1 cdaq 1.1 *****************begin: hms_data_structures.cmn*************************
2 *
3 * include file hms_data_structures.cmn
4 *
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5 jones 1.9 * Author: D. F. Geesaman 1 September 1993
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6 cdaq 1.1 *
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7 cdaq 1.2 * $Log: hms_data_structures.cmn,v $
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8 jones 1.12 * Revision 1.11 2003/04/01 13:55:08 jones
9 * Add variables hntracks_max_fp and h_remove_sppt_if_one_y_plane to
10 * hms_tracking.cmn
11 *
12 * Revision 1.10.2.2 2003/07/15 19:04:03 cdaq
13 * add hsinplane
14 *
15 * Revision 1.10.2.1 2003/04/10 12:36:56 cdaq
16 * comments added
17 *
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18 jones 1.11 * Revision 1.10 2003/01/02 18:34:51 jones
19 * change HNTRACKS_MAX from 5 to 20
20 *
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21 jones 1.10 * Revision 1.9 2002/12/20 21:52:34 jones
22 * Modified by Hamlet for new HMS aerogel
23 *
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24 jones 1.9 *
25 * Revision 1.9 2002/09/26
26 * (Hamlet) Add structures for HMS Aerogel
27 *
28 * Revision 1.8 1999/02/23 19:09:29 csa
29 * Change some physics vars
30 *
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31 csa 1.8 * Revision 1.7 1999/01/21 21:40:31 saw
32 * Extra shower counter tube modifications
33 *
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34 saw 1.7 * Revision 1.6 1998/12/17 22:02:41 saw
35 * Support extra set of tubes on HMS shower counter
36 *
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37 saw 1.6 * Revision 1.5 1996/09/04 15:49:31 saw
38 * (SAW) Double of all ' 's in comments
39 *
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40 saw 1.5 * Revision 1.4 1996/01/24 16:18:59 saw
41 * (JRA) Cosmetic change
42 *
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43 saw 1.4 * Revision 1.3 1996/01/17 16:00:02 cdaq
44 * (JRA) ADD HCER_RAW_ADC and HSCIN_FPTIME
45 *
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46 cdaq 1.3 * Revision 1.2 1995/08/11 16:28:46 cdaq
47 * (CC) Add structure for # of photoelectrons in Cerenkov
48 *
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49 cdaq 1.2 * Revision 1.1 1995/05/22 18:41:15 cdaq
50 * Initial revision
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51 cdaq 1.1 *
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52 cdaq 1.2 *
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53 cdaq 1.1 * CTPTYPE=parm
54 *
55 * HTHETA_LAB HMS LAB ANGLE THETA (RADIANS)
56 * HPHI_LAB HMS LAB ANGLE PHI
57 * HPCENTRAL HMS CENTRAL MOMENUTM (GEV)
58 * HBFIELD HMS B FIELD INCLUDING SIGN
59 *
60 REAL*4 HTHETA_LAB ! HMS LAB ANGLE THETA (RADIANS)
61 REAL*4 HPHI_LAB ! HMS LAB ANGLE PHI
62 REAL*4 HPCENTRAL ! HMS CENTRAL MOMENUTM (GEV)
63 REAL*4 HBFIELD ! HMS B FIELD INCLUDING SIGN
