43 |
|
|
44 |
c DATA ALMAX/dinf,dinf,1.,dinf,dinf/ !limits on alpha vector components |
c DATA ALMAX/dinf,dinf,1.,dinf,dinf/ !limits on alpha vector components |
45 |
c DATA ALMIN/-dinf,-dinf,-1.,-dinf,-dinf/ !" |
c DATA ALMIN/-dinf,-dinf,-1.,-dinf,-dinf/ !" |
46 |
DATA ALMAX/dinf,dinf,dinf,dinf,dinf/ !limits on alpha vector components |
DATA ALMAX/dinf,dinf,1.,dinf,dinf/ !limits on alpha vector components |
47 |
DATA ALMIN/-dinf,-dinf,-dinf,-dinf,-dinf/ !" |
DATA ALMIN/-dinf,-dinf,-1.,-dinf,-dinf/ !" |
48 |
|
|
49 |
DIMENSION DAL(5) !increment of vector alfa |
DIMENSION DAL(5) !increment of vector alfa |
50 |
DIMENSION CHI2DD_R(4,4),CHI2D_R(4) !hessiano e gradiente di chi2 |
DIMENSION CHI2DD_R(4,4),CHI2D_R(4) !hessiano e gradiente di chi2 |
105 |
* ---------------------------------------------------------- |
* ---------------------------------------------------------- |
106 |
* changed in order to evaluate energy-dependent |
* changed in order to evaluate energy-dependent |
107 |
* tolerances on all 5 parameters |
* tolerances on all 5 parameters |
108 |
FACT=100. !scale factor to define tolerance on alfa |
cPP FACT=1.0e10 !scale factor to define tolerance on alfa |
109 |
c deflection error (see PDG) |
c deflection error (see PDG) |
110 |
DELETA1 = 0.01/0.3/0.4/0.4451**2*SQRT(720./(6.+4.)) |
DELETA1 = 0.01/0.3/0.4/0.4451**2*SQRT(720./(6.+4.)) |
111 |
DELETA2 = 0.016/0.3/0.4/0.4451*SQRT(0.4451/9.36) |
DELETA2 = 0.016/0.3/0.4/0.4451*SQRT(0.4451/9.36) |
121 |
* |
* |
122 |
ISTEP=0 !num. steps to minimize chi^2 |
ISTEP=0 !num. steps to minimize chi^2 |
123 |
JFAIL=0 !error flag |
JFAIL=0 !error flag |
124 |
|
CHI2=0 |
125 |
|
|
126 |
if(TRKDEBUG) print*,'guess: ',al |
if(TRKDEBUG) print*,'guess: ',al |
127 |
if(TRKDEBUG) print*,'mini2: step ',istep,chi2,1./AL(5) |
if(TRKDEBUG) print*,'mini2: step ',istep,chi2,1./AL(5) |
141 |
RETURN |
RETURN |
142 |
ENDIF |
ENDIF |
143 |
|
|
144 |
COST=1e-7 |
COST=1e-5 |
145 |
DO I=1,5 |
DO I=1,5 |
146 |
DO J=1,5 |
DO J=1,5 |
147 |
CHI2DD(I,J)=CHI2DD(I,J)*COST |
CHI2DD(I,J)=CHI2DD(I,J)*COST |
267 |
ALTOL(3) = DSQRT(ALTOL(1)**2+ALTOL(2)**2)/44.51 |
ALTOL(3) = DSQRT(ALTOL(1)**2+ALTOL(2)**2)/44.51 |
268 |
ALTOL(4) = ALTOL(3) |
ALTOL(4) = ALTOL(3) |
269 |
|
|
270 |
|
c$$$ print*,' -- ',(DAL(I),ALTOL(I),' - ',i=1,5) !>>>> new step! |
271 |
|
|
272 |
*---- check tolerances: |
*---- check tolerances: |
273 |
c$$$ DO I=1,5 |
c$$$ DO I=1,5 |
274 |
c$$$ if(TRKVERBOSE)print*,i,' -- ',DAL(I),ALTOL(I) !>>>> new step! |
