source/common/common_calibration.f

C-------------------------------------------------
C     
C-------------------------------------------------


      parameter (dedxmax=250.)  !cut on de/dx (scaled to 300 microns)
*                               !for eta calibrations
*                               !(to avoid delta-rays)
      parameter (rigmax=0.25)   !cut on rigidity
*                               !used for eta calibrations and 
*                               !check histograms

C-------------------------------------------------
C     output files logical units
C-------------------------------------------------
      parameter (lun_file_out=70) !output file id number
      parameter (lun_file_log=73) !log file id number
      parameter (lun_file_eta=74) !eta param file id number


c$$$C-------------------------------------------------
c$$$C     variables for the good track identification 
c$$$C-------------------------------------------------
c$$$      real xpa(nplanes),ypa(nplanes) !PAMELA frame measured coordinates
c$$$      real xres(nplanes),yres(nplanes) !residuals
c$$$      real chix,chiy            !chi-squared
c$$$      real thetax,thetay        !incidence angle
c$$$      real xsi(nplanes),ysi(nplanes) !silicon sensor frame measured coordinates
c$$$      integer lad(nplanes)      !hit ladders
c$$$      integer isensor(nplanes)  !hit sensors
      integer which_cl_x(nplanes),which_cl_y(nplanes)
c$$$c      real fitz(nplanes)        !z coordinates of the planes
c$$$
      common/good_track_cl/
c$$$c     $     fitz,
c$$$     $     xpa,ypa,xres,yres,
c$$$     $     chix,chiy,
c$$$     $     thetax,thetay,
c$$$     $     xsi,ysi,
c$$$     $     lad,isensor,
     $     which_cl_x,which_cl_y

C-------------------------------------------------
C     level1 n-tuple with selected events
C-------------------------------------------------
      
c      parameter (ntp_level1_tmp=41)

C-------------------------------------------------
C     some check histos 
C-------------------------------------------------
      parameter (id_hi_chi=10000)
      parameter (id_hi_mult=7000000)
      parameter (id_hi_charge=8000000)
      parameter (id_hi_rig=11000)

      parameter (id_hi_angle=9000000)
      parameter (id_hi_angle_stat=9900000)

      parameter (id_hi_beam=5000000)

      parameter (id_hi_bx=2000)
      parameter (id_hi_by=3000)   
      parameter (id_hi_bz=4000)

      parameter(nhside=5)


c------------------------------------------------------------------------
c     
c     eta-2 eta-3 eta-4 histograms
c     
c     here is defined the histogram and angular binning
c     for eta corrections
c------------------------------------------------------------------------

      parameter (id_hi_eta2=20000)
      parameter (id_hi_eta3=30000)
      parameter (id_hi_eta4=40000)   

*     eta2 ==>  -0.5 : 0.5
*     eta3 ==>  -0.5 : 0.5
*     eta4 ==>  -1.0 : 1.0
*     !!!!!!! ATTENZIONE !!!!!!!!!!!!
*     mi sono convinta che anche eta4 deve essere definito 
*     tra -0.5 e 0.5, perche` questa e` la periodicita` del sensore
*
      parameter (nhbin2=100)      !eta-2 histo bins
      parameter (nhbin3=nhbin2)   !eta-3 histo bins
*      parameter (nhbin4=2*nhbin2) !eta-4 histo bins
      parameter (nhbin4=nhbin2) !eta-4 histo bins

c$$$      real histo2(nhbin2)
      real eta2corr(nhbin2+1,nviews) !eta2 correction
      real eta2abs(nhbin2+1)         !eta2 abscissa
      common/eta2/eta2corr,eta2abs

c$$$# ifdef TEST2003
c$$$      parameter (nangbin=3)       !number of angular bins
c$$$c      real angbin(nang+1)       !bin extremes
c$$$      data angbin/              !nang=3
c$$$     $     -6.0,
c$$$     $     -2.0,
c$$$     $      2.0,
c$$$     $      6.0/
c$$$# else
c$$$      parameter (nangbin=3)       !number of angular bins
c$$$c      real angbin(nang+1)       !bin extremes
c$$$      data angbin/              !nang=3
c$$$     $     -6.0,
c$$$     $     -2.0,
c$$$     $      2.0,
c$$$     $      6.0/
c$$$# endif

c$$$      parameter (nangmax=50)
c$$$      integer nang,angbin(nangmax)
      real avangbin(nangmax,nviews),navangbin(nangmax,nviews) !average angle in the bin
      common/avang/avangbin,navangbin

c------------------------------------------------------------------------
c     
c     charge correlation histograms
c
c------------------------------------------------------------------------
      parameter (id_hi_chargeco=500000)

      real syksx(nplanes),sycsx(nplanes)
      real esyksx(nplanes),esycsx(nplanes)
      common/sxsy/syksx,sycsx,esyksx,esycsx

*     ---------------------------------------------
*     common per la correlazione di carica (MINUIT)
      parameter (ncorrmax=20000)
      real chargexy(nplanes,3,ncorrmax,2)
      integer whichplane,whichladder,goodtr
      common/chargecorr/chargexy,whichplane,whichladder,goodtr

c      double precision val,error
c      character*12 chnam
c      real esyksx(nplanes),esycsx(nplanes)
*     ---------------------------------------------

