inc/F77/common_momanhough.f


C     These are the common blocks used in 
C
C     momanhough.f
C
C     Author: Vannuccini Elena
C     Date: 2004/2005
C

c      include 'level1.f'
c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     SPEP 1                          CLUSTERS ----> COUPLES and SINGLETS
c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     
c     Variables to associate X and Y clusters in each plane
c     according to 
c     * geometrical criteria 
c     * charge correlation
c     
c------------------------------------------------------------------------

*     maximum (total) number of stored clusters
      parameter (nclstrmax_level2 = nclstrmax)
c      parameter (nclstrmax_level2=10*nplanes)
c      parameter (nclstrmax_level2=5*nplanes)

*     -----------------------------------------------------------
*     maximum number of cluster (per view) required to perform
*     track serching with full Hough transform
      parameter (nclustermax=6) 

*     -----------------------------------------------------------
*     maximum number of couples per plane and total 
*     (only to dimension the vectors)
c      parameter (ncouplemax=2*(nclstrmax_level2/nplanes)**2)
c      parameter (ncouplemaxtot=ncouplemax*nplanes)
       parameter (ncouplemax    = nclustermax*nclustermax)
       parameter (ncouplemaxtot = ncouplemax*nplanes)
*     -----------------------------------------------------------
*     maximum number of STORED couples
*     (if the identified couples exceeds this number the 
*     track identification is not performed and the event is 
*     tagged as not good)
c      parameter (ncp_max=10*nplanes)
c      parameter (ncp_max=10*nplanes)
c      parameter (ncp_max        = ncouplemaxtot)


*     -----------------------------------------------------------
*     mask of views
*     0 = ok
*     1 = n.clusters > nclustermax
*     2 = n.couples  > ncouplemax
*     3 = n.doublets > ndblt_max
*     4 = n.triplets > ntrpt_max
*     5 = n.clouds yz > ncloyz_max
*     6 = n.clouds xz > ncloxz_max
*     7 = n.track candidates > NTRACKSMAX
      integer mask_view(nviews)
      common/maskview/mask_view


*     -----------------------------------------------------------
*     --- CLUSTERS ----------------------------------------------
*     -----------------------------------------------------------
*     mask for GOOD cluster 
*      1 = good
*      0 = bad 
*     (- the three central strips should have BAD=0) NOT ANY MORE!
*     - the charge should be greater than 
*       DEDX_X_MIN and DEDX_Y_MIN respectivelly
      integer cl_good(nclstrmax_level2)  
*     -----------------------------------------------------------
*     mask for clusters associated to a track
*      1 = used
*      0 = not used
      integer cl_used(nclstrmax_level2)
      integer ncl_view(nviews)  !n.clusters per plane
*     -----------------------------------------------------------
      common/clusters/cl_good,cl_used,ncl_view

*     -----------------------------------------------------------
*     --- COUPLES -----------------------------------------------
*     -----------------------------------------------------------
*     Clusters are associated to form couples.
*     The j-th couple on i-th plane is formed by
*     clusters numbers CLX(i,j) and CLY(i,j)
      integer clx(nplanes,ncouplemax),cly(nplanes,ncouplemax)
*     number of couples
      integer ncp_plane(nplanes) !per plane
      integer ncp_tot            !total
*     -----------------------------------------------------------
*     COMMENT:
*     the  REAL number of couples is NCP_TOT, however the VIRTUAL 
*     number of couples is 2*NCP_TOT becouse of the 
*     ambiguity in Y view (2 sensors)
*     Each real couples has two images: one on sensor 1, 
*     the other on sensor 2
*     -----------------------------------------------------------
      common/couples/clx,cly,ncp_plane,ncp_tot
*     -----------------------------------------------------------
*     FUNCTIONS to retrieve couple info     
*     
*     id_cp(ip,icp,is) -- returns a GLOBAL couple ID, 
*                         given the plane, the sensor, 
*                         and the couple id  relative to the plane
*                         ID < 0 if sensor =1
*                         ID > 0 if sensor =2
*
*     Given the global couple ID:
*
*     ip_cp(id)        -- returns the plane number
*     is_cp(id)        -- returns the plane number
*     icp_cp(id)       -- returns the id number relative to the plane
*     -----------------------------------------------------------


