/[PAMELA software]/DarthVader/TrackerLevel2/src/F77/readB.f
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Revision 1.5 - (hide annotations) (download)
Thu Nov 2 15:31:06 2006 UTC (18 years, 1 month ago) by pam-fi
Branch: MAIN
Changes since 1.4: +2 -2 lines
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1 mocchiut 1.1 *************************************************************************
2     *
3     * Subroutine read_B.f
4     *
5     * it calls the subroutines which read the magnetic field maps for
6     * the PAMELA spectrometer
7     *
8     * needs:
9     * - ./read_B_inner.f inner map reading subroutine
10     * - ./read_B_outer.f outer map reading subroutine
11     *
12     * to be called before ./inter_B.f (interpolation subroutine)
13     *
14     *************************************************************************
15    
16     subroutine readB(cpath)
17     include 'common_c2f.f'
18 pam-fi 1.2
19     LOGICAL DEBUG
20     LOGICAL VERBOSE
21     LOGICAL WARNING
22     COMMON/DBG/DEBUG,VERBOSE,WARNING
23     SAVE/DBG/
24    
25 pam-fi 1.4 character*256 cpath
26     character*256 ppath
27 mocchiut 1.1
28    
29     b_error=0
30 pam-fi 1.3 ppath=''
31 mocchiut 1.1
32 pam-fi 1.4 la=256
33     do i=1,256
34 mocchiut 1.1 if(cpath(i:i).eq.'/')la=i
35     enddo
36     ppath=cpath(1:la)
37    
38     b_path = ppath
39     b_pathlen = la
40    
41 pam-fi 1.2 if(DEBUG)print*,'Field loaded: ',b_loaded
42 mocchiut 1.1 if(b_loaded.eq.0)then
43    
44     c call the subroutine which reads the maps of the measurements taken
45     c inside the magnetic cavity
46     call readBinner(ppath)
47     if(b_error.eq.1)return
48    
49     c call the subroutine which reads the maps of the measurements taken
50     c outside the magnetic cavity
51     call readBouter(ppath)
52     if(b_error.eq.1)return
53    
54     b_loaded = 1
55     endif
56    
57     return
58     end
59    
60     ************************************************************
61    
62    
63     *************************************************************************
64     *
65     * Subroutine readBinner
66     *
67     * it reads from rz files the two magnetic field maps taken inside the
68     * spectrometer cavity and fills the variables in common_B_inner.f
69     *
70     * needs:
71     * - common_B.f common file for the inner magnetic field map
72     * - .rz map files in ./ containing coordinates of measured points, Bx, By
73     * and Bz components + errors
74     *
75     * output variables: (see common_B_inner.f)
76     * - px#(nx,3) with #=1,2 for the 2 maps
77     * - py#(ny,3)
78     * - pz#(nz,3)
79     * - b#(nx,ny,nz,3)
80     *
81     *************************************************************************
82    
83     subroutine readBinner(path)
84    
85     c implicit double precision (a-h,o-z)
86     include 'common_B.f'
87     include 'common_c2f.f'
88 pam-fi 1.2
89     LOGICAL DEBUG
90     LOGICAL VERBOSE
91     LOGICAL WARNING
92     COMMON/DBG/DEBUG,VERBOSE,WARNING
93     SAVE/DBG/
94    
95 pam-fi 1.5 character*256 path
96 mocchiut 1.1
97     C
98     REAL hmemor(10000000)
99     integer Iquest(100)
100     COMMON /pawc/hmemor
101     save /pawc/
102     C
103     Common /QUEST/ Iquest
104     save /quest/
105    
106    
107     c------------------------------------------------------------------------
108     c
109     c local variables
110     c
111     c------------------------------------------------------------------------
112    
113     character*64 Bmap_file !magnetic field file name
114     parameter (lun_Bmap_file=66) !magnetic field map file id number