1	C-------------------------------------------------
2	C
3	C-------------------------------------------------
4
5
6	parameter (dedxmax=250.) !cut on de/dx (scaled to 300 microns)
7	* !for eta calibrations
8	* !(to avoid delta-rays)
9	parameter (rigmax=0.25) !cut on rigidity
10	* !used for eta calibrations and
11	* !check histograms
12
13	C-------------------------------------------------
14	C output files logical units
15	C-------------------------------------------------
16	parameter (lun_file_out=70) !output file id number
17	parameter (lun_file_log=73) !log file id number
18	parameter (lun_file_eta=74) !eta param file id number
19
20
21	c$$$C-------------------------------------------------
22	c$$$C variables for the good track identification
23	c$$$C-------------------------------------------------
24	c$$$ real xpa(nplanes),ypa(nplanes) !PAMELA frame measured coordinates
25	c$$$ real xres(nplanes),yres(nplanes) !residuals
26	c$$$ real chix,chiy !chi-squared
27	c$$$ real thetax,thetay !incidence angle
28	c$$$ real xsi(nplanes),ysi(nplanes) !silicon sensor frame measured coordinates
29	c$$$ integer lad(nplanes) !hit ladders
30	c$$$ integer isensor(nplanes) !hit sensors
31	integer which_cl_x(nplanes),which_cl_y(nplanes)
32	c$$$c real fitz(nplanes) !z coordinates of the planes
33	c$$$
34	common/good_track_cl/
35	c$$$c $ fitz,
36	c$$$ $ xpa,ypa,xres,yres,
37	c$$$ $ chix,chiy,
38	c$$$ $ thetax,thetay,
39	c$$$ $ xsi,ysi,
40	c$$$ $ lad,isensor,
41	$ which_cl_x,which_cl_y
42
43	C-------------------------------------------------
44	C level1 n-tuple with selected events
45	C-------------------------------------------------
46
47	c parameter (ntp_level1_tmp=41)
48
49	C-------------------------------------------------
50	C some check histos
51	C-------------------------------------------------
52	parameter (id_hi_chi=10000)
53	parameter (id_hi_mult=7000000)
54	parameter (id_hi_charge=8000000)
55	parameter (id_hi_rig=11000)
56
57	parameter (id_hi_angle=9000000)
58	parameter (id_hi_angle_stat=9900000)
59
60	parameter (id_hi_beam=5000000)
61
62	parameter (id_hi_bx=2000)
63	parameter (id_hi_by=3000)
64	parameter (id_hi_bz=4000)
65
66	parameter(nhside=5)
67
68
69	c------------------------------------------------------------------------
70	c
71	c eta-2 eta-3 eta-4 histograms
72	c
73	c here is defined the histogram and angular binning
74	c for eta corrections
75	c------------------------------------------------------------------------
76
77	parameter (id_hi_eta2=20000)
78	parameter (id_hi_eta3=30000)
79	parameter (id_hi_eta4=40000)
80
81	* eta2 ==> -0.5 : 0.5
82	* eta3 ==> -0.5 : 0.5
83	* eta4 ==> -1.0 : 1.0
84	* !!!!!!! ATTENZIONE !!!!!!!!!!!!
85	* mi sono convinta che anche eta4 deve essere definito
86	* tra -0.5 e 0.5, perche` questa e` la periodicita` del sensore
87	*
88	parameter (nhbin2=100) !eta-2 histo bins
89	parameter (nhbin3=nhbin2) !eta-3 histo bins
90	* parameter (nhbin4=2*nhbin2) !eta-4 histo bins
91	parameter (nhbin4=nhbin2) !eta-4 histo bins
92
93	c$$$ real histo2(nhbin2)
94	real eta2corr(nhbin2+1,nviews) !eta2 correction
95	real eta2abs(nhbin2+1) !eta2 abscissa
96	common/eta2/eta2corr,eta2abs
97
98	c$$$# ifdef TEST2003
99	c$$$ parameter (nangbin=3) !number of angular bins
100	c$$$c real angbin(nang+1) !bin extremes
101	c$$$ data angbin/ !nang=3
102	c$$$ $ -6.0,
103	c$$$ $ -2.0,
104	c$$$ $ 2.0,
105	c$$$ $ 6.0/
106	c$$$# else
107	c$$$ parameter (nangbin=3) !number of angular bins
108	c$$$c real angbin(nang+1) !bin extremes
109	c$$$ data angbin/ !nang=3
110	c$$$ $ -6.0,
111	c$$$ $ -2.0,
112	c$$$ $ 2.0,
113	c$$$ $ 6.0/
114	c$$$# endif
115
116	c$$$ parameter (nangmax=50)
117	c$$$ integer nang,angbin(nangmax)
118	real avangbin(nangmax,nviews),navangbin(nangmax,nviews) !average angle in the bin
119	common/avang/avangbin,navangbin
120
121	c------------------------------------------------------------------------
122	c
123	c charge correlation histograms
124	c
125	c------------------------------------------------------------------------
126	parameter (id_hi_chargeco=500000)
127
128	real syksx(nplanes),sycsx(nplanes)
129	real esyksx(nplanes),esycsx(nplanes)
130	common/sxsy/syksx,sycsx,esyksx,esycsx
131
132	* ---------------------------------------------
133	* common per la correlazione di carica (MINUIT)
134	parameter (ncorrmax=20000)
135	real chargexy(nplanes,3,ncorrmax,2)
136	integer whichplane,whichladder,goodtr
137	common/chargecorr/chargexy,whichplane,whichladder,goodtr
138
139	c double precision val,error
140	c character*12 chnam
141	c real esyksx(nplanes),esycsx(nplanes)
142	* ---------------------------------------------
143