*     -----------------------------------------------------------
*     --- SINGLETS ----------------------------------------------
*     -----------------------------------------------------------
*     single clusters, not associated in any couple
      integer ncls(nplanes)
      integer cls(nplanes,nclstrmax_level2)
*     -----------------------------------------------------------
*     mask for clusters not inlcuded in a couple
*      1 = single
*      0 = non single
      integer cl_single(nclstrmax_level2) 
*     -----------------------------------------------------------
      common/singlets/ncls,cls,cl_single


c+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
c + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
c------------------------------------------------------------------------
c     HOUGH-TRANSFORM parameters
c------------------------------------------------------------------------
c + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
c+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +

c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     SPEP 2                          COUPLES ----> DOUBLETS and TRIPLETS
c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     
c     Variables to associate couples in 
C     
c     DOUBLETS for Y-Z view  
c     TRIPLETS for X-Z view
c     
c     The 3D particle track can be approximated with a straight line 
c     in the Y-Z view and with a circle sector in the X-Z view. 
c     The Hough trasform is applied independently to the two views. 
c     The parameters of the projected tracks are evaluated for each 
c     combination of points (doublets in YZ and triplets in XZ).
c     
c     Hence track candidates will be identified by looking for
c     "clusters" of points (CLOUDS) in the parameter space. 
c
c------------------------------------------------------------------------
      parameter (ndblt_max=5000)         !maximum number of doublets
      parameter (ntrpt_max=10*ndblt_max) !maximum number of triplets
*     -----------------------------------------------------------
*     number of doublets and triplets
      integer ndblt,ntrpt
*     -----------------------------------------------------------
*     List of couple absolute IDs that form doublets and triplets
      integer cpyz1(ndblt_max),cpyz2(ndblt_max)
      integer cpxz1(ntrpt_max),cpxz2(ntrpt_max),cpxz3(ntrpt_max)
*     -----------------------------------------------------------
*     parameters of the projected tracks
      real
     $     alfayz1(ndblt_max),  !Y0
     $     alfayz2(ndblt_max)   !tg theta-yz
      real
     $     alfaxz1(ntrpt_max),  !X0
     $     alfaxz2(ntrpt_max),  !tg theta-xz
     $     alfaxz3(ntrpt_max)   !1/r
*     -----------------------------------------------------------
      common/hough_param/
     $     alfayz1,  !Y0
     $     alfayz2,  !tg theta-yz
     $     alfaxz1,  !X0
     $     alfaxz2,  !tg theta-xz
     $     alfaxz3   !1/r
      common/doublets/ndblt,cpyz1,cpyz2
      common/triplets/ntrpt,cpxz1,cpxz2,cpxz3

c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     SPEP 3                 DOUBLETS and TRIPLETS ----> YZ and XZ-CLOUDS 
c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     
c     Variables to group doublets and triplets in CLOUDS, according to 
c     their relative distance in parameter space.
c     The association is done indipendently on YZ and XZ views.
c
c------------------------------------------------------------------------      
      parameter (ncloyz_max=200)!maximum number of clouds
      parameter (ncloxz_max=200)!  "
*     -----------------------------------------------------------
*     Number of YZ and XZ clouds
      integer nclouds_yz,nclouds_xz
*     -----------------------------------------------------------
*     mask to store combinations of couples selected as clouds  
*     NOTATION:
*     0 = not selected
*     1 = selected couple image in SENSOR 1
*     2 = selected couple image in SENSOR 2
*     3 = selected both images
      integer cpcloud_yz(ncloyz_max,ncouplemaxtot)
      integer cpcloud_xz(ncloxz_max,ncouplemaxtot)
*     -----------------------------------------------------------
*     doublet and triplet ID in the selected clouds
      integer db_cloud(ndblt_max)
      integer tr_cloud(ntrpt_max)
*     -----------------------------------------------------------
*     number of points in the cloud
      integer ptcloud_yz(ncloyz_max)
      integer ptcloud_xz(ncloxz_max)
*     -----------------------------------------------------------
*     average parameters
      real alfayz1_av(ncloyz_max),alfayz2_av(ncloyz_max)
      real alfaxz1_av(ncloxz_max),alfaxz2_av(ncloxz_max)
     $     ,alfaxz3_av(ncloxz_max)
      common/clouds_yz/                   
     $     nclouds_yz                        
     $     ,alfayz1_av,alfayz2_av           
     $     ,ptcloud_yz,db_cloud,cpcloud_yz       
      common/clouds_xz/                   
     $      nclouds_xz                        
     $     ,alfaxz1_av,alfaxz2_av,alfaxz3_av 
     $     ,ptcloud_xz,tr_cloud,cpcloud_xz           

