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Revision 3.2 - (show annotations) (download)
Thu Dec 22 16:26:02 2005 UTC (19 years, 10 months ago) by bottai
Branch: MAIN
CVS Tags: v4r4, v4r5, v4r6, v4r7, v4r8, v4r9, v4r14, v4r12, v4r13, v4r10, v4r11, HEAD
Changes since 3.1: +126 -5 lines 
 read the magn. field map for external field
1 SUBROUTINE GPRBI
2 *************************************************************************
3 *
4 * Subroutine gprbi.f (DERIVED FROM read_B_inner routine from
5 * tracker software analysis)
6 * CALLED BY gpdat.F
7 *
8 *
9 * it reads from rz files the two magnetic field maps taken inside the
10 * spectrometer cavity and fills the variables in common_B_inner.f
11 *
12 * needs:
13 * - .rz map files in containing coordinates of measured points, Bx, By
14 * and Bz components + errors
15 *
16 * output variables: (see ....)
17 * - px#(nx,3) with #=1,2 for the 2 maps
18 * - py#(ny,3)
19 * - pz#(nz,3)
20 * - b#(nx,ny,nz,3)
21 *
22 *************************************************************************
23 IMPLICIT DOUBLE PRECISION (A-H,O-Z)
24 #include "gpfield.inc"
25
26
27
28 c------------------------------------------------------------------------
29 c
30 c local variables
31 c
32 c------------------------------------------------------------------------
33
34 parameter (ntpl_Bmap=20) !ntuple identifier
35
36 REAL PFX(3),FFX,DFX, !Bx field component coordinates in m, value and error in T
37 $ PFY(3),FFY,DFY
38 $ ,PFZ(3),FFZ,DFZ
39 INTEGER INDEX(3) !point index
40
41 COMMON /PAWCR4/ INDEX,PFX,FFX,DFX,PFY,FFY,DFY,PFZ,FFZ,DFZ
42
43
44 c------------------------------------------------------------------------
45 c
46 c *** FIRST MAP ***
47 c
48 c------------------------------------------------------------------------
49
50 c------------------------------------------------------------------------
51 c
52 c initialization and map file opening
53 c
54 c------------------------------------------------------------------------
55
56 CALL HCDIR('//FIELD1',' ')
57 call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
58
59
60 call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
61 call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
62 call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
63 call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
64 call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
65
66
67 c------------------------------------------------------------------------
68 c
69 c reads events and fills variables
70 c
71 c------------------------------------------------------------------------
72
73 call HNOENT(ntpl_Bmap,iemax) !number of events
74
75 c initializes measurement grid edges
76 do ic=1,3
77 px1max(ic)=0.
78 px1min(ic)=0.
79 py1max(ic)=0.
80 py1min(ic)=0.
81 pz1max(ic)=0.
82 pz1min(ic)=0.
