utilities/template/template.f


*************************************************************************
*     Program template.f
*
*     - template to access LEVEL2 tracker data 
*       and use the track parameters to evaluate the 
*       the particle trajectory in the apparatus
*     
*************************************************************************

      program template


      include 'trk_level2.f'

c----- HBOOK
      INTEGER HMEM
      parameter (NWPAWC=8500000)
      common/PAWC/HMEM(NWPAWC)

      parameter (ntp_level2=22)
c------------------------------------------------------------------------
c     
c     local variables
c     
c------------------------------------------------------------------------
      character*74 data_file    !data file name
      character*74 data_dir     !data directory
      character*74 data_file_level2

      parameter (lun_data_level2=72) !data file id number


      logical general,single,column,trackok
      integer l1,s1,l6,s6


      COMMON/QUEST/IQUEST(100) 

c     =======================================
c     variables for tracking routine
c     =======================================
      parameter(NPOINT_MAX=100)
      DOUBLE PRECISION ZIN(NPOINT_MAX)
      DOUBLE PRECISION XOUT(NPOINT_MAX),YOUT(NPOINT_MAX)
      DOUBLE PRECISION AL_P(5)
c     =======================================

c     define TOF Z-coordinates
      parameter (NPTOF=3)
      REAL ZTOF(NPTOF)      
      DATA ZTOF/55.,25.,-23/    !NB!!!  from TOP to BOTTOM

c------------------------------------------------------------------------
c     
c     HBOOK initialization
c     
c------------------------------------------------------------------------
      
      call HLIMIT(NWPAWC)
c------------------------------------------------------------------------
c     
c     reads input informations
c     
c------------------------------------------------------------------------
 111  format(a)
      print*,'Data dir:'      
      read(*,111)data_dir
      print*,data_dir
      print*,'Data file'      
      print*,'(without estention: output_YYMMDD_XXX )'
      read(*,*)data_file     
      print*,data_file
      minevent=1
      print*,'Maximum number of events to be analysed:'
      read(*,*) ntotev
      print*,ntotev    
      print*,'-----------------------------------------'
      print*,''
c------------------------------------------------------------------------
c     
c     opens level2 file
c     
c------------------------------------------------------------------------
 504  format(a,a,'_level2.rz')
      write(data_file_level2,504)
     $     data_dir(1:LNBLNK(data_dir))
     $     ,data_file(1:LNBLNK(data_file))
      print*,'__________ opening LEVEL2 rz file __________'
      print*,data_file_level2
      IQUEST(10)=65000      
      call HROPEN(lun_data_level2,
     $     'LEVEL2',data_file_level2,'QP',4096,istat) !opens rz  
      if(istat.ne.0) goto 19      
      print*,'reading LEVEL2 n-tuple...'
      call HRIN(ntp_level2,9999,0)       

*     -----------------------------------------------
      CALL HBNAME(ntp_level2,' ',0,'$CLEAR')
      CALL HBNAME(ntp_level2,'GENERAL',GOOD2,'$SET')
      CALL HBNAME(ntp_level2,'CPU',pkt_type,'$SET')
      CALL HBNAME(ntp_level2,'TRACKS',ntrk,'$SET')
      CALL HBNAME(ntp_level2,'SINGLETX',nclsx,'$SET')
      CALL HBNAME(ntp_level2,'SINGLETY',nclsy,'$SET')
*     -----------------------------------------------

      call HPRNTU(ntp_level2)  
      call HNOENT(ntp_level2,iemax0)
      print*,'ok'
      print*,' '


c------------------------------------------------------------------------
c     
c     =======================
c     read magnetic field map
c     =======================
c     
c------------------------------------------------------------------------
      print*,'- read magnetic field map'
      print*,' '
      call read_B
      print*,' '

      call HCDIR('//LEVEL2',' ')

c------------------------------------------------------------------------
c     ////////////////////
c     
c     start loop on events
c     
c     \\\\\\\\\\\\\\\\\\\\
c------------------------------------------------------------------------
      maxevent=minevent+ntotev
      do iev = minevent,MIN(iemax0,maxevent) !loop on events

*        ----------------------------------------------
         call HGNT(ntp_level2,iev,ierr) !reads an event
         if(ierr.ne.0) goto 21
*        ----------------------------------------------