c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     SPEP 4                      YZ and XZ-CLOUDS ----> TRACK CANDIDATES 
c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
c     
c     Variables to store information about track-candidates,
c     evaluated by combining YZ and XZ clouds.
c
c     NB ! ! !
c     
c     While until now the plane number followed the mechanical notation 
c     (1 to 6, from bottom to top), variables related to the tracks
c     are referred to the mini notation (1 to 6, from top to bottom)
c
c------------------------------------------------------------------------      

*     -----------------------------------------------------
*     default p.f.a. 
*     used to fit track candidates
*     -----------------------------------------------------
      character*5 PFAdef
      parameter (PFAdef='COG1')

c------------------------------------------------------------------------
c     variable related to track selection and fitting
c------------------------------------------------------------------------

*     track candidates
      PARAMETER (NTRACKSMAX=ncloyz_max*ncloxz_max)
      INTEGER NTRACKS           !number of track candidates
      REAL AL_STORE(5,NTRACKSMAX)
      REAL XM_STORE(NPLANES,NTRACKSMAX)
      REAL YM_STORE(NPLANES,NTRACKSMAX)
      REAL ZM_STORE(NPLANES,NTRACKSMAX)
      REAL RESX_STORE(NPLANES,NTRACKSMAX)
      REAL RESY_STORE(NPLANES,NTRACKSMAX)
      REAL XV_STORE(NPLANES,NTRACKSMAX)
      REAL YV_STORE(NPLANES,NTRACKSMAX)
      REAL ZV_STORE(NPLANES,NTRACKSMAX)
      REAL AXV_STORE(NPLANES,NTRACKSMAX)
      REAL AYV_STORE(NPLANES,NTRACKSMAX)
      REAL XGOOD_STORE(NPLANES,NTRACKSMAX)
      REAL YGOOD_STORE(NPLANES,NTRACKSMAX)
      INTEGER CP_STORE(NPLANES,NTRACKSMAX)
      INTEGER CLS_STORE(NPLANES,NTRACKSMAX)
      REAL RCHI2_STORE(NTRACKSMAX)
      common/track_candidates/NTRACKS,AL_STORE
     $     ,XV_STORE,YV_STORE,ZV_STORE
     $     ,XM_STORE,YM_STORE,ZM_STORE
     $     ,RESX_STORE,RESY_STORE
     $     ,AXV_STORE,AYV_STORE
     $     ,XGOOD_STORE,YGOOD_STORE
     $     ,CP_STORE,CLS_STORE,RCHI2_STORE


*     best-candidate selection 
      PARAMETER (CHI2MAX=15)


c------------------------------------------------------------------------
c     CUTS and other parameters
c------------------------------------------------------------------------
      PARAMETER (PIGR=3.14)     !159265359)!(1)
*     -----------------------------------------------------
*     cuts on cluster signal
*     -----------------------------------------------------
      parameter (dedx_x_min=0.)
      parameter (dedx_y_min=0.)
*     -----------------------------------------------------
*     number of GOOD strips around MAXS
*     (NB this cut has been removed in track fitting but 
*     not in calibration)
*     -----------------------------------------------------
      parameter (ngoodstr=2)   
*     -----------------------------------------------------
*     first cuts on the parameters determined with 
*     the hough transform, in order to exclude from the 
*     analysis non physical dublets and triplets
*     (out of the geometrical acceptance of the apparatus)
*     -----------------------------------------------------
*     geometrical acceptance whit 6 planes               
c$$$      parameter (alfyz1_max=8.7)  !Y0  (real acc+1cm)    
c$$$      parameter (alfyz2_max=0.47) !tg theta-yz (18+7deg) 
c$$$      parameter (alfxz1_max=9.5)  !X0  (real acc+1cm)    
c$$$      parameter (alfxz2_max=0.47) !tg theta-xz (18+7deg) 