83 enddo
84
85
86 do iev=1,iemax !event loop
87
88 call HGNT(ntpl_Bmap,iev,ierr) !reads event
89 if(ierr.ne.0) goto 22
90
91 c the output consists of matrices for coordinates, B components values
92 c and errors:
93 c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
94 c in which By (=2) component has been measured
95 c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
96 c indexes = 3,23,4 along X, Y and Z
97
98 c Bx component
99 px1(index(1),1) = DBLE(pfx(1))
100 if(px1(index(1),1).lt.px1min(1)) px1min(1)=px1(index(1),1)
101 if(px1(index(1),1).gt.px1max(1)) px1max(1)=px1(index(1),1)
102 py1(index(2),1) = DBLE(pfx(2))
103 if(py1(index(2),1).lt.py1min(1)) py1min(1)=py1(index(2),1)
104 if(py1(index(2),1).gt.py1max(1)) py1max(1)=py1(index(2),1)
105 pz1(index(3),1) = DBLE(pfx(3))
106 if(pz1(index(3),1).lt.pz1min(1)) pz1min(1)=pz1(index(3),1)
107 if(pz1(index(3),1).gt.pz1max(1)) pz1max(1)=pz1(index(3),1)
108
109 b1(index(1),index(2),index(3),1) = DBLE(ffx)
110
111
112 c By component
113 px1(index(1),2) = DBLE(pfy(1))
114 if(px1(index(1),2).lt.px1min(2)) px1min(2)=px1(index(1),2)
115 if(px1(index(1),2).gt.px1max(2)) px1max(2)=px1(index(1),2)
116 py1(index(2),2) = DBLE(pfy(2))
117 if(py1(index(2),2).lt.py1min(2)) py1min(2)=py1(index(2),2)
118 if(py1(index(2),2).gt.py1max(2)) py1max(2)=py1(index(2),2)
119 pz1(index(3),2) = DBLE(pfy(3))
120 if(pz1(index(3),2).lt.pz1min(2)) pz1min(2)=pz1(index(3),2)
121 if(pz1(index(3),2).gt.pz1max(2)) pz1max(2)=pz1(index(3),2)
122
123 b1(index(1),index(2),index(3),2) = DBLE(ffy)
124
125
126 c Bz component
127 px1(index(1),3) = DBLE(pfz(1))
128 if(px1(index(1),3).lt.px1min(3)) px1min(3)=px1(index(1),3)
129 if(px1(index(1),3).gt.px1max(3)) px1max(3)=px1(index(1),3)
130 py1(index(2),3) = DBLE(pfz(2))
131 if(py1(index(2),3).lt.py1min(3)) py1min(3)=py1(index(2),3)
132 if(py1(index(2),3).gt.py1max(3)) py1max(3)=py1(index(2),3)
133 pz1(index(3),3) = DBLE(pfz(3))
134 if(pz1(index(3),3).lt.pz1min(3)) pz1min(3)=pz1(index(3),3)
135 if(pz1(index(3),3).gt.pz1max(3)) pz1max(3)=pz1(index(3),3)
136
137 b1(index(1),index(2),index(3),3) = DBLE(ffz)
138
139 enddo
140
141
142 c------------------------------------------------------------------------
143 c
144 c closes files
145 c
146 c------------------------------------------------------------------------
147
148 call HREND('FIELD1')
149
150
151
152 c------------------------------------------------------------------------
153 c
154 c *** SECOND MAP ***
155 c
156 c------------------------------------------------------------------------
157
158
159 CALL HCDIR('//FIELD2',' ')
160 call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
161
162
163 call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
164 call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
165 call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
166 call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
167 call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
168
169
170 c------------------------------------------------------------------------
171 c
172 c reads events and fills variables
173 c
174 c------------------------------------------------------------------------
175
176 call HNOENT(ntpl_Bmap,iemax) !number of events
177
178 do ic=1,3 !grid edges
179 px2max(ic)=0.
180 px2min(ic)=0.
181 py2max(ic)=0.
182 py2min(ic)=0.
183 pz2max(ic)=0.
184 pz2min(ic)=0.