c$$$ if(TRKVERBOSE)print*,i,' -- ',DAL(I),ALTOL(I) !>>>> new step! |
275 |
c$$$ ENDDO |
c$$$ ENDDO |
276 |
c$$$ print*,'chi2 -- ',DCHI2 |
c$$$ print*,'chi2 -- ',DCHI2 |
277 |
|
|
278 |
|
IF(ISTEP.LT.ISTEPMIN) GOTO 10 ! ***PP*** |
279 |
DO I=1,5 |
DO I=1,5 |
280 |
IF(ABS(DAL(I)).GT.ALTOL(I))GOTO 10 !>>>> new step! |
IF(ABS(DAL(I)).GT.ALTOL(I))GOTO 10 !>>>> new step! |
281 |
ENDDO |
ENDDO |
366 |
$ print*,'*** WARNING *** in mini n.dof = 0 (set to 1)' |
$ print*,'*** WARNING *** in mini n.dof = 0 (set to 1)' |
367 |
endif |
endif |
368 |
|
|
|
if(TRKDEBUG) print*,'mini2: -ok- ',istep,chi2,1./AL(5) |
|
|
|
|
369 |
* ------------------------------------ |
* ------------------------------------ |
370 |
* Reduced chi^2 |
* Reduced chi^2 |
371 |
CHI2 = CHI2/dble(ndof) |
CHI2 = CHI2/dble(ndof) |
374 |
|
|
375 |
11 CONTINUE |
11 CONTINUE |
376 |
|
|
377 |
|
if(TRKDEBUG) print*,'mini2: -ok- ',istep,chi2,1./AL(5) |
378 |
|
|
379 |
NSTEP=ISTEP ! ***PP*** |
NSTEP=ISTEP ! ***PP*** |
380 |
|
|
381 |
|
c$$$ print*,'>>>>> NSTEP = ',NSTEP |
382 |
|
|
383 |
RETURN |
RETURN |
384 |
END |
END |
385 |
|
|
472 |
+ *( XGOOD(I)*(1-YGOOD(I)) ) |
+ *( XGOOD(I)*(1-YGOOD(I)) ) |
473 |
+ +((XV(I)-XM(I))**2+(YV(I)-YM(I))**2)/RESY(i)**2 |
+ +((XV(I)-XM(I))**2+(YV(I)-YM(I))**2)/RESY(i)**2 |
474 |
+ *( (1-XGOOD(I))*YGOOD(I) ) |
+ *( (1-XGOOD(I))*YGOOD(I) ) |
475 |
|
c$$$ print*,(XV(I)-XM(I))**2/RESX(i)**2 *( XGOOD(I)*YGOOD(I) ) |
476 |
|
c$$$ print*,(YV(I)-YM(I))**2/RESY(i)**2 *( YGOOD(I)*XGOOD(I) ) |
477 |
|
c$$$ print*,((XV(I)-XM(I))**2+(YV(I)-YM(I))**2)/RESX(i)**2 |
478 |
|
c$$$ + *( XGOOD(I)*(1-YGOOD(I)) ) |
479 |
|
c$$$ print*,((XV(I)-XM(I))**2+(YV(I)-YM(I))**2)/RESY(i)**2 |
480 |
|
c$$$ + *( (1-XGOOD(I))*YGOOD(I) ) |
481 |
|
c$$$ print*,XV(I),XM(I),XGOOD(I) |
482 |
|
c$$$ print*,YV(I),YM(I),YGOOD(I) |
483 |
ENDDO |
ENDDO |
484 |
c print*,'CHISQ ',chi2 |
c$$$ print*,'CHISQ ',chi2 |
485 |
* ------------------------------------------------ |
* ------------------------------------------------ |
486 |
* |
* |
487 |
* calculation of derivatives (dX/dAL_fa and dY/dAL_fa) |
* calculation of derivatives (dX/dAL_fa and dY/dAL_fa) |
640 |
c |
c |
641 |
DIMENSION AL_P(5) |
DIMENSION AL_P(5) |
642 |
* |
* |
643 |
DO I=1,nplanes |
cpp DO I=1,nplanes |
644 |
ZV(I)=ZM(I) ! |
cpp ZV(I)=ZM(I) ! |
645 |
ENDDO |
cpp ENDDO |
646 |
* |
* |
647 |
* set parameters for GRKUTA |
* set parameters for GRKUTA |
648 |
* |
* |
657 |
IF(AL_P(5).NE.0.) VOUT(7)=DABS(1./AL_P(5)) |
IF(AL_P(5).NE.0.) VOUT(7)=DABS(1./AL_P(5)) |