c$$$*     geometrical acceptance whit the last 5 planes      
c$$$      parameter (alfyz1_max=12.4) !Y0  (real acc+1cm)   
c$$$      parameter (alfyz2_max=0.55) !tg theta-yz (22+7deg) 
c$$$      parameter (alfxz1_max=13.7) !X0  (real acc+1cm)    
c$$$      parameter (alfxz2_max=0.55) !tg theta-xz (22+7deg) 
c$$$
c$$$*     geometrical acceptance whit the last 4 planes      
c$$$      parameter (alfyz1_max=18.6) !Y0  (real acc+1cm)   
c$$$      parameter (alfyz2_max=0.70) !tg theta-yz (28+7deg)
c$$$      parameter (alfxz1_max=20.6) !X0  (real acc+1cm)   
c$$$      parameter (alfxz2_max=0.70) !tg theta-xz (28+7deg)
c$$$
*     geometrical acceptance whit the last 3 planes     
      parameter (alfyz1_max=31.0) !Y0  (real acc+1cm)   
      parameter (alfyz2_max=1.04) !tg theta-yz (39+7deg) 
      parameter (alfxz1_max=34.4) !X0  (real acc+1cm)   
      parameter (alfxz2_max=1.04) !tg theta-xz (39+7deg) 
*     -----------------------------------------------------
*     cut on the position of the circle center:
*     center inside the spectrometer volume is not physical
*     ==> THE TRIPLET IS REJECTED
*     -----------------------------------------------------
      parameter (xclimit=8.)    !cm
*     -----------------------------------------------------
*     Parameter normalization constants, needed to evaluate
*     distances in parameter space
*     -----------------------------------------------------
      parameter (Dalfaxz3=1.)
      parameter (Dalfayz1=0.8864e-1) 
      parameter (Dalfayz2=0.6204e-3) 
      parameter (Dalfaxz1=0.2909e-1) 
      parameter (Dalfaxz2=0.2759e-2) 
*     -----------------------------------------------------
*     Cut on normalized distances in parameter space. 
*     Doublets/triplets are recursively included in a cloud 
*     if the distance from any of the points already included
*     is less than this cut.
*     -----------------------------------------------------
      parameter(cutystart=0.3)   
      parameter(cutystep=0.3)    
      parameter(cutxstart=1.) 
      parameter(cutxstep=1.)  
      parameter(maxcuty=100.) 
      parameter(maxcutx=150.) 

      parameter(nstepx=50)     !inclusion-cut increasing steps
      parameter(nstepy=50) 

      real cutdistyz            !y0 / tg theta_yz space   
      real cutdistxz            !x0 / tg theta_xz space   
      common/cutdi/cutdistyz,cutdistxz
*     (NB deflection is not considered in the selection criteria) 
*     --------------------------------------------------
*     cloud selection
*     --------------------------------------------------
      parameter(x_min_start=4) 
      parameter(x_min_step=1)  
      
      integer ncpxz_min 
      integer nptxz_min         !for a circle        
      integer nplxz_min         !for a circle       

      common/cutxclouds/ncpxz_min,nptxz_min,nplxz_min 

      parameter(y_min_start=3) 

      integer ncpyz_min       
      integer nptyz_min         !for a straight line 
      integer nplyz_min         !for a circle        
      common/cutyclouds/ncpyz_min,nptyz_min,nplyz_min
*     --------------------------------------------------

*     -----------------------------------------------------
*     minimum number of matching couples required to combine
*     XZ-YZ clouds and perform the fit
*     -----------------------------------------------------
      parameter (ncpok=3)      

*     -----------------------------------------------------
*     maximum value of deflection from Hough transform
*     accepted in order to perform the track fit
*     -----------------------------------------------------
c      parameter (defmax=10000.) !GV-1 
      parameter (defmax=100.) !GV-1 

*     -----------------------------------------------------
*     cut to include new couple or single clusters in the
*     track fitting, after the first fit
*     -----------------------------------------------------
      parameter (clinc=3)