185 enddo
186
187
188 do iev=1,iemax !event loop
189
190 call HGNT(ntpl_Bmap,iev,ierr) !reads event
191 if(ierr.ne.0) goto 22
192
193 c the output consists of matrices for coordinates, B components values
194 c and errors:
195 c e.g. px(4,2) = X coordinate of the point with index = 4 along X,
196 c in which By (=2) component has been measured
197 c e.g. b(3,23,4,1) = Bx (=1) component value, measured in the point with
198 c indexes = 3,23,4 along X, Y and Z
199
200 c Bx component
201 px2(index(1),1) = DBLE(pfx(1))
202 if(px2(index(1),1).lt.px2min(1)) px2min(1)=px2(index(1),1)
203 if(px2(index(1),1).gt.px2max(1)) px2max(1)=px2(index(1),1)
204 py2(index(2),1) = DBLE(pfx(2))
205 if(py2(index(2),1).lt.py2min(1)) py2min(1)=py2(index(2),1)
206 if(py2(index(2),1).gt.py2max(1)) py2max(1)=py2(index(2),1)
207 pz2(index(3),1) = DBLE(pfx(3))
208 if(pz2(index(3),1).lt.pz2min(1)) pz2min(1)=pz2(index(3),1)
209 if(pz2(index(3),1).gt.pz2max(1)) pz2max(1)=pz2(index(3),1)
210
211 b2(index(1),index(2),index(3),1) = DBLE(ffx)
212
213
214 c By component
215 px2(index(1),2) = DBLE(pfy(1))
216 if(px2(index(1),2).lt.px2min(2)) px2min(2)=px2(index(1),2)
217 if(px2(index(1),2).gt.px2max(2)) px2max(2)=px2(index(1),2)
218 py2(index(2),2) = DBLE(pfy(2))
219 if(py2(index(2),2).lt.py2min(2)) py2min(2)=py2(index(2),2)
220 if(py2(index(2),2).gt.py2max(2)) py2max(2)=py2(index(2),2)
221 pz2(index(3),2) = DBLE(pfy(3))
222 if(pz2(index(3),2).lt.pz2min(2)) pz2min(2)=pz2(index(3),2)
223 if(pz2(index(3),2).gt.pz2max(2)) pz2max(2)=pz2(index(3),2)
224
225 b2(index(1),index(2),index(3),2) = DBLE(ffy)
226
227
228 c Bz component
229 px2(index(1),3) = DBLE(pfz(1))
230 if(px2(index(1),3).lt.px2min(3)) px2min(3)=px2(index(1),3)
231 if(px2(index(1),3).gt.px2max(3)) px2max(3)=px2(index(1),3)
232 py2(index(2),3) = DBLE(pfz(2))
233 if(py2(index(2),3).lt.py2min(3)) py2min(3)=py2(index(2),3)
234 if(py2(index(2),3).gt.py2max(3)) py2max(3)=py2(index(2),3)
235 pz2(index(3),3) = DBLE(pfz(3))
236 if(pz2(index(3),3).lt.pz2min(3)) pz2min(3)=pz2(index(3),3)
237 if(pz2(index(3),3).gt.pz2max(3)) pz2max(3)=pz2(index(3),3)
238
239 b2(index(1),index(2),index(3),3) = DBLE(ffz)
240
241 enddo
242
243 c------------------------------------------------------------------------
244 c
245 c closes files
246 c
247 c------------------------------------------------------------------------
248
249 call HREND('FIELD2')
250
251
252 c------------------------------------------------------------------------
253 c
254 c no error exit
255 c
256 c------------------------------------------------------------------------
257
258 print*,' '
259 print*,'INTERNAL MAGNETIC FIELD SUCCESSFULLY READ'
260 print*,' '
261 print*,' '
262
263
264 c------------------------------------------------------------------------
265 c
266 c *** EXTERNAL MAP ***
267 c
268 c------------------------------------------------------------------------
269
270 c------------------------------------------------------------------------
271 c
272 c initialization and map file opening
273 c
274 c------------------------------------------------------------------------
275
276
277 CALL HCDIR('//FIELD3',' ')
278
279 call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
280
281
282
283 call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
284 call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
285 call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
286 call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
287 call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
288
289
290 c------------------------------------------------------------------------
291 c
292 c reads events and fills variables
293 c
294 c------------------------------------------------------------------------
295
296 call HNOENT(ntpl_Bmap,iemax) !number of events
297
298 c initializes measurement grid edges
299 do ic=1,3
300 poxmax(ic)=0.
301 poxmin(ic)=0.
302 poymax(ic)=0.
303 poymin(ic)=0.
304 pozmax(ic)=0.
305 pozmin(ic)=0.