658 |
IF(AL_P(5).EQ.0.) VOUT(7)=1.E8 |
IF(AL_P(5).EQ.0.) VOUT(7)=1.E8 |
659 |
|
|
660 |
c$$$ print*,'POSXY ',vout |
c$$$ print*,'POSXY (prima) ',vout |
661 |
|
|
662 |
DO I=1,nplanes |
DO I=1,nplanes |
663 |
step=vout(3)-zv(i) |
cpp step=vout(3)-zv(i) |
664 |
|
step=vout(3)-zm(i) |
665 |
10 DO J=1,7 |
10 DO J=1,7 |
666 |
VECT(J)=VOUT(J) |
VECT(J)=VOUT(J) |
667 |
VECTINI(J)=VOUT(J) |
VECTINI(J)=VOUT(J) |
693 |
GOTO 11 |
GOTO 11 |
694 |
ENDIF |
ENDIF |
695 |
|
|
696 |
|
|
697 |
* ----------------------------------------------- |
* ----------------------------------------------- |
698 |
* evaluate track coordinates |
* evaluate track coordinates |
699 |
100 XV(I)=VOUT(1) |
100 XV(I)=VOUT(1) |
703 |
AYV(I)=DATAN(VOUT(5)/VOUT(6))*180./ACOS(-1.) |
AYV(I)=DATAN(VOUT(5)/VOUT(6))*180./ACOS(-1.) |
704 |
* ----------------------------------------------- |
* ----------------------------------------------- |
705 |
|
|
706 |
|
IF(TRACKMODE.EQ.1) THEN |
707 |
|
* ----------------------------------------------- |
708 |
|
* change of energy by bremsstrahlung for electrons |
709 |
|
VOUT(7) = VOUT(7) * 0.997 !0.9968 |
710 |
|
* ----------------------------------------------- |
711 |
|
ENDIF |
712 |
|
|
713 |
ENDDO |
ENDDO |
714 |
|
|
715 |
|
c$$$ print*,'POSXY (dopo) ',vout |
716 |
|
|
717 |
|
|
718 |
RETURN |
RETURN |
719 |
END |
END |
720 |
|
|
755 |
RESY(IP) = 1000. !12.d-4 |
RESY(IP) = 1000. !12.d-4 |
756 |
XGOOD(IP) = 0 |
XGOOD(IP) = 0 |
757 |
YGOOD(IP) = 0 |
YGOOD(IP) = 0 |
758 |
|
DEDXTRK_X(IP) = 0 |
759 |
|
DEDXTRK_Y(IP) = 0 |
760 |
|
AXV(IP) = 0 |
761 |
|
AYV(IP) = 0 |
762 |
|
XV(IP) = -100 |
763 |
|
YV(IP) = -100 |
764 |
enddo |
enddo |
765 |
|
|
766 |
return |
return |
833 |
ENDDO |
ENDDO |
834 |
IFLAG=0 !no debug mode |
IFLAG=0 !no debug mode |
835 |
CALL TRICIRCLE(NP,XP,ZP,AP,RP,CHI,XC,ZC,RADIUS,IFLAG) |
CALL TRICIRCLE(NP,XP,ZP,AP,RP,CHI,XC,ZC,RADIUS,IFLAG) |
836 |
c print*,' circle: ',XC,ZC,RADIUS,' --- ',CHI,IFLAG |
|
837 |
|
c$$$ print*,' circle: ',XC,ZC,RADIUS,' --- ',CHI,IFLAG |
838 |
|
c$$$ print*,' XP ',(xp(i),i=1,np) |
839 |
|
c$$$ print*,' ZP ',(zp(i),i=1,np) |
840 |
|
c$$$ print*,' AP ',(ap(i),i=1,np) |
841 |
|
c$$$ print*,' XP ',(rp(i),i=1,np) |
842 |
|
|
843 |
IF(IFLAG.NE.0)GOTO 10 !straigth fit |
IF(IFLAG.NE.0)GOTO 10 !straigth fit |
844 |
if(CHI.gt.100)GOTO 10 !straigth fit |
c if(CHI.gt.100)GOTO 10 !straigth fit |
845 |
ARG = RADIUS**2-(ZINI-ZC)**2 |
ARG = RADIUS**2-(ZINI-ZC)**2 |
846 |
IF(ARG.LT.0)GOTO 10 !straigth fit |