115    
116     parameter (ntpl_Bmap=20) !ntuple identifier
117    
118     REAL PFX(3),FX,DFX, !Bx field component coordinates in m, value and error in T
119     $ PFY(3),FY,DFY
120     $ ,PFZ(3),FZ,DFZ
121     INTEGER INDEX(3) !point index
122    
123     COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ
124    
125    
126     CALL HLIMIT(10000000)
127     C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
128     C largest RZ file: IQUEST(10) records x LREC words x 4 byte
129     C with the following settings: 65000 x 4096 x 4 = 1G
130     C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
131    
132     c permette di ottenere ntuple funzionanti nonostante
133     c il messaggio dei 64K di RZOUT
134     Iquest(10) = 512000
135     c------------------------------------------------------------------------
136     c
137     c *** FIRST MAP ***
138     c
139     c------------------------------------------------------------------------
140    
141     c------------------------------------------------------------------------
142     c
143     c initialization and map file opening
144     c
145     c------------------------------------------------------------------------
146    
147     c print*,' '
148     c print*,' '
149    
150     Bmap_file='measure_n3_290302.rz'
151    
152     c opens magnetic field map first file
153 pam-fi 1.2 c if(b_debug.eq.1)print *
154     if(VERBOSE)print *
155 mocchiut 1.1 $ ,path(1:LNBLNK(path))//Bmap_file
156     call HROPEN
157     $ (lun_Bmap_file,'Bmap'
158     $ ,path(1:LNBLNK(path))//Bmap_file
159     $ ,'P',1024,istat)
160     if(istat.ne.0) goto 21
161    
162    
163     call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
164    
165     c call HPRNTU(ntpl_Bmap)
166     call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
167     call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
168     call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
169     call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
170     call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
171    
172    
173     c------------------------------------------------------------------------
174     c
175     c reads events and fills variables
176     c
177     c------------------------------------------------------------------------
178    
179     call HNOENT(ntpl_Bmap,iemax) !number of events
180    
181     c initializes measurement grid edges
182     do ic=1,3
183     px1max(ic)=0.
184     px1min(ic)=0.
185     py1max(ic)=0.
186     py1min(ic)=0.
187     pz1max(ic)=0.
188     pz1min(ic)=0.
189     enddo
190    
191    
192     do iev=1,iemax !event loop
193    
194     call HGNT(ntpl_Bmap,iev,ierr) !reads event
195     if(ierr.ne.0) goto 22
196    
197     c the output consists of matrices for coordinates, B components values
198     c and errors:
199     c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
200     c in which By (=2) component has been measured
201     c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
202     c indexes = 3,23,4 along X, Y and Z
203    
204     c Bx component
205     px1(index(1),1) = pfx(1)
206     if(px1(index(1),1).lt.px1min(1)) px1min(1)=px1(index(1),1)
207     if(px1(index(1),1).gt.px1max(1)) px1max(1)=px1(index(1),1)
208     py1(index(2),1) = pfx(2)
209     if(py1(index(2),1).lt.py1min(1)) py1min(1)=py1(index(2),1)
210     if(py1(index(2),1).gt.py1max(1)) py1max(1)=py1(index(2),1)
211     pz1(index(3),1) = pfx(3)
212     if(pz1(index(3),1).lt.pz1min(1)) pz1min(1)=pz1(index(3),1)