64 REAL*4 HPARTMASS ! EXPECTED MASS OF DETECTED PARTICLE IN HMS
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65 jones 1.9
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66 cdaq 1.1 COMMON/HMS_SPECTROMETER/
67 & HTHETA_LAB,
68 & HPHI_LAB,
69 & HPCENTRAL,
70 & HBFIELD,
71 & HPARTMASS
72 *
73 * CTPTYPE=event
74 *
75 * HMS DECODED DATA
76 *
77 * FILLED BY G_decode_event_by_banks
78 * HMS DRIFT CHAMBER HITS
79 * EACH CHAMBER HIT (TDC VALUE) HAS A
80 * PLANE NUMBER
81 * WIRE NUMBER
82 * TDC VALUE
83 *
84 * THE TOTAL NUMBER OF HITS IS GIVEN IN HDC_RAW_TOT_HITS
85 *
86 INTEGER*4 HMAX_DC_HITS ! MAXIUM NUMBER OF DRIFT CHAMBER HITS
87 cdaq 1.1 INTEGER*4 HMAX_NUM_DC_PLANES ! MAX NUMBER OF HMS DRIFT CHAMBER PLANES
88 INTEGER*4 HMAX_NUM_CHAMBERS ! NUMBER OF HMS DRIFT CHAMBERS
89 PARAMETER(HMAX_DC_HITS=3600)
90 PARAMETER(HMAX_NUM_DC_PLANES=12)
91 PARAMETER(HMAX_NUM_CHAMBERS=2)
92 INTEGER*4 HDC_RAW_PLANE_NUM
93 INTEGER*4 HDC_RAW_WIRE_NUM
94 INTEGER*4 HDC_RAW_TDC
95 INTEGER*4 HDC_RAW_TOT_HITS
96 COMMON/HMS_RAW_DC/
97 1 HDC_RAW_PLANE_NUM(HMAX_DC_HITS),
98 2 HDC_RAW_WIRE_NUM(HMAX_DC_HITS),
99 3 HDC_RAW_TDC(HMAX_DC_HITS),
100 4 HDC_RAW_TOT_HITS
101 *
102 * HMS DECODED DC DATA
103 *
104 * FILLED BY H_TRANS_DC TRANSLATION ROUTINE
105 * HMS DRIFT CHAMBER HITS
106 * EACH CHAMBER HIT (TDC VALUE) HAS A
107 * PLANE NUMBER
108 cdaq 1.1 * WIRE NUMBER
109 * TDC VALUE
110 * DRIFT TIME
111 * DRIFT DISTANCE
112 * GENERALIZED COORDINATE OF HIT WIRE CENTER
113 * GENERALIZED COORDINATE OF HIT PERPENDICULAR TO WIRE DIRECTION
114 *
115 * THE TOTAL NUMBER OF HITS IN EACH PLANE IS GIVEN IN HDC_HITS_PER_PLANE(I)
116 * THE TOTAL NUMBER OF HITS IS GIVEN IN HDC_TOT_HITS
117 *
118 INTEGER*4 HDC_PLANE_NUM ! copied from HMS_RAW_DC
119 INTEGER*4 HDC_WIRE_NUM ! copied from HMS_RAW_DC
120 INTEGER*4 HDC_TDC ! copied from HMS_RAW_DC
121 INTEGER*4 HDC_TOT_HITS
122 REAL*4 HDC_DRIFT_TIME
123 REAL*4 HDC_DRIFT_DIS
124 REAL*4 HDC_WIRE_CENTER
125 REAL*4 HDC_WIRE_COORD
126 COMMON/HMS_DECODED_DC/
127 1 HDC_DRIFT_TIME(HMAX_DC_HITS),
128 2 HDC_DRIFT_DIS(HMAX_DC_HITS),
129 cdaq 1.1 3 HDC_WIRE_CENTER(HMAX_DC_HITS),
130 4 HDC_WIRE_COORD(HMAX_DC_HITS),
131 5 HDC_PLANE_NUM(HMAX_DC_HITS),
132 6 HDC_WIRE_NUM(HMAX_DC_HITS),
133 7 HDC_TDC(HMAX_DC_HITS),
134 9 HDC_TOT_HITS
135 *
136 * HMS RAW SCINTILLATOR HITS
137 * FILLED BY g_decode_evebt_by_banks
138 * EACH SCINTILLATOR HIT IS SPECIFIED BY A
139 * SCINTILLATOR PLANE NUMBER
140 * SCINTILLATOR COUNTER NUMBER
141 * SCINTILLATOR ADC AT POSITIVE GENERALIZED COORDINATE END
142 * SCINTILLATOR ADC AT NEGATIVE GENERALIZED COORDINATE END
143 * SCINTILLATOR TDC AT POSITIVE GENERALIZED COORDINATE END
144 * SCINTILLATOR TDC AT NEGATIVE GENERALIZED COORDINATE END
145 * THE TOTAL NUMBER OF HITS IS GIVEN BY HSCIN_ALL_TOT_HITS
146 INTEGER*4 HMAX_ALL_SCIN_HITS ! MAXIMUM TOTAL NUMBER OF SCIN HITS
147 PARAMETER (HMAX_ALL_SCIN_HITS=53) ! Number of elements + 1
148 INTEGER*4 HNUM_ALL_SCIN_PLANES ! TOTAL NUMBER OF SCIN PLANES