IF(ARG.LT.0)GOTO 10 !straigth fit |
847 |
DC = SQRT(ARG) |
DC = SQRT(ARG) |
851 |
DEF=100./(RADIUS*0.3*0.43) |
DEF=100./(RADIUS*0.3*0.43) |
852 |
IF(XC.GT.0)DEF=-DEF |
IF(XC.GT.0)DEF=-DEF |
853 |
|
|
854 |
|
|
855 |
|
|
856 |
IF(ABS(X0).GT.30)THEN |
IF(ABS(X0).GT.30)THEN |
857 |
PRINT*,'STRANGE GUESS: XC,ZC,R ',XC,ZC,RADIUS |
c$$$ PRINT*,'STRANGE GUESS: XC,ZC,R ',XC,ZC,RADIUS |
858 |
$ ,' - CHI ',CHI,' - X0,AX,DEF ',X0,AX,DEF |
c$$$ $ ,' - CHI ',CHI,' - X0,AX,DEF ',X0,AX,DEF |
859 |
GOTO 10 !straigth fit |
GOTO 10 !straigth fit |
860 |
ENDIF |
ENDIF |
861 |
GOTO 20 !guess is ok |
GOTO 20 !guess is ok |
899 |
AL(2) = Y0 |
AL(2) = Y0 |
900 |
tath = sqrt(AY**2+AX**2) |
tath = sqrt(AY**2+AX**2) |
901 |
AL(3) = tath/sqrt(1+tath**2) |
AL(3) = tath/sqrt(1+tath**2) |
902 |
IF(AX.NE.0)THEN |
c$$$ IF(AX.NE.0)THEN |
903 |
AL(4)= atan(AY/AX) |
c$$$ AL(4)= atan(AY/AX) |
904 |
ELSE |
c$$$ ELSE |
905 |
AL(4) = acos(-1.)/2 |
c$$$ AL(4) = acos(-1.)/2 |
906 |
IF(AY.LT.0)AL(4) = AL(4)+acos(-1.) |
c$$$ IF(AY.LT.0)AL(4) = AL(4)+acos(-1.) |
907 |
|
c$$$ ENDIF |
908 |
|
c$$$ IF(AX.LT.0)AL(4)= acos(-1.)+ AL(4) |
909 |
|
c$$$ AL(4) = -acos(-1.) + AL(4) !from incidence direction to tracking ref.sys. |
910 |
|
|
911 |
|
c$$$ AL(4) = 0. |
912 |
|
c$$$ IF(AX.NE.0.AND.AY.NE.0)THEN |
913 |
|
c$$$ AL(4)= atan(AY/AX) |
914 |
|
c$$$ ELSEIF(AY.EQ.0)THEN |
915 |
|
c$$$ AL(4) = 0. |
916 |
|
c$$$ IF(AX.LT.0)AL(4) = AL(4)+acos(-1.) |
917 |
|
c$$$ ELSEIF(AX.EQ.0)THEN |
918 |
|
c$$$ AL(4) = acos(-1.)/2 |
919 |
|
c$$$ IF(AY.LT.0)AL(4) = AL(4)+acos(-1.) |
920 |
|
c$$$ ENDIF |
921 |
|
c$$$ IF(AX.LT.0)AL(4)= acos(-1.)+ AL(4) |
922 |
|
c$$$ AL(4) = -acos(-1.) + AL(4) !from incidence direction to tracking ref.sys. |
923 |
|
|
924 |
|
c$$$ AL(4)=0. |
925 |
|
c$$$ IF( AX.NE.0.OR.AY.NE.0. ) THEN |
926 |
|
c$$$ AL(4) = ASIN(AY/SQRT(AX**2+AY**2)) |
927 |
|
c$$$ IF(AX.LT.0.) AL(4) = ACOS(-1.0)-AL(4) |
928 |
|
c$$$ ENDIF |
929 |
|
|
930 |
|
AL(4)=0. |
931 |
|
IF( AX.NE.0.OR.AY.NE.0. ) THEN |
932 |
|
AL(4) = ASIN(AY/SQRT(AX**2+AY**2)) |
933 |
|
IF(AX.LT.0.AND.AY.GE.0) AL(4) = ACOS(-1.0)-AL(4) |
934 |
|
IF(AX.LT.0.AND.AY.LT.0) AL(4) = -ACOS(-1.0)-AL(4) |
935 |
ENDIF |
ENDIF |
936 |
IF(AX.LT.0)AL(4)= acos(-1.)+ AL(4) |
IF(AY.GT.0.) AL(4) = AL(4)-ACOS(-1.0) |
937 |
AL(4) = -acos(-1.) + AL(4) !from incidence direction to tracking rs |
IF(AY.LE.0.) AL(4) = AL(4)+ACOS(-1.0) |
938 |
|
|
939 |
AL(5) = DEF |
AL(5) = DEF |
940 |
|
|
941 |
c print*,' guess: ',(al(i),i=1,5) |
c print*,' guess: ',(al(i),i=1,5) |