*=======> INSTERT HERE YOUR CODE     


*     initializations
         do itof=1,NPTOF
            XOUT(itof) = 0 
            YOUT(itof) = 0
         enddo

*       ########################################
*       GENERAL CUTS
        general = .true.
        if (
     +   .not.GOOD2.or.
     +    ntrk.eq.0.or.
     +    .false.) general = .false.
        if(.not.general)goto 100

*       ########################################
*       SINGLE TRACK
        single = .false.
        itrk = 0
        if(ntrk.eq.1)then
           single = .true.
           itrk = 1
        elseif(ntrk.eq.2..and.image(1).ne.0)then
           single = .true.
*          -----------------
*          CHOSE THE IMAGE!!
*          -----------------
           itrk = 1
           if(CHI2(image(1)).lt.CHI2(1))itrk = 2
*          -----------------
        endif
        if(.not.single)goto 100

*       ########################################
*       GEOMETRY

        l1 = int( p1_ladder(XV(1,itrk)))
        l6 = int( p1_ladder(XV(6,itrk)))
        s1 = int( p1_sensor(YV(1,itrk)))
        s6 = int( p1_sensor(YV(6,itrk)))
        column=.false.
        if(
     +      l1.eq.l6.and.
     +      l1.ne.0.and.
     +      s1.eq.s6.and.
     +      s1.ne.0.and.
     +     .true.)column=.true.
c$$$    if(.not.column)goto 100

        
*       ########################################
*       TRACK SELECTION
        trackok = .false.
        npx = 0
        npy = 0
        do i=1,6
           npx = npx + XGOOD(i,itrk)
           npy = npy + YGOOD(i,itrk)
        enddo
*       POINTS ----------------------------------
        if(
     +    npy.ge.4.and.
     +    npx.ge.5.and.
c     +    npy.ge.6.and.
c     +    npx.ge.6.and.
     +    XGOOD(1,itrk).eq.1.and.
     +    XGOOD(6,itrk).eq.1.and.
     +    CHI2(itrk).gt.0.and.
     +    .true.) trackok = .true.

        rig=abs(1./AL(5,itrk))

*       CHI^2 ------------------------------------
        chicut = 10.             !
        chicut = chicut *( 
     $       3.7032*exp(-0.41911E-01*rig)
     $       +0.85355
     $       +10.905*exp(-0.61893*rig) )
        if(
     +     CHI2(itrk).gt.chicut.and. 
     +    .true.)trackok = .false.
        
*       CLUSTERS OUT OF THE TRACK --------------------------
        ncls=nclsx+nclsy
        if(ncls.gt.0)trackok = .false.

*       RIGIDITY ----------------------------------
*       *******************************************
        if(
     +    rig.lt.5..and.
     +    .true.)trackok = .false.
*       *******************************************

        if(.not.trackok)goto 100 

*    


        print*,'----------------------------------'
        print*,'Event ',iev,' selected'
*     assigned input  parameters for track routine
*     1) Z-coordinates where the trajectory is evaluated
        do itof=1,NPTOF
           ZIN(itof) = ZTOF(itof) 
        enddo
*     2) track status vector
        do i=1,5
           AL_P(i) = AL(i,itrk)
        enddo
*     -------- *** tracking routine *** --------
        call track(NPTOF,ZIN,XOUT,YOUT,AL_P,IFAIL)
*     ------------------------------------------
        do itof=1,NPTOF                  
           print*,'S',itof,' --- (z,x,y) = '
     $          ,ZIN(itof),XOUT(itof),YOUT(itof)
        enddo
        
        
 100    continue
      enddo                     !end loop on events
      GOTO 9000                 !got to end

c------------------------------------------------------------------------
c     
c     data file opening error
c     
c------------------------------------------------------------------------
 19   continue
      
      print*,' '
      print*,'ERROR OPENING DATA FILE: ',data_file
      print*,' '
      print*,' '
      
      goto 9000                 !the end

c------------------------------------------------------------------------
c     
c     level2 ntuple event reading error
c     
c------------------------------------------------------------------------
      