149 PARAMETER (HNUM_ALL_SCIN_PLANES=4)
150 cdaq 1.1 INTEGER*4 HSCIN_ALL_PLANE_NUM
151 INTEGER*4 HSCIN_ALL_COUNTER_NUM
152 INTEGER*4 HSCIN_ALL_ADC_POS
153 INTEGER*4 HSCIN_ALL_ADC_NEG
154 INTEGER*4 HSCIN_ALL_TDC_POS
155 INTEGER*4 HSCIN_ALL_TDC_NEG
156 INTEGER*4 HSCIN_ALL_TOT_HITS
157 *
158 COMMON/HMS_RAW_SCIN/
159 & HSCIN_ALL_PLANE_NUM(HMAX_ALL_SCIN_HITS),
160 & HSCIN_ALL_COUNTER_NUM(HMAX_ALL_SCIN_HITS),
161 & HSCIN_ALL_ADC_POS(HMAX_ALL_SCIN_HITS),
162 & HSCIN_ALL_ADC_NEG(HMAX_ALL_SCIN_HITS),
163 & HSCIN_ALL_TDC_POS(HMAX_ALL_SCIN_HITS),
164 & HSCIN_ALL_TDC_NEG(HMAX_ALL_SCIN_HITS),
165 & HSCIN_ALL_TOT_HITS
166 *
167 * HMS REAL SCINTILLATOR HITS (Hits with no TDC data stripped out)
168 * FILLED BY H_strip_scin (which is called by h_trans_scin)
169 * EACH SCINTILLATOR HIT IS SPECIFIED BY A
170 * SCINTILLATOR PLANE NUMBER
171 cdaq 1.1 * SCINTILLATOR COUNTER NUMBER
172 * SCINTILLATOR ADC AT POSITIVE GENERALIZED COORDINATE END
173 * SCINTILLATOR ADC AT NEGATIVE GENERALIZED COORDINATE END
174 * SCINTILLATOR TDC AT POSITIVE GENERALIZED COORDINATE END
175 * SCINTILLATOR TDC AT NEGATIVE GENERALIZED COORDINATE END
176 * THE TOTAL NUMBER OF HITS IS GIVEN BY HSCIN_TOT_HITS
177 INTEGER*4 HMAX_SCIN_HITS ! MAXIMUM TOTAL NUMBER OF SCIN HITS
178 PARAMETER (HMAX_SCIN_HITS=53) ! Number of elements + 1
179 INTEGER*4 HNUM_SCIN_PLANES ! TOTAL NUMBER OF SCIN PLANES
180 PARAMETER (HNUM_SCIN_PLANES=4)
181 INTEGER*4 HNUM_SCIN_ELEMENTS
182 PARAMETER (HNUM_SCIN_ELEMENTS=16)
183 INTEGER*4 HSCIN_PLANE_NUM
184 INTEGER*4 HSCIN_COUNTER_NUM
185 REAL*4 HSCIN_ADC_POS
186 REAL*4 HSCIN_ADC_NEG
187 INTEGER*4 HSCIN_TDC_POS
188 INTEGER*4 HSCIN_TDC_NEG
189 INTEGER*4 HSCIN_TOT_HITS
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190 saw 1.5 INTEGER*4 HSCIN_SING_COUNTER ! DJM''s registered hit counter
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191 cdaq 1.1 *
192 COMMON/HMS_REAL_SCIN/
193 & HSCIN_PLANE_NUM(HMAX_SCIN_HITS),
194 & HSCIN_COUNTER_NUM(HMAX_SCIN_HITS),
195 & HSCIN_ADC_POS(HMAX_SCIN_HITS),
196 & HSCIN_ADC_NEG(HMAX_SCIN_HITS),
197 & HSCIN_TDC_POS(HMAX_SCIN_HITS),
198 & HSCIN_TDC_NEG(HMAX_SCIN_HITS),
199 & HSCIN_TOT_HITS,
200 & HSCIN_SING_COUNTER(HNUM_SCIN_PLANES)
201 *
202 *
203 * DECODED SCIN HITS
204 * FILLED BY H_TRANS_SCIN
205 * THIS USES SCINTILLATOR INFORMATION ONLY TO CALCUATE
206 * HSCIN_APPROX_HIT_COORD GENERALIZED COORDINATE ALONG HIT
207 * SCINTILLATOR DETERMINED FROM TDC INFO.
208 * HSCIN_COR_ADC CORRECTED PULSE HEIGHT AT HIT
209 * HSCIN_COR_TIME CORRECTED TIME AT HIT
210 * THE TOTAL NUMBER OF HITS IN EACH PLANE IS GIVEN BY HSCIN_HITS_PER_PLANE
211 * THE HSTART_TIME IS DEFINED AS THE TIME IF THE TRACK HAD GONE THROUGH
212 cdaq 1.1 * THE CENTER OF S1X. IT IS USED BY H_TRANS_DC FOR THE DRIFT TIME
213 * CALCULATION.
214 * HTWO_GOOD_TIMES IS A LOGICAL VARIABLE WHICH IS TRUE IF BOTH ENDS
215 * OF THE SCINTILLATOR ARE HIT AND FALSE IF ONLY ONE END IS HIT.