1
2	C These are the common blocks used in
3	C
4	C momanhough.f
5	C
6	C Author: Vannuccini Elena
7	C Date: 2004/2005
8	C
9
10	c include 'level1.f'
11	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
12	c SPEP 1 CLUSTERS ----> COUPLES and SINGLETS
13	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
14	c
15	c Variables to associate X and Y clusters in each plane
16	c according to
17	c * geometrical criteria
18	c * charge correlation
19	c
20	c------------------------------------------------------------------------
21
22	* maximum (total) number of stored clusters
23	parameter (nclstrmax_level2 = nclstrmax)
24	c parameter (nclstrmax_level2=10*nplanes)
25	c parameter (nclstrmax_level2=5*nplanes)
26
27	* -----------------------------------------------------------
28	* maximum number of cluster (per view) required to perform
29	* track serching with full Hough transform
30	parameter (nclustermax=6)
31
32	* -----------------------------------------------------------
33	* maximum number of couples per plane and total
34	* (only to dimension the vectors)
35	c parameter (ncouplemax=2(nclstrmax_level2/nplanes)*2)
36	c parameter (ncouplemaxtot=ncouplemax*nplanes)
37	parameter (ncouplemax = nclustermax*nclustermax)
38	parameter (ncouplemaxtot = ncouplemax*nplanes)
39	* -----------------------------------------------------------
40	* maximum number of STORED couples
41	* (if the identified couples exceeds this number the
42	* track identification is not performed and the event is
43	* tagged as not good)
44	c parameter (ncp_max=10*nplanes)
45	c parameter (ncp_max=10*nplanes)
46	c parameter (ncp_max = ncouplemaxtot)
47
48
49
50	* -----------------------------------------------------------
51	* mask of views
52	* 0 = ok
53	* 1 = n.clusters > nclustermax
54	* 2 = n.couples > ncouplemax
55	* 3 = n.doublets > ndblt_max
56	* 4 = n.triplets > ntrpt_max
57	* 5 = n.clouds yz > ncloyz_max
58	* 6 = n.clouds xz > ncloxz_max
59	* 7 = n.track candidates > NTRACKSMAX
60	integer mask_view(nviews)
61	common/maskview/mask_view
62
63
64	* -----------------------------------------------------------
65	* --- CLUSTERS ----------------------------------------------
66	* -----------------------------------------------------------
67	* mask for GOOD cluster
68	* 1 = good
69	* 0 = bad
70	* (- the three central strips should have BAD=0) NOT ANY MORE!
71	* - the charge should be greater than
72	* DEDX_X_MIN and DEDX_Y_MIN respectivelly
73	integer cl_good(nclstrmax_level2)
74	* -----------------------------------------------------------
75	* mask for clusters associated to a track
76	* 1 = used
77	* 0 = not used
78	integer cl_used(nclstrmax_level2)
79	integer ncl_view(nviews) !n.clusters per plane
80	* -----------------------------------------------------------
81	common/clusters/cl_good,cl_used,ncl_view
82
83	* -----------------------------------------------------------
84	* --- COUPLES -----------------------------------------------
85	* -----------------------------------------------------------
86	* Clusters are associated to form couples.
87	* The j-th couple on i-th plane is formed by
88	* clusters numbers CLX(i,j) and CLY(i,j)
89	integer clx(nplanes,ncouplemax),cly(nplanes,ncouplemax)
90	* number of couples
91	integer ncp_plane(nplanes) !per plane
92	integer ncp_tot !total
93	* -----------------------------------------------------------
94	* COMMENT:
95	* the REAL number of couples is NCP_TOT, however the VIRTUAL
96	* number of couples is 2*NCP_TOT becouse of the
97	* ambiguity in Y view (2 sensors)
98	* Each real couples has two images: one on sensor 1,
99	* the other on sensor 2
100	* -----------------------------------------------------------
101	common/couples/clx,cly,ncp_plane,ncp_tot
102	* -----------------------------------------------------------
103	* FUNCTIONS to retrieve couple info
104	*
105	* id_cp(ip,icp,is) -- returns a GLOBAL couple ID,
106	* given the plane, the sensor,
107	* and the couple id relative to the plane
108	* ID < 0 if sensor =1
109	* ID > 0 if sensor =2
110	*
111	* Given the global couple ID:
112	*
113	* ip_cp(id) -- returns the plane number
114	* is_cp(id) -- returns the plane number
115	* icp_cp(id) -- returns the id number relative to the plane
116	* -----------------------------------------------------------
117
118
119	* -----------------------------------------------------------
120	* --- SINGLETS ----------------------------------------------
121	* -----------------------------------------------------------
122	* single clusters, not associated in any couple
123	integer ncls(nplanes)
124	integer cls(nplanes,nclstrmax_level2)
125	* -----------------------------------------------------------
126	* mask for clusters not inlcuded in a couple
127	* 1 = single
128	* 0 = non single
129	integer cl_single(nclstrmax_level2)
130	* -----------------------------------------------------------
131	common/singlets/ncls,cls,cl_single
132
133
134	c+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
135	c + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
136	c------------------------------------------------------------------------
137	c HOUGH-TRANSFORM parameters
138	c------------------------------------------------------------------------
139	c + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
140	c+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
141
142	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
143	c SPEP 2 COUPLES ----> DOUBLETS and TRIPLETS
144	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
145	c
146	c Variables to associate couples in
147	C
148	c DOUBLETS for Y-Z view
149	c TRIPLETS for X-Z view
150	c
151	c The 3D particle track can be approximated with a straight line
152	c in the Y-Z view and with a circle sector in the X-Z view.
153	c The Hough trasform is applied independently to the two views.
154	c The parameters of the projected tracks are evaluated for each
155	c combination of points (doublets in YZ and triplets in XZ).
156	c
157	c Hence track candidates will be identified by looking for
158	c "clusters" of points (CLOUDS) in the parameter space.
159	c
160	c------------------------------------------------------------------------
161	parameter (ndblt_max=5000) !maximum number of doublets
162	parameter (ntrpt_max=10*ndblt_max) !maximum number of triplets
163	* -----------------------------------------------------------
164	* number of doublets and triplets
165	integer ndblt,ntrpt
166	* -----------------------------------------------------------
167	* List of couple absolute IDs that form doublets and triplets
168	integer cpyz1(ndblt_max),cpyz2(ndblt_max)
169	integer cpxz1(ntrpt_max),cpxz2(ntrpt_max),cpxz3(ntrpt_max)
170	* -----------------------------------------------------------
171	* parameters of the projected tracks
172	real
173	$ alfayz1(ndblt_max), !Y0
174	$ alfayz2(ndblt_max) !tg theta-yz
175	real
176	$ alfaxz1(ntrpt_max), !X0
177	$ alfaxz2(ntrpt_max), !tg theta-xz
178	$ alfaxz3(ntrpt_max) !1/r
179	* -----------------------------------------------------------
180	common/hough_param/
181	$ alfayz1, !Y0
182	$ alfayz2, !tg theta-yz
183	$ alfaxz1, !X0
184	$ alfaxz2, !tg theta-xz
185	$ alfaxz3 !1/r
186	common/doublets/ndblt,cpyz1,cpyz2
187	common/triplets/ntrpt,cpxz1,cpxz2,cpxz3
188
189	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
190	c SPEP 3 DOUBLETS and TRIPLETS ----> YZ and XZ-CLOUDS
191	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
192	c
193	c Variables to group doublets and triplets in CLOUDS, according to
194	c their relative distance in parameter space.
195	c The association is done indipendently on YZ and XZ views.
196	c
197	c------------------------------------------------------------------------
198	parameter (ncloyz_max=200)!maximum number of clouds
199	parameter (ncloxz_max=200)! "
200	* -----------------------------------------------------------
201	* Number of YZ and XZ clouds
202	integer nclouds_yz,nclouds_xz
203	* -----------------------------------------------------------
204	* mask to store combinations of couples selected as clouds
205	* NOTATION:
206	* 0 = not selected
207	* 1 = selected couple image in SENSOR 1