 21   continue
      
      print*,' '
      print*,'ERROR WHILE READING LEVEL2 NTUPLE, AT EVENT
     $     : ',iev
      print*,' '
      print*,' '
      
      goto 9000                 !the end

c------------------------------------------------------------------------
c     
c     closes files and exits
c     
c------------------------------------------------------------------------

 9000 continue

      call HCDIR('//LEVEL2',' ')
      call HREND('level2')
      close(lun_data_level2)

      return
      end


c      include 'access_level2.f'
c      include 'track.f'

      function p1_ladder(x)
      
      real xlimit(4)
      data xlimit/-7.995,-2.665,2.665,7.995/
      parameter (xmargin=0.5)
c     parameter (xmargin=1.)
      real xlo,xhi
      
        
      nladder=0
      do i=2,4
         xlo=xlimit(i-1)+xmargin
         xhi=xlimit(i)-xmargin
         if(
     +        x.lt.xhi.and.
     +        x.ge.xlo)then
            nladder=i-1
            goto 10
         endif
      enddo
 10   continue
      p1_ladder=nladder
      
      return
      end
      
      function p1_sensor(y)
      
      real ylimit(3)
      data ylimit/-7.,0.,7./
      parameter (ymargin=0.5)
c     parameter (ymargin=2.)
      real ylo,yhi
      
      nsensor=0
      do i=2,3
         ylo=ylimit(i-1)+ymargin
         yhi=ylimit(i)-ymargin
         if(
     +        y.lt.yhi.and.
     +        y.ge.ylo)then
            nsensor=i-1
            goto 10
         endif
      enddo
 10   continue
      p1_sensor=nsensor
      