216 * HGOOD_START_TIME IS TRUE IF A START TIME WAS FOUND
217 *
218 REAL*4 HSCIN_ZPOS(HMAX_SCIN_HITS)
219 REAL*4 HSCIN_CENTER_COORD(HMAX_SCIN_HITS)
220 REAL*4 HSCIN_DEC_HIT_COORD(HMAX_SCIN_HITS)
221 REAL*4 HSCIN_WIDTH(HMAX_SCIN_HITS)
222 REAL*4 HSCIN_SLOP(HMAX_SCIN_HITS)
223 REAL*4 HSCIN_COR_ADC(HMAX_SCIN_HITS)
224 REAL*4 HSCIN_COR_TIME(HMAX_SCIN_HITS)
225 REAL*4 HSTART_TIME
226 INTEGER*4 HSTART_HITNUM
227 INTEGER*4 HSTART_HITSIDE
228 INTEGER*4 HSCIN_HITS_PER_PLANE(HNUM_SCIN_PLANES)
229 LOGICAL*4 HTWO_GOOD_TIMES(HMAX_SCIN_HITS)
230 LOGICAL*4 HGOOD_START_TIME
231
232 COMMON/HMS_DECODED_SCIN/
233 cdaq 1.1 & HSCIN_ZPOS,
234 & HSCIN_CENTER_COORD,
235 & HSCIN_WIDTH,
236 & HSCIN_SLOP,
237 & HSCIN_DEC_HIT_COORD,
238 & HSCIN_COR_ADC,
239 & HSCIN_COR_TIME,
240 & HSTART_TIME,
241 & HSCIN_HITS_PER_PLANE,
242 & HSTART_HITNUM,
243 & HSTART_HITSIDE,
244 & HTWO_GOOD_TIMES,
245 & HGOOD_START_TIME
246 *
247 *
248 * HMS CALORIMETER HITS
249 *
250 * ALLOW FOR NO SPARCIFICATION OF SHOWER COUNTER ELEMENTS
251 *
252 * EACH COUNTER HAS A
253 * COLUMN NUMBER
254 cdaq 1.1 * ROW NUMBER
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255 saw 1.6 * ADC VALUE AT Positive End (This end if only one end used)
256 * ADC VALUE AT Negative End
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257 cdaq 1.1 *
258 * THE TOTAL NUMBER OF SHOWER HITS IS HCAL_TOT_HITS
259 *
260 INTEGER*4 HMAX_CAL_BLOCKS ! TOTAL NUMBER OF SHOWER BLOCKS
261 PARAMETER (HMAX_CAL_BLOCKS=52)
262 INTEGER*4 HMAX_CAL_ROWS !Number of calorimeter rows
263 PARAMETER (HMAX_CAL_ROWS=13)
264 INTEGER*4 HMAX_CAL_COLUMNS !Number of calorimeter columns
265 PARAMETER (HMAX_CAL_COLUMNS=4)
266 INTEGER*4 HCAL_TOT_HITS
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267 saw 1.7 INTEGER*4 HCAL_POS_HITS
268 INTEGER*4 HCAL_NEG_HITS
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269 cdaq 1.1 INTEGER*4 HCAL_COLUMN(HMAX_CAL_BLOCKS)
270 INTEGER*4 HCAL_ROW(HMAX_CAL_BLOCKS)
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271 saw 1.6 INTEGER*4 HCAL_ADC_POS(HMAX_CAL_BLOCKS)
272 INTEGER*4 HCAL_ADC_NEG(HMAX_CAL_BLOCKS)
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273 cdaq 1.1 INTEGER*4 HCAL_ADC(HMAX_CAL_BLOCKS)
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274 saw 1.6 equivalence (hcal_adc, hcal_adc_pos) ! For old code
275 REAL*4 HCAL_REALADC_POS(HMAX_CAL_BLOCKS)
276 REAL*4 HCAL_REALADC_NEG(HMAX_CAL_BLOCKS)
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277 cdaq 1.1 REAL*4 HCAL_REALADC(HMAX_CAL_BLOCKS)
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278 saw 1.6 equivalence (hcal_realadc, hcal_realadc_pos)
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279 cdaq 1.1
280 COMMON/HMS_RAW_CAL/
281 & HCAL_COLUMN,
282 & HCAL_ROW,
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283 saw 1.6 & HCAL_ADC_POS,
284 & HCAL_ADC_NEG,
285 & HCAL_REALADC_POS,
286 & HCAL_REALADC_NEG,
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287 saw 1.7 & HCAL_TOT_HITS,
288 & HCAL_POS_HITS,
289 & HCAL_NEG_HITS
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290 cdaq 1.1 *
291 * DECODED CALORIMETER QUANTITIES
292 * FILLED BY H_TRANS_CAL USING ONLY THE CALORIMETER INFORMATION
293 *
294 * X COORDINATE OF BLOCK CENTER