306 enddo
307
308
309 do iev=1,iemax !event loop
310
311 call HGNT(ntpl_Bmap,iev,ierr) !reads event
312 if(ierr.ne.0) goto 22
313
314 c the output consists of matrices for coordinates, B components values
315 c and errors:
316 c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
317 c in which By (=2) component has been measured
318 c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
319 c indexes = 3,23,4 along X, Y and Z
320
321 c Bx component
322 pox(index(1),1) = pfx(1)
323 if(pox(index(1),1).lt.poxmin(1)) poxmin(1)=pox(index(1),1)
324 if(pox(index(1),1).gt.poxmax(1)) poxmax(1)=pox(index(1),1)
325 poy(index(2),1) = pfx(2)
326 if(poy(index(2),1).lt.poymin(1)) poymin(1)=poy(index(2),1)
327 if(poy(index(2),1).gt.poymax(1)) poymax(1)=poy(index(2),1)
328 poz(index(3),1) = pfx(3)
329 if(poz(index(3),1).lt.pozmin(1)) pozmin(1)=poz(index(3),1)
330 if(poz(index(3),1).gt.pozmax(1)) pozmax(1)=poz(index(3),1)
331
332 bo(index(1),index(2),index(3),1) = DBLE(ffx)
333
334
335 c By component
336 pox(index(1),2) = pfy(1)
337 if(pox(index(1),2).lt.poxmin(2)) poxmin(2)=pox(index(1),2)
338 if(pox(index(1),2).gt.poxmax(2)) poxmax(2)=pox(index(1),2)
339 poy(index(2),2) = pfy(2)
340 if(poy(index(2),2).lt.poymin(2)) poymin(2)=poy(index(2),2)
341 if(poy(index(2),2).gt.poymax(2)) poymax(2)=poy(index(2),2)
342 poz(index(3),2) = pfy(3)
343 if(poz(index(3),2).lt.pozmin(2)) pozmin(2)=poz(index(3),2)
344 if(poz(index(3),2).gt.pozmax(2)) pozmax(2)=poz(index(3),2)
345
346 bo(index(1),index(2),index(3),2) = DBLE(ffy)
347
348
349 c Bz component
350 pox(index(1),3) = pfz(1)
351 if(pox(index(1),3).lt.poxmin(3)) poxmin(3)=pox(index(1),3)
352 if(pox(index(1),3).gt.poxmax(3)) poxmax(3)=pox(index(1),3)
353 poy(index(2),3) = pfz(2)
354 if(poy(index(2),3).lt.poymin(3)) poymin(3)=poy(index(2),3)
355 if(poy(index(2),3).gt.poymax(3)) poymax(3)=poy(index(2),3)
356 poz(index(3),3) = pfz(3)
357 if(poz(index(3),3).lt.pozmin(3)) pozmin(3)=poz(index(3),3)
358 if(poz(index(3),3).gt.pozmax(3)) pozmax(3)=poz(index(3),3)
359
360 bo(index(1),index(2),index(3),3) = DBLE(ffz)
361
362 enddo
363
364
365 c------------------------------------------------------------------------
366 c
367 c closes files
368 c
369 c------------------------------------------------------------------------
370
371 call HREND('FIELD3')
372
373 c------------------------------------------------------------------------
374 c
375 c no error exit
376 c
377 c------------------------------------------------------------------------
378
379 print*,' '
380 print*,'EXTERNAL MAGNETIC FIELD SUCCESSFULLY READ'
381 print*,' '
382 print*,' '
383
384
385 goto 9000 !happy ending
386
387 c------------------------------------------------------------------------
388 c
389 c magnetic field map file opening error
390 c
391 c------------------------------------------------------------------------
392
393
394
395 c------------------------------------------------------------------------
396 c
397 c ntuple event reading error
398 c
399 c------------------------------------------------------------------------
400
401 22 continue
402
403 print*,' '
404 print*,' ERROR WHILE READING NTUPLE, AT EVENT
405 $ : ',iev
406 print*,' '
407 print*,' '
408
409 goto 9000 !the end
410
411
412 c------------------------------------------------------------------------
413 c
414 c exit
415 c
416 c------------------------------------------------------------------------
417
418 9000 continue
419
420 return
421 end
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