208	* 2 = selected couple image in SENSOR 2
209	* 3 = selected both images
210	integer cpcloud_yz(ncloyz_max,ncouplemaxtot)
211	integer cpcloud_xz(ncloxz_max,ncouplemaxtot)
212	* -----------------------------------------------------------
213	* doublet and triplet ID in the selected clouds
214	integer db_cloud(ndblt_max)
215	integer tr_cloud(ntrpt_max)
216	* -----------------------------------------------------------
217	* number of points in the cloud
218	integer ptcloud_yz(ncloyz_max)
219	integer ptcloud_xz(ncloxz_max)
220	* -----------------------------------------------------------
221	* average parameters
222	real alfayz1_av(ncloyz_max),alfayz2_av(ncloyz_max)
223	real alfaxz1_av(ncloxz_max),alfaxz2_av(ncloxz_max)
224	$ ,alfaxz3_av(ncloxz_max)
225	common/clouds_yz/
226	$ nclouds_yz
227	$ ,alfayz1_av,alfayz2_av
228	$ ,ptcloud_yz,db_cloud,cpcloud_yz
229	common/clouds_xz/
230	$ nclouds_xz
231	$ ,alfaxz1_av,alfaxz2_av,alfaxz3_av
232	$ ,ptcloud_xz,tr_cloud,cpcloud_xz
233
234	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
235	c SPEP 4 YZ and XZ-CLOUDS ----> TRACK CANDIDATES
236	c+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
237	c
238	c Variables to store information about track-candidates,
239	c evaluated by combining YZ and XZ clouds.
240	c
241	c NB ! ! !
242	c
243	c While until now the plane number followed the mechanical notation
244	c (1 to 6, from bottom to top), variables related to the tracks
245	c are referred to the mini notation (1 to 6, from top to bottom)
246	c
247	c------------------------------------------------------------------------
248
249	* -----------------------------------------------------
250	* default p.f.a.
251	* used to fit track candidates
252	* -----------------------------------------------------
253	character*5 PFAdef
254	parameter (PFAdef='COG1')
255
256	c------------------------------------------------------------------------
257	c variable related to track selection and fitting
258	c------------------------------------------------------------------------
259
260	* track candidates
261	PARAMETER (NTRACKSMAX=ncloyz_max*ncloxz_max)
262	INTEGER NTRACKS !number of track candidates
263	REAL AL_STORE(5,NTRACKSMAX)
264	REAL XM_STORE(NPLANES,NTRACKSMAX)
265	REAL YM_STORE(NPLANES,NTRACKSMAX)
266	REAL ZM_STORE(NPLANES,NTRACKSMAX)
267	REAL RESX_STORE(NPLANES,NTRACKSMAX)
268	REAL RESY_STORE(NPLANES,NTRACKSMAX)
269	REAL XV_STORE(NPLANES,NTRACKSMAX)
270	REAL YV_STORE(NPLANES,NTRACKSMAX)
271	REAL ZV_STORE(NPLANES,NTRACKSMAX)
272	REAL AXV_STORE(NPLANES,NTRACKSMAX)
273	REAL AYV_STORE(NPLANES,NTRACKSMAX)
274	REAL XGOOD_STORE(NPLANES,NTRACKSMAX)
275	REAL YGOOD_STORE(NPLANES,NTRACKSMAX)
276	INTEGER CP_STORE(NPLANES,NTRACKSMAX)
277	INTEGER CLS_STORE(NPLANES,NTRACKSMAX)
278	REAL RCHI2_STORE(NTRACKSMAX)
279	common/track_candidates/NTRACKS,AL_STORE
280	$ ,XV_STORE,YV_STORE,ZV_STORE
281	$ ,XM_STORE,YM_STORE,ZM_STORE
282	$ ,RESX_STORE,RESY_STORE
283	$ ,AXV_STORE,AYV_STORE
284	$ ,XGOOD_STORE,YGOOD_STORE
285	$ ,CP_STORE,CLS_STORE,RCHI2_STORE
286
287
288	* best-candidate selection
289	PARAMETER (CHI2MAX=15)
290
291
292
293	c------------------------------------------------------------------------
294	c CUTS and other parameters
295	c------------------------------------------------------------------------
296	PARAMETER (PIGR=3.14) !159265359)!(1)
297	* -----------------------------------------------------
298	* cuts on cluster signal
299	* -----------------------------------------------------
300	parameter (dedx_x_min=0.)
301	parameter (dedx_y_min=0.)
302	* -----------------------------------------------------
303	* number of GOOD strips around MAXS
304	* (NB this cut has been removed in track fitting but
305	* not in calibration)
306	* -----------------------------------------------------
307	parameter (ngoodstr=2)
308	* -----------------------------------------------------
309	* first cuts on the parameters determined with
310	* the hough transform, in order to exclude from the
311	* analysis non physical dublets and triplets
312	* (out of the geometrical acceptance of the apparatus)