      return
      end
      
1
2	*************************************************************************
3	* Program template.f
4	*
5	* - template to access LEVEL2 tracker data
6	* and use the track parameters to evaluate the
7	* the particle trajectory in the apparatus
8	*
9	*************************************************************************
10
11	program template
12
13
14	include 'trk_level2.f'
15
16	c----- HBOOK
17	INTEGER HMEM
18	parameter (NWPAWC=8500000)
19	common/PAWC/HMEM(NWPAWC)
20
21	parameter (ntp_level2=22)
22	c------------------------------------------------------------------------
23	c
24	c local variables
25	c
26	c------------------------------------------------------------------------
27	character*74 data_file !data file name
28	character*74 data_dir !data directory
29	character*74 data_file_level2
30
31	parameter (lun_data_level2=72) !data file id number
32
33
34	logical general,single,column,trackok
35	integer l1,s1,l6,s6
36
37
38	COMMON/QUEST/IQUEST(100)
39
40	c =======================================
41	c variables for tracking routine
42	c =======================================
43	parameter(NPOINT_MAX=100)
44	DOUBLE PRECISION ZIN(NPOINT_MAX)
45	DOUBLE PRECISION XOUT(NPOINT_MAX),YOUT(NPOINT_MAX)
46	DOUBLE PRECISION AL_P(5)
47	c =======================================
48
49	c define TOF Z-coordinates
50	parameter (NPTOF=3)
51	REAL ZTOF(NPTOF)
52	DATA ZTOF/55.,25.,-23/ !NB!!! from TOP to BOTTOM
53
54	c------------------------------------------------------------------------
55	c
56	c HBOOK initialization
57	c
58	c------------------------------------------------------------------------
59
60	call HLIMIT(NWPAWC)
61	c------------------------------------------------------------------------
62	c
63	c reads input informations
64	c
65	c------------------------------------------------------------------------
66	111 format(a)
67	print*,'Data dir:'
68	read(*,111)data_dir
69	print*,data_dir
70	print*,'Data file'
71	print*,'(without estention: output_YYMMDD_XXX )'
72	read(,)data_file
73	print*,data_file
74	minevent=1
75	print*,'Maximum number of events to be analysed:'
76	read(,) ntotev
77	print*,ntotev
78	print*,'-----------------------------------------'
79	print*,''
80	c------------------------------------------------------------------------
81	c
82	c opens level2 file
83	c
84	c------------------------------------------------------------------------
85	504 format(a,a,'_level2.rz')
86	write(data_file_level2,504)
87	$ data_dir(1:LNBLNK(data_dir))
88	$ ,data_file(1:LNBLNK(data_file))
89	print*,'__________ opening LEVEL2 rz file __________'
90	print*,data_file_level2
91	IQUEST(10)=65000
92	call HROPEN(lun_data_level2,
93	$ 'LEVEL2',data_file_level2,'QP',4096,istat) !opens rz
94	if(istat.ne.0) goto 19
95	print*,'reading LEVEL2 n-tuple...'
96	call HRIN(ntp_level2,9999,0)
97
98	* -----------------------------------------------
99	CALL HBNAME(ntp_level2,' ',0,'$CLEAR')
100	CALL HBNAME(ntp_level2,'GENERAL',GOOD2,'$SET')
101	CALL HBNAME(ntp_level2,'CPU',pkt_type,'$SET')
102	CALL HBNAME(ntp_level2,'TRACKS',ntrk,'$SET')
103	CALL HBNAME(ntp_level2,'SINGLETX',nclsx,'$SET')
104	CALL HBNAME(ntp_level2,'SINGLETY',nclsy,'$SET')
105	* -----------------------------------------------
106
107	call HPRNTU(ntp_level2)
108	call HNOENT(ntp_level2,iemax0)
109	print*,'ok'
110	print*,' '
111
112
113	c------------------------------------------------------------------------
114	c
115	c =======================
116	c read magnetic field map
117	c =======================
118	c
119	c------------------------------------------------------------------------
120	print*,'- read magnetic field map'
121	print*,' '
122	call read_B
123	print*,' '
124
125	call HCDIR('//LEVEL2',' ')
126
127	c------------------------------------------------------------------------
128	c ////////////////////
129	c
130	c start loop on events
131	c
132	c \\\\\\\\\\\\\\\\\\\\
133	c------------------------------------------------------------------------
134	maxevent=minevent+ntotev
135	do iev = minevent,MIN(iemax0,maxevent) !loop on events
136
137	* ----------------------------------------------
138	call HGNT(ntp_level2,iev,ierr) !reads an event
139	if(ierr.ne.0) goto 21
140	* ----------------------------------------------
141
142
143	*=======> INSTERT HERE YOUR CODE
144
145
146	* initializations
147	do itof=1,NPTOF
148	XOUT(itof) = 0
149	YOUT(itof) = 0
150	enddo
151
152	* ########################################
153	* GENERAL CUTS
154	general = .true.
155	if (
156	+ .not.GOOD2.or.
157	+ ntrk.eq.0.or.
158	+ .false.) general = .false.