213     if(pz1(index(3),1).gt.pz1max(1)) pz1max(1)=pz1(index(3),1)
214    
215     b1(index(1),index(2),index(3),1) = fx
216    
217    
218     c By component
219     px1(index(1),2) = pfy(1)
220     if(px1(index(1),2).lt.px1min(2)) px1min(2)=px1(index(1),2)
221     if(px1(index(1),2).gt.px1max(2)) px1max(2)=px1(index(1),2)
222     py1(index(2),2) = pfy(2)
223     if(py1(index(2),2).lt.py1min(2)) py1min(2)=py1(index(2),2)
224     if(py1(index(2),2).gt.py1max(2)) py1max(2)=py1(index(2),2)
225     pz1(index(3),2) = pfy(3)
226     if(pz1(index(3),2).lt.pz1min(2)) pz1min(2)=pz1(index(3),2)
227     if(pz1(index(3),2).gt.pz1max(2)) pz1max(2)=pz1(index(3),2)
228    
229     b1(index(1),index(2),index(3),2) = fy
230    
231    
232     c Bz component
233     px1(index(1),3) = pfz(1)
234     if(px1(index(1),3).lt.px1min(3)) px1min(3)=px1(index(1),3)
235     if(px1(index(1),3).gt.px1max(3)) px1max(3)=px1(index(1),3)
236     py1(index(2),3) = pfz(2)
237     if(py1(index(2),3).lt.py1min(3)) py1min(3)=py1(index(2),3)
238     if(py1(index(2),3).gt.py1max(3)) py1max(3)=py1(index(2),3)
239     pz1(index(3),3) = pfz(3)
240     if(pz1(index(3),3).lt.pz1min(3)) pz1min(3)=pz1(index(3),3)
241     if(pz1(index(3),3).gt.pz1max(3)) pz1max(3)=pz1(index(3),3)
242    
243     b1(index(1),index(2),index(3),3) = fz
244    
245     enddo
246    
247     c------------------------------------------------------------------------
248     c
249     c closes files
250     c
251     c------------------------------------------------------------------------
252    
253     call HREND('Bmap')
254     close(lun_Bmap_file)
255     c$$$ cmd2='rm -f '
256     c$$$ $ //Bmap_file(1:LNBLNK(Bmap_file))
257     c$$$ call system(cmd2)
258     c$$$
259    
260    
261     c------------------------------------------------------------------------
262     c
263     c *** SECOND MAP ***
264     c
265     c------------------------------------------------------------------------
266    
267     c------------------------------------------------------------------------
268     c
269     c initialization and map file opening
270     c
271     c------------------------------------------------------------------------
272    
273     c print*,' '
274     c print*,' '
275    
276     Bmap_file='measure_n4_110402_corrected.rz'
277     c opens magnetic field map first file
278 pam-fi 1.2 c if(b_debug.eq.1)print * !,'Opening file: '
279     if(VERBOSE)print * !,'Opening file: '
280 mocchiut 1.1 $ ,path(1:LNBLNK(path))//Bmap_file
281     call HROPEN
282     $ (lun_Bmap_file,'Bmap'
283     $ ,path(1:LNBLNK(path))//Bmap_file
284     $ ,'P',1024,istat)
285     if(istat.ne.0) goto 21
286    
287    
288     call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
289    
290     c call HPRNTU(ntpl_Bmap)
291     call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
292     call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
293     call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
294     call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
295     call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
296    
297    
298     c------------------------------------------------------------------------
299     c
300     c reads events and fills variables
301     c
302     c------------------------------------------------------------------------
303    
304     call HNOENT(ntpl_Bmap,iemax) !number of events
305    
306     c print*,'iemax ',iemax
307    
308     do ic=1,3 !grid edges
309     px2max(ic)=0.
310     px2min(ic)=0.
311     py2max(ic)=0.
312     py2min(ic)=0.
313     pz2max(ic)=0.
314     pz2min(ic)=0.