295 * Z COORDINATE OF BLOCK CENTER
296 * ENERGY DEPOSITED IN THE BLOCK
297 * ENERGY DEPOSITED IN COLUMN #1
298 * #2
299 * #3
300 * #4
301 * TOTAL ENERGY IN THE CALORIMETER
302 INTEGER*4 HNHITS_CAL !NUMBER OF CALORIMETER HITS ABOVE THRESHOLD
303 REAL*4 HBLOCK_XC !X COORDINATE OF BLOCK CENTER
304 REAL*4 HBLOCK_ZC !Z COORDINATE OF BLOCK CENTER
305 REAL*4 HBLOCK_DE !ENERGY DEPOSITION IN THE BLOCKS
306 REAL*4 HCAL_E1 !ENERGY DEPOSITION IN COLUMN #1
307 REAL*4 HCAL_E2 ! #2
308 REAL*4 HCAL_E3 ! #3
309 REAL*4 HCAL_E4 ! #4
310 REAL*4 HCAL_ET !TOTAL ENERGY IN THE CALORIMETER
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311 saw 1.7 REAL*4 HCAL_E1_POS
312 REAL*4 HCAL_E1_NEG
313 REAL*4 HCAL_E2_POS
314 REAL*4 HCAL_E2_NEG
315 REAL*4 HBLOCK_DE_POS
316 REAL*4 HBLOCK_DE_NEG
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317 cdaq 1.1 COMMON/HMS_DECODED_CAL/
318 & HBLOCK_XC(HMAX_CAL_BLOCKS),
319 & HBLOCK_ZC(HMAX_CAL_BLOCKS),
320 & HBLOCK_DE(HMAX_CAL_BLOCKS),
321 & HCAL_E1,
322 & HCAL_E2,
323 & HCAL_E3,
324 & HCAL_E4,
325 & HCAL_ET,
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326 saw 1.7 & HCAL_E1_POS,
327 & HCAL_E1_NEG,
328 & HCAL_E2_POS,
329 & HCAL_E2_NEG,
330 & HBLOCK_DE_POS(HMAX_CAL_BLOCKS),
331 & HBLOCK_DE_NEG(HMAX_CAL_BLOCKS),
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332 cdaq 1.1 & HNHITS_CAL
333 *
334 * HMS CERENKOV HITS
335 * FILLED BY G_decode_event_by_banks
336 *
337 * THERE ARE TWO CERENKOV PHOTOTUBES. EACH HIT HAS
338 * TUBE NUMBER
339 * ADC VALUE
340 * THE TOTAL NUMBER OF PHOTOTUBE HITS IS HCER_TOT_HITS
341 * HOWEVER TO MAKE THE DECODERS SYMMETRICAL TO A SCINT WE MUST ADD
342 * A DUMMY PLANE NUMBER.
343 INTEGER*4 HMAX_CER_HITS
344 PARAMETER(HMAX_CER_HITS=2)
345 INTEGER*4 HCER_TOT_HITS
346 INTEGER*4 HCER_TUBE_NUM
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347 cdaq 1.3 INTEGER*4 HCER_RAW_ADC
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348 cdaq 1.1 INTEGER*4 HCER_PLANE
349 COMMON/HMS_RAW_CER/
350 & HCER_TUBE_NUM(HMAX_CER_HITS),
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351 cdaq 1.3 & HCER_RAW_ADC(HMAX_CER_HITS),
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352 cdaq 1.1 & HCER_PLANE(HMAX_CER_HITS),
353 & HCER_TOT_HITS
354 *
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355 cdaq 1.2 * DECODED CERENKOV QUANTITIES
356 * FILLED BY H_TRANS_CER
357 *
358 INTEGER*4 HCER_NUM_HITS ! NUMBER OF CERENKOV HITS ABOVE THRESHOLD
359 REAL*4 HCER_NPE ! ADC CONVERTED TO NUMBER OF PHOTOELECTRONS
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360 saw 1.5 REAL*4 HCER_NPE_SUM ! SUM OVER TUBES OF NPE''S
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361 cdaq 1.3 REAL*4 HCER_ADC ! PED SUBTRACTED ADC FOR EACH *TUBE*
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362 cdaq 1.2 COMMON/HCER_DECODED_CER/
363 & HCER_NUM_HITS,
364 & HCER_NPE(HMAX_CER_HITS),
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365 cdaq 1.3 & HCER_NPE_SUM,
366 & HCER_ADC(HMAX_CER_HITS)
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367 cdaq 1.2 *
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368 jones 1.9 *..........................................................................
