1)) -c$$$ $ .or. -c$$$ $ (ic.eq.NCLSTR1.and.(INDMAX(ic)+2).le.TOTCLLENGTH) -c$$$ $ ) -c$$$ $ sr2 = max(0.,CLSIGNAL(INDMAX(ic)+2)) -c$$$ -c$$$ -c$$$ if(mod(int(VIEW(ic)),2).eq.1)then !Y-view -c$$$ f = 4. -c$$$ si = 8.4 -c$$$ else !X-view -c$$$ f = 6. -c$$$ si = 3.9 -c$$$ endif -c$$$ -c$$$ fbad_cog = 1. -c$$$ f0 = 1 -c$$$ f1 = 1 -c$$$ f2 = 1 -c$$$ f3 = 1 -c$$$ if(sl1.gt.sr1.and.sl1.gt.0.)then -c$$$ -c$$$ if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)) ).eq.0)f0=f -c$$$ if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)-1)).eq.0)f1=f -c$$$c if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)+1)).eq.0)f3=f -c$$$ -c$$$ if(ncog.eq.2.and.sl1.ne.0)then -c$$$ fbad_cog = (f1**2*sc**2/sl1**2+f0**2)/(sc**2/sl1**2+1.) -c$$$ elseif(ncog.eq.3.and.sl1.ne.0.and.sr1.ne.0)then -c$$$ fbad_cog = 1. -c$$$ elseif(ncog.eq.4.and.sl1.ne.0.and.sr1.ne.0.and.sl2.ne.0)then -c$$$ fbad_cog = 1. -c$$$ else -c$$$ fbad_cog = 1. -c$$$ endif -c$$$ -c$$$ elseif(sl1.le.sr1.and.sr1.gt.0.)then -c$$$ -c$$$ -c$$$ if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)) ).eq.0)f0=f -c$$$ if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)+1)).eq.0)f1=f -c$$$c if(BAD(VIEW(ic),nvk(MAXS(ic)),nst(MAXS(ic)-1)).eq.0)f3=f -c$$$ -c$$$ if(ncog.eq.2.and.sr1.ne.0)then -c$$$ fbad_cog = (f1**2*sc**2/sr1**2+f0**2)/(sc**2/sr1**2+1.) -c$$$ elseif(ncog.eq.3.and.sr1.ne.0.and.sl1.ne.0)then -c$$$ fbad_cog = 1. -c$$$ elseif(ncog.eq.4.and.sr1.ne.0.and.sl1.ne.0.and.sr2.ne.0)then -c$$$ fbad_cog = 1. -c$$$ else -c$$$ fbad_cog = 1. -c$$$ endif -c$$$ -c$$$ endif -c$$$ -c$$$ fbad_cog = sqrt(fbad_cog) -c$$$ -c$$$ return -c$$$ end -c$$$ - * **************************************************** @@ -3797,7 +3140,7 @@ alfayz1_nt(idb)=0 alfayz2_nt(idb)=0 enddo - do itr=1,ntrpl_max_nt + do itr=1,ntrpt_max_nt tr_cloud_nt(itr)=0 alfaxz1_nt(itr)=0 alfaxz2_nt(itr)=0 @@ -3826,7 +3169,7 @@ alfayz1(idb)=0 alfayz2(idb)=0 enddo - do itr=1,ntrpl_max + do itr=1,ntrpt_max tr_cloud(itr)=0 cpxz1(itr)=0 cpxz2(itr)=0