315     enddo
316    
317    
318     do iev=1,iemax !event loop
319    
320     call HGNT(ntpl_Bmap,iev,ierr) !reads event
321     if(ierr.ne.0) goto 22
322    
323     c the output consists of matrices for coordinates, B components values
324     c and errors:
325     c e.g. px(4,2) = X coordinate of the point with index = 4 along X,
326     c in which By (=2) component has been measured
327     c e.g. b(3,23,4,1) = Bx (=1) component value, measured in the point with
328     c indexes = 3,23,4 along X, Y and Z
329    
330     c Bx component
331     px2(index(1),1) = pfx(1)
332     if(px2(index(1),1).lt.px2min(1)) px2min(1)=px2(index(1),1)
333     if(px2(index(1),1).gt.px2max(1)) px2max(1)=px2(index(1),1)
334     py2(index(2),1) = pfx(2)
335     if(py2(index(2),1).lt.py2min(1)) py2min(1)=py2(index(2),1)
336     if(py2(index(2),1).gt.py2max(1)) py2max(1)=py2(index(2),1)
337     pz2(index(3),1) = pfx(3)
338     if(pz2(index(3),1).lt.pz2min(1)) pz2min(1)=pz2(index(3),1)
339     if(pz2(index(3),1).gt.pz2max(1)) pz2max(1)=pz2(index(3),1)
340    
341     b2(index(1),index(2),index(3),1) = fx
342    
343    
344     c By component
345     px2(index(1),2) = pfy(1)
346     if(px2(index(1),2).lt.px2min(2)) px2min(2)=px2(index(1),2)
347     if(px2(index(1),2).gt.px2max(2)) px2max(2)=px2(index(1),2)
348     py2(index(2),2) = pfy(2)
349     if(py2(index(2),2).lt.py2min(2)) py2min(2)=py2(index(2),2)
350     if(py2(index(2),2).gt.py2max(2)) py2max(2)=py2(index(2),2)
351     pz2(index(3),2) = pfy(3)
352     if(pz2(index(3),2).lt.pz2min(2)) pz2min(2)=pz2(index(3),2)
353     if(pz2(index(3),2).gt.pz2max(2)) pz2max(2)=pz2(index(3),2)
354    
355     b2(index(1),index(2),index(3),2) = fy
356    
357    
358     c Bz component
359     px2(index(1),3) = pfz(1)
360     if(px2(index(1),3).lt.px2min(3)) px2min(3)=px2(index(1),3)
361     if(px2(index(1),3).gt.px2max(3)) px2max(3)=px2(index(1),3)
362     py2(index(2),3) = pfz(2)
363     if(py2(index(2),3).lt.py2min(3)) py2min(3)=py2(index(2),3)
364     if(py2(index(2),3).gt.py2max(3)) py2max(3)=py2(index(2),3)
365     pz2(index(3),3) = pfz(3)
366     if(pz2(index(3),3).lt.pz2min(3)) pz2min(3)=pz2(index(3),3)
367     if(pz2(index(3),3).gt.pz2max(3)) pz2max(3)=pz2(index(3),3)
368    
369     b2(index(1),index(2),index(3),3) = fz
370    
371     enddo
372    
373     c------------------------------------------------------------------------
374     c
375     c closes files
376     c
377     c------------------------------------------------------------------------
378    
379     call HREND('Bmap')
380     close(lun_Bmap_file)
381    
382     c------------------------------------------------------------------------
383     c
384     c no error exit
385     c
386     c------------------------------------------------------------------------
387    
388     goto 9000 !happy ending
389    
390     c------------------------------------------------------------------------
391     c
392     c magnetic field map file opening error
393     c
394     c------------------------------------------------------------------------
395    
396     21 continue
397    
398     b_error = 1
399 pam-fi 1.2 c if(b_debug.eq.1)
400     if(DEBUG)
401 mocchiut 1.1 $ print*
402     $ ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
403     $ ,Bmap_file
404    
405     goto 9000 !the end
406    
407    
408     c------------------------------------------------------------------------
409     c
410     c ntuple event reading error
411     c
412     c------------------------------------------------------------------------
413    
414     22 continue
415    
416     b_error = 1
417 pam-fi 1.2 c if(b_debug.eq.1)
418     if(DEBUG)
419 mocchiut 1.1 $ print*,'read_B_inner: ERROR WHILE READING NTUPLE, at entry
420     $ : ',iev
421    
422     goto 9000 !the end
423    
424    
425     c------------------------------------------------------------------------
426     c
427     c exit
428     c
429     c------------------------------------------------------------------------
430    
431     9000 continue
432    
433     return
434     end
435     *************************************************************************
436     *