313	* -----------------------------------------------------
314	* geometrical acceptance whit 6 planes
315	c$$$ parameter (alfyz1_max=8.7) !Y0 (real acc+1cm)
316	c$$$ parameter (alfyz2_max=0.47) !tg theta-yz (18+7deg)
317	c$$$ parameter (alfxz1_max=9.5) !X0 (real acc+1cm)
318	c$$$ parameter (alfxz2_max=0.47) !tg theta-xz (18+7deg)
319
320	c$$$* geometrical acceptance whit the last 5 planes
321	c$$$ parameter (alfyz1_max=12.4) !Y0 (real acc+1cm)
322	c$$$ parameter (alfyz2_max=0.55) !tg theta-yz (22+7deg)
323	c$$$ parameter (alfxz1_max=13.7) !X0 (real acc+1cm)
324	c$$$ parameter (alfxz2_max=0.55) !tg theta-xz (22+7deg)
325	c$$$
326	c$$$* geometrical acceptance whit the last 4 planes
327	c$$$ parameter (alfyz1_max=18.6) !Y0 (real acc+1cm)
328	c$$$ parameter (alfyz2_max=0.70) !tg theta-yz (28+7deg)
329	c$$$ parameter (alfxz1_max=20.6) !X0 (real acc+1cm)
330	c$$$ parameter (alfxz2_max=0.70) !tg theta-xz (28+7deg)
331	c$$$
332	* geometrical acceptance whit the last 3 planes
333	parameter (alfyz1_max=31.0) !Y0 (real acc+1cm)
334	parameter (alfyz2_max=1.04) !tg theta-yz (39+7deg)
335	parameter (alfxz1_max=34.4) !X0 (real acc+1cm)
336	parameter (alfxz2_max=1.04) !tg theta-xz (39+7deg)
337	* -----------------------------------------------------
338	* cut on the position of the circle center:
339	* center inside the spectrometer volume is not physical
340	* ==> THE TRIPLET IS REJECTED
341	* -----------------------------------------------------
342	parameter (xclimit=8.) !cm
343	* -----------------------------------------------------
344	* Parameter normalization constants, needed to evaluate
345	* distances in parameter space
346	* -----------------------------------------------------
347	parameter (Dalfaxz3=1.)
348	parameter (Dalfayz1=0.8864e-1)
349	parameter (Dalfayz2=0.6204e-3)
350	parameter (Dalfaxz1=0.2909e-1)
351	parameter (Dalfaxz2=0.2759e-2)
352	* -----------------------------------------------------
353	* Cut on normalized distances in parameter space.
354	* Doublets/triplets are recursively included in a cloud
355	* if the distance from any of the points already included
356	* is less than this cut.
357	* -----------------------------------------------------
358	parameter(cutystart=0.3)
359	parameter(cutystep=0.3)
360	parameter(cutxstart=1.)
361	parameter(cutxstep=1.)
362	parameter(maxcuty=100.)
363	parameter(maxcutx=150.)
364
365	parameter(nstepx=50) !inclusion-cut increasing steps
366	parameter(nstepy=50)
367
368	real cutdistyz !y0 / tg theta_yz space
369	real cutdistxz !x0 / tg theta_xz space
370	common/cutdi/cutdistyz,cutdistxz
371	* (NB deflection is not considered in the selection criteria)
372	* --------------------------------------------------
373	* cloud selection
374	* --------------------------------------------------
375	parameter(x_min_start=4)
376	parameter(x_min_step=1)
377
378	integer ncpxz_min
379	integer nptxz_min !for a circle
380	integer nplxz_min !for a circle
381
382	common/cutxclouds/ncpxz_min,nptxz_min,nplxz_min
383
384	parameter(y_min_start=3)
385
386	integer ncpyz_min
387	integer nptyz_min !for a straight line
388	integer nplyz_min !for a circle
389	common/cutyclouds/ncpyz_min,nptyz_min,nplyz_min
390	* --------------------------------------------------
391
392	* -----------------------------------------------------
393	* minimum number of matching couples required to combine
394	* XZ-YZ clouds and perform the fit
395	* -----------------------------------------------------
396	parameter (ncpok=3)
397
398	* -----------------------------------------------------
399	* maximum value of deflection from Hough transform
400	* accepted in order to perform the track fit
401	* -----------------------------------------------------
402	c parameter (defmax=10000.) !GV-1
403	parameter (defmax=100.) !GV-1
404
405	* -----------------------------------------------------
406	* cut to include new couple or single clusters in the
407	* track fitting, after the first fit
408	* -----------------------------------------------------
409	parameter (clinc=3)
410
411
412