159	if(.not.general)goto 100
160
161	* ########################################
162	* SINGLE TRACK
163	single = .false.
164	itrk = 0
165	if(ntrk.eq.1)then
166	single = .true.
167	itrk = 1
168	elseif(ntrk.eq.2..and.image(1).ne.0)then
169	single = .true.
170	* -----------------
171	* CHOSE THE IMAGE!!
172	* -----------------
173	itrk = 1
174	if(CHI2(image(1)).lt.CHI2(1))itrk = 2
175	* -----------------
176	endif
177	if(.not.single)goto 100
178
179	* ########################################
180	* GEOMETRY
181
182	l1 = int( p1_ladder(XV(1,itrk)))
183	l6 = int( p1_ladder(XV(6,itrk)))
184	s1 = int( p1_sensor(YV(1,itrk)))
185	s6 = int( p1_sensor(YV(6,itrk)))
186	column=.false.
187	if(
188	+ l1.eq.l6.and.
189	+ l1.ne.0.and.
190	+ s1.eq.s6.and.
191	+ s1.ne.0.and.
192	+ .true.)column=.true.
193	c$$$ if(.not.column)goto 100
194
195
196	* ########################################
197	* TRACK SELECTION
198	trackok = .false.
199	npx = 0
200	npy = 0
201	do i=1,6
202	npx = npx + XGOOD(i,itrk)
203	npy = npy + YGOOD(i,itrk)
204	enddo
205	* POINTS ----------------------------------
206	if(
207	+ npy.ge.4.and.
208	+ npx.ge.5.and.
209	c + npy.ge.6.and.
210	c + npx.ge.6.and.
211	+ XGOOD(1,itrk).eq.1.and.
212	+ XGOOD(6,itrk).eq.1.and.
213	+ CHI2(itrk).gt.0.and.
214	+ .true.) trackok = .true.
215
216	rig=abs(1./AL(5,itrk))
217
218	* CHI^2 ------------------------------------
219	chicut = 10. !
220	chicut = chicut *(
221	$ 3.7032exp(-0.41911E-01rig)
222	$ +0.85355
223	$ +10.905exp(-0.61893rig) )
224	if(
225	+ CHI2(itrk).gt.chicut.and.
226	+ .true.)trackok = .false.
227
228	* CLUSTERS OUT OF THE TRACK --------------------------
229	ncls=nclsx+nclsy
230	if(ncls.gt.0)trackok = .false.
231
232	* RIGIDITY ----------------------------------
233	* *******************************************
234	if(
235	+ rig.lt.5..and.
236	+ .true.)trackok = .false.
237	* *******************************************
238
239	if(.not.trackok)goto 100
240
241	*
242
243
244	print*,'----------------------------------'
245	print*,'Event ',iev,' selected'
246	* assigned input parameters for track routine
247	* 1) Z-coordinates where the trajectory is evaluated
248	do itof=1,NPTOF
249	ZIN(itof) = ZTOF(itof)
250	enddo
251	* 2) track status vector
252	do i=1,5
253	AL_P(i) = AL(i,itrk)
254	enddo
255	* -------- * tracking routine * --------
256	call track(NPTOF,ZIN,XOUT,YOUT,AL_P,IFAIL)
257	* ------------------------------------------
258	do itof=1,NPTOF
259	print*,'S',itof,' --- (z,x,y) = '
260	$ ,ZIN(itof),XOUT(itof),YOUT(itof)
261	enddo
262
263
264
265
266
267	100 continue
268	enddo !end loop on events
269	GOTO 9000 !got to end
270
271	c------------------------------------------------------------------------
272	c
273	c data file opening error
274	c
275	c------------------------------------------------------------------------
276	19 continue
277
278	print*,' '
279	print*,'ERROR OPENING DATA FILE: ',data_file
280	print*,' '
281	print*,' '
282
283	goto 9000 !the end
284
285	c------------------------------------------------------------------------
286	c
287	c level2 ntuple event reading error
288	c
289	c------------------------------------------------------------------------
290
291	21 continue
292
293	print*,' '
294	print*,'ERROR WHILE READING LEVEL2 NTUPLE, AT EVENT
295	$ : ',iev
296	print*,' '
297	print*,' '
298
299	goto 9000 !the end
300
301	c------------------------------------------------------------------------
302	c
303	c closes files and exits
304	c
305	c------------------------------------------------------------------------
306
307	9000 continue
308
309	call HCDIR('//LEVEL2',' ')
310	call HREND('level2')
311	close(lun_data_level2)
312
313	return
314	end
315
316
317	c include 'access_level2.f'
318	c include 'track.f'
319
320	function p1_ladder(x)
321
322	real xlimit(4)
323	data xlimit/-7.995,-2.665,2.665,7.995/
324	parameter (xmargin=0.5)
325	c parameter (xmargin=1.)
326	real xlo,xhi
327
328
329
330	nladder=0
331	do i=2,4
332	xlo=xlimit(i-1)+xmargin
333	xhi=xlimit(i)-xmargin
334	if(
335	+ x.lt.xhi.and.
336	+ x.ge.xlo)then
337	nladder=i-1
338	goto 10
339	endif
340	enddo
341	10 continue
342	p1_ladder=nladder
343
344	return
345	end
346
347	function p1_sensor(y)
348
349	real ylimit(3)
350	data ylimit/-7.,0.,7./
351	parameter (ymargin=0.5)
352	c parameter (ymargin=2.)
353	real ylo,yhi
354
355	nsensor=0
356	do i=2,3
357	ylo=ylimit(i-1)+ymargin
358	yhi=ylimit(i)-ymargin
359	if(
360	+ y.lt.yhi.and.
361	+ y.ge.ylo)then
362	nsensor=i-1
363	goto 10
364	endif
365	enddo
366	10 continue
367	p1_sensor=nsensor
368
369	return
370	end
371