437     * Subroutine readBouter
438     *
439     * it reads from rz files the two magnetic field maps taken inside the
440     * spectrometer cavity and fills the variables in common_B_inner.f
441     *
442     * needs:
443     * - common_B_outer.f common file for the outer magnetic field map
444     * - .rz map files in ./ containing coordinates of measured points, Bx, By
445     * and Bz components + errors
446     *
447     * output variables: (see common_B_outer.f)
448     * - pxo(nx,3)
449     * - pyo(ny,3)
450     * - pzo(nz,3)
451     * - bo(nx,ny,nz,3)
452     *
453     *************************************************************************
454    
455     subroutine readBouter(path)
456    
457     c implicit double precision (a-h,o-z)
458     include 'common_B.f'
459     include 'common_c2f.f'
460     C
461 pam-fi 1.2 LOGICAL DEBUG
462     LOGICAL VERBOSE
463     LOGICAL WARNING
464     COMMON/DBG/DEBUG,VERBOSE,WARNING
465     SAVE/DBG/
466    
467 pam-fi 1.5 character*256 path
468 mocchiut 1.1
469     REAL hmemor(10000000)
470     integer Iquest(100)
471     COMMON /pawc/hmemor
472     save /pawc/
473     C
474     Common /QUEST/ Iquest
475     save /quest/
476    
477    
478    
479     c------------------------------------------------------------------------
480     c
481     c local variables
482     c
483     c------------------------------------------------------------------------
484    
485     character*64 Bmap_file !magnetic field file name
486     parameter (lun_Bmap_file=66) !magnetic field map file id number
487    
488     parameter (ntpl_Bmap=20) !ntuple identifier
489    
490     REAL PFX(3),FX,DFX, !Bx field component coordinates in m, value and error in T
491     $ PFY(3),FY,DFY
492     $ ,PFZ(3),FZ,DFZ
493     INTEGER INDEX(3) !point index
494    
495     COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ
496    
497    
498     c print*,'Calling HLIMIT'
499     CALL HLIMIT(10000000)
500     C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
501     C largest RZ file: IQUEST(10) records x LREC words x 4 byte
502     C with the following settings: 65000 x 4096 x 4 = 1G
503     C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
504    
505     c permette di ottenere ntuple funzionanti nonostante
506     c il messaggio dei 64K di RZOUT
507     Iquest(10) = 512000
508     c------------------------------------------------------------------------
509     c
510     c *** FIRST MAP ***
511     c
512     c------------------------------------------------------------------------
513    
514     c------------------------------------------------------------------------
515     c
516     c initialization and map file opening
517     c
518     c------------------------------------------------------------------------
519    
520     c print*,' '
521     c print*,' '
522    
523     Bmap_file='External_top_map_n4_150402.rz'
524    
525     c opens magnetic field map first file
526 pam-fi 1.2 c if(b_debug.eq.1)print *
527     if(VERBOSE)print *
528 mocchiut 1.1 $ ,path(1:LNBLNK(path))//Bmap_file
529     call HROPEN
530     $ (lun_Bmap_file,'Bmap'
531     $ ,path(1:LNBLNK(path))//Bmap_file
532     $ ,'P',1024,istat)
533     if(istat.ne.0) goto 21
534    
535    
536     call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
537    
538     c call HPRNTU(ntpl_Bmap)
539     call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
540     call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
541     call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
542     call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
543     call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
544    
545    
546     c------------------------------------------------------------------------
547     c
548     c reads events and fills variables
549     c
550     c------------------------------------------------------------------------
551    
552     call HNOENT(ntpl_Bmap,iemax) !number of events
553    
554     c initializes measurement grid edges
555     do ic=1,3
556     poxmax(ic)=0.
557     poxmin(ic)=0.
558     poymax(ic)=0.
559     poymin(ic)=0.
560     pozmax(ic)=0.
561     pozmin(ic)=0.