369 * (Last revison 01 Dec'02; Hamlet)
370 *
371 * HMS AEROGEL HITS
372 * FILLED BY G_decode_event_by_banks
373 *
374 * THERE ARE 16 AEROGEL PHOTOTUBES. We will pair tubes on the left and
375 * right side so that are 8 "counters".
376 * POS pmt's on the positive side of Y axis (as for Hodoscope)
377 *
378 * TUBE Row
379 * ADC Left VALUE
380 * ADC Right VALUE
381 * THE TOTAL NUMBER OF PHOTOTUBE HITS IS HAERO_TOT_HITS
382 * HOWEVER TO MAKE THE DECODERS SYMMETRICAL TO A SCINT WE MUST ADD
383 * A DUMMY PLANE NUMBER.
384 INTEGER*4 HMAX_AERO_HITS
385 PARAMETER(HMAX_AERO_HITS=8)
386 INTEGER*4 HNUM_AERO_BLOCKS
387 PARAMETER(HNUM_AERO_BLOCKS=8)
388 INTEGER*4 HAERO_TOT_HITS
389 jones 1.9 INTEGER*4 HAERO_PLANE
390 INTEGER*4 HAERO_PAIR_NUM
391 INTEGER*4 HAERO_ADC_POS
392 INTEGER*4 HAERO_ADC_NEG
393 INTEGER*4 HAERO_TDC_POS
394 INTEGER*4 HAERO_TDC_NEG
395 COMMON/HMS_RAW_AERO/
396 & HAERO_PLANE(HMAX_AERO_HITS),
397 & HAERO_PAIR_NUM(HMAX_AERO_HITS),
398 & HAERO_ADC_POS(HMAX_AERO_HITS),
399 & HAERO_ADC_NEG(HMAX_AERO_HITS),
400 & HAERO_TDC_POS(HMAX_AERO_HITS),
401 & HAERO_TDC_NEG(HMAX_AERO_HITS),
402 & HAERO_TOT_HITS
403
404 *
405 *..........................................................................
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406 cdaq 1.1 *
407 *
408 * HMS DETECTOR TRACK QUANTITIES
409 * FILLED BY H_TRACK SUBROUTINE
410 *
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411 jones 1.11 INTEGER*4 HNTRACKS_MAX ! size of array
412 PARAMETER (HNTRACKS_MAX=20) ! SET MAXIMUM TO 20
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413 cdaq 1.1 INTEGER*4 HNTRACKHITS_MAX ! MAXIMUM NUMBER OF HITS IN EACH TRACK
414 PARAMETER (HNTRACKHITS_MAX=16) ! SET MAXIMUM TO 15
415 INTEGER*4 HNTRACKS_FP ! NUMBER OF FOCAL PLANE TRACKS FOUND
416 * ALL THE FOLLOWING VARIABLES ARE ARRAYS
417 *
418 REAL*4 HX_FP ! X POSITION OF TRACK IN FOCAL PLANE
419 REAL*4 HY_FP ! Y POSITION OF TRACK IN FOCAL PLANE
420 REAL*4 HZ_FP ! Z POSITION OF TRACK IN FOCAL PLANE
421 REAL*4 HXP_FP ! X SLOPE OF TRACK IN FOCAL PLANE
422 REAL*4 HYP_FP ! Y SLOPE OF TRACK IN FOCAL PLANE
423 REAL*4 HCHI2_FP ! FIT QUALITY IN FOCAL PLANE
424 REAL*4 HCHI2PERDOF_FP ! fp chi2 per degree of freedom
425 INTEGER*4 HNFREE_FP ! NUMBER OF DEGREES OF FREEDOM IN FIT
426 INTEGER*4 HNTRACK_HITS ! LIST OF HITS ON EACH TRACK
427 REAL*4 HDEL_FP ! FOCAL PLANE ERROR MATRIX
428 REAL*4 HX_FP_rot ! x in rotated focal plane
429 REAL*4 HY_FP_rot ! y in rotated f plane
430 REAL*4 HXP_FP_rot ! x slope in rotated f plane
431 REAL*4 HYP_FP_rot ! y slope in rot f plane
432
433 * THE FOCAL PLANE ERROR MATRIX IS A 4 BY 4 BY HNTRACK_MAX ARRAY
434 cdaq 1.1 * THE FOUR INDECIES FOR EACH TRACK ARE X, XP, Y, YP
435 * THE ERROR MATRIX FOR EACH TRACK IS SYMMETRIC ABOUT THE DIAGONAL
436 * DELXX DELXXP DELXY DELXYP
437 * DELXPX DELXPXP DELXPY DELXPYP