562     enddo
563    
564    
565     do iev=1,iemax !event loop
566    
567     call HGNT(ntpl_Bmap,iev,ierr) !reads event
568     if(ierr.ne.0) goto 22
569    
570     c the output consists of matrices for coordinates, B components values
571     c and errors:
572     c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
573     c in which By (=2) component has been measured
574     c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
575     c indexes = 3,23,4 along X, Y and Z
576    
577     c Bx component
578     pox(index(1),1) = pfx(1)
579     if(pox(index(1),1).lt.poxmin(1)) poxmin(1)=pox(index(1),1)
580     if(pox(index(1),1).gt.poxmax(1)) poxmax(1)=pox(index(1),1)
581     poy(index(2),1) = pfx(2)
582     if(poy(index(2),1).lt.poymin(1)) poymin(1)=poy(index(2),1)
583     if(poy(index(2),1).gt.poymax(1)) poymax(1)=poy(index(2),1)
584     poz(index(3),1) = pfx(3)
585     if(poz(index(3),1).lt.pozmin(1)) pozmin(1)=poz(index(3),1)
586     if(poz(index(3),1).gt.pozmax(1)) pozmax(1)=poz(index(3),1)
587    
588     bo(index(1),index(2),index(3),1) = fx
589    
590    
591     c By component
592     pox(index(1),2) = pfy(1)
593     if(pox(index(1),2).lt.poxmin(2)) poxmin(2)=pox(index(1),2)
594     if(pox(index(1),2).gt.poxmax(2)) poxmax(2)=pox(index(1),2)
595     poy(index(2),2) = pfy(2)
596     if(poy(index(2),2).lt.poymin(2)) poymin(2)=poy(index(2),2)
597     if(poy(index(2),2).gt.poymax(2)) poymax(2)=poy(index(2),2)
598     poz(index(3),2) = pfy(3)
599     if(poz(index(3),2).lt.pozmin(2)) pozmin(2)=poz(index(3),2)
600     if(poz(index(3),2).gt.pozmax(2)) pozmax(2)=poz(index(3),2)
601    
602     bo(index(1),index(2),index(3),2) = fy
603    
604    
605     c Bz component
606     pox(index(1),3) = pfz(1)
607     if(pox(index(1),3).lt.poxmin(3)) poxmin(3)=pox(index(1),3)
608     if(pox(index(1),3).gt.poxmax(3)) poxmax(3)=pox(index(1),3)
609     poy(index(2),3) = pfz(2)
610     if(poy(index(2),3).lt.poymin(3)) poymin(3)=poy(index(2),3)
611     if(poy(index(2),3).gt.poymax(3)) poymax(3)=poy(index(2),3)
612     poz(index(3),3) = pfz(3)
613     if(poz(index(3),3).lt.pozmin(3)) pozmin(3)=poz(index(3),3)
614     if(poz(index(3),3).gt.pozmax(3)) pozmax(3)=poz(index(3),3)
615    
616     bo(index(1),index(2),index(3),3) = fz
617    
618     enddo
619    
620    
621     c------------------------------------------------------------------------
622     c
623     c closes files
624     c
625     c------------------------------------------------------------------------
626    
627     call HREND('Bmap')
628     close(lun_Bmap_file)
629    
630    
631     c------------------------------------------------------------------------
632     c
633     c no error exit
634     c
635     c------------------------------------------------------------------------
636    
637     goto 9000 !happy ending
638    
639     c------------------------------------------------------------------------
640     c
641     c magnetic field map file opening error
642     c
643     c------------------------------------------------------------------------
644    
645     21 continue
646    
647     b_error = 1
648 pam-fi 1.2 c if(b_debug.eq.1)
649     if(DEBUG)
650 mocchiut 1.1 $ print*
651     $ ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
652     $ ,Bmap_file
653    
654     goto 9000 !the end
655    
656    
657     c------------------------------------------------------------------------
658     c
659     c ntuple event reading error
660     c
661     c------------------------------------------------------------------------
662    
663     22 continue
664    
665     b_error = 1
666 pam-fi 1.2 c if(b_debug.eq.1)
667     if(DEBUG)
668 mocchiut 1.1 $ print*
669     $ ,'read_B_inner: ERROR WHILE READING NTUPLE, at event
670     $ : ',iev
671    
672     goto 9000 !the end
673    
674    
675     c------------------------------------------------------------------------
676     c
677     c exit
678     c
679     c------------------------------------------------------------------------
680    
681     9000 continue
682    
683     return
684     end
685    

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