438 * DELYPX DELYXP DELYY DELYYP
439 * DELYPX DELYPXP DELYPY DELYPYP
440 COMMON/HMS_FOCAL_PLANE/
441 1 HX_FP(HNTRACKS_MAX),
442 2 HY_FP(HNTRACKS_MAX),
443 3 HZ_FP(HNTRACKS_MAX),
444 4 HXP_FP(HNTRACKS_MAX),
445 5 HYP_FP(HNTRACKS_MAX),
446 6 HCHI2_FP(HNTRACKS_MAX),
447 7 HDEL_FP(4,4,HNTRACKS_MAX),
448 8 HNTRACK_HITS(HNTRACKS_MAX,HNTRACKHITS_MAX+1),
449 9 HNFREE_FP(HNTRACKS_MAX),
450 A HNTRACKS_FP,HCHI2PERDOF_FP(HNTRACKS_MAX),
451 > HX_FP_rot(HNTRACKS_MAX),
452 > HY_FP_rot(HNTRACKS_MAX),
453 > HXP_FP_rot(HNTRACKS_MAX),
454 > HYP_FP_rot(HNTRACKS_MAX)
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455 jones 1.11
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456 cdaq 1.1
457
458 * HMS TARGET QUANTITIES
459 * ASSUME THE SAME NUMBER OF MAXIMUM TRACKS AS IN THE FOCAL PLANE
460 * HNTRACKS_MAX
461 *
462 * FILLED BY H_TARG_TRANS SUBROUTINE
463 INTEGER*4 HNTRACKS_TAR ! NUMBER OF TARGET TRACKS FOUND
464 * ALL THE FOLLOWING VARIABLES ARE ARRAYS
465 *
466 REAL*4 HX_TAR ! X POSITION OF TRACK AT TARGET
467 REAL*4 HY_TAR ! Y POSITION OF TRACK AT TARGET
468 REAL*4 HZ_TAR ! Z POSITION OF TRACK AT TARGET
469 REAL*4 HXP_TAR ! X SLOPE OF TRACK AT TARGET
470 REAL*4 HYP_TAR ! Y SLOPE OF TRACK AT TARGET
471 REAL*4 HDELTA_TAR ! FRACTION TRACK MOMENTUM
472 REAL*4 HP_TAR ! MOMENTUM OF TRACK AT TARGET
473 REAL*4 HCHI2_TAR ! FIT QUALITY AT TARGET
474 INTEGER*4 HNFREE_TAR ! NUMBER OF DEGREES OF FREEDOM IN FIT
475 REAL*4 HDEL_TAR ! TARGET ERROR MATRIX
476 * THE FOCAL PLANE ERROR MATRIX IS A 5 BY 5 BY HNTRACK_MAX ARRAY
477 cdaq 1.1 * THE FIVE INDECIES FOR EACH TRACK ARE X, Y , XP, YP and P
478 * THE ERROR MATRIX FOR EACH TRACK IS SYMMETRIC ABOUT THE DIAGONAL
479 * DELXX DELXXP DELXY DELXYP DELXP
480 * DELXPX DELXPXP DELXPY DELXPYP DELXPP
481 * DELYX DELYXPY DELYY DELYYP DELYP
482 * DELYPX DELYPXP DELYPY DELYPYP DELYPP
483 * DELPX DELPXP DELPY DELPXP DELPP
484 INTEGER*4 HLINK_TAR_FP ! LINK POINTER TO FOCAL PLANE TRACK NUMBER
485 COMMON/HMS_TARGET/
486 1 HX_TAR(HNTRACKS_MAX),
487 2 HY_TAR(HNTRACKS_MAX),
488 3 HZ_TAR(HNTRACKS_MAX),
489 4 HXP_TAR(HNTRACKS_MAX),
490 5 HYP_TAR(HNTRACKS_MAX),
491 6 HDELTA_TAR(HNTRACKS_MAX),
492 7 HP_TAR(HNTRACKS_MAX),
493 8 HCHI2_TAR(HNTRACKS_MAX),
494 9 HDEL_TAR(5,5,HNTRACKS_MAX),
495 A HNFREE_TAR(HNTRACKS_MAX),
496 B HLINK_TAR_FP(HNTRACKS_MAX),
497 C HNTRACKS_TAR
498 cdaq 1.1 *
499 *
500 * HMS_TRACK_TESTS
501 *
502 * PARTICLE ID INFORMATION FILLED BY H_TOF and H_CAL
503 * THIS STORES THE RESULTS OF SHOWER AND SCINTILLATOR CALCULATIONS
504 * FOR EACH OF THE TRACKS GENERATED BY H_TRACK
505 *
506 INTEGER*4 HNBLOCKS_CAL(HNTRACKS_MAX)
507 REAL*4 HTRACK_E1(HNTRACKS_MAX)
508 REAL*4 HTRACK_E2(HNTRACKS_MAX)
509 REAL*4 HTRACK_E3(HNTRACKS_MAX)
510 REAL*4 HTRACK_E4(HNTRACKS_MAX)
511 REAL*4 HTRACK_ET(HNTRACKS_MAX)
512 REAL*4 HTRACK_PRESHOWER_E(HNTRACKS_MAX)
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513 saw 1.7 REAL*4 HTRACK_E1_POS(HNTRACKS_MAX)
514 REAL*4 HTRACK_E1_NEG(HNTRACKS_MAX)
515 REAL*4 HTRACK_E2_POS(HNTRACKS_MAX)
516 REAL*4 HTRACK_E2_NEG(HNTRACKS_MAX)
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517 cdaq 1.1 *
518 INTEGER*4 HSCIN_HIT(HNTRACKS_MAX,HMAX_SCIN_HITS)
519 INTEGER*4 HNUM_SCIN_HIT(HNTRACKS_MAX)
520 INTEGER*4 HNUM_PMT_HIT(HNTRACKS_MAX)
521 REAL*4 HDEDX(HNTRACKS_MAX,HMAX_SCIN_HITS)
522 REAL*4 HBETA(HNTRACKS_MAX)
523 REAL*4 HBETA_CHISQ(HNTRACKS_MAX)
524 REAL*4 HTIME_AT_FP(HNTRACKS_MAX)
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525 cdaq 1.3 REAL*4 HSCIN_FPTIME(HNTRACKS_MAX,HMAX_SCIN_HITS)
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526 cdaq 1.1 *
527 COMMON/HMS_TRACK_TESTS/
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528 saw 1.7 1 HTRACK_E1, ! ENERGY IN FIRST COLUMN NEAR TRACK
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529 cdaq 1.1 2 HTRACK_E2, ! SECOND COLUMN
530 3 HTRACK_E3, ! THIRD COLUMN
531 4 HTRACK_E4, ! FOURTH COLUMN
532 5 HTRACK_ET, ! TOTAL SHOWER ENERGY ALONG TRACK
533 6 HTRACK_PRESHOWER_E, ! PRESHOWER ENERGY-Note definition is exp. dep.
534 7 HDEDX, !
535 8 HBETA, ! VELOCITY OF TRACK
536 9 HBETA_CHISQ, ! CHISQ OF FIT TO BETA OF TRACK
537 A HTIME_AT_FP, !
538 B HNBLOCKS_CAL, ! NUMBER OF SHOWER BLOCKS ON EACH TRACK
539 C HSCIN_HIT, ! ARRAY OF SCIN HITS ASSOCIATED WITH
540 D ! EACH TRACK
541 E HNUM_SCIN_HIT, ! NUMBER OF HITS FOR EACH TRACK
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542 cdaq 1.3 F HNUM_PMT_HIT, ! NUMBER OF PMT HITS FOR EACH TRACK
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543 saw 1.7 G HSCIN_FPTIME,
544 H HTRACK_E1_POS,
545 I HTRACK_E1_NEG,
546 J HTRACK_E2_POS,
547 K HTRACK_E2_NEG
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548 cdaq 1.1 *
549 * HMS SINGLES PHYSICS COMMON BLOCKS
550 * THESE ARE FILLED BY H_PHYSICS
551 *
552 *
553 REAL*4 HSP ! Lab momentum of chosen track in GeV/c
554 REAL*4 HSENERGY ! Lab total energy of chosen track in GeV
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555 csa 1.8 REAL*4 HSCORRP ! electron momentum corrected for eloss
556 REAL*4 HSCORRE ! electron energy corrected for eloss
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557 cdaq 1.1 REAL*4 HSDELTA ! Spectrometer delta of chosen track
558 REAL*4 HSTHETA ! Lab Scattering angle in radians
559 REAL*4 HSPHI ! Lab Azymuthal angle in radians
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560 jones 1.12 REAL*4 HSINPLANE ! In plane angle
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561 cdaq 1.1 REAL*4 HSMINV ! Invariant Mass of remaing hadronic system
562 REAL*4 HSZBEAM ! Lab Z coordinate of intersection of beam
563 ! track with spectrometer ray
564 REAL*4 HSDEDX(4) ! DEDX of chosen track in each scin plane
565 REAL*4 HSBETA ! BETA of chosen track
566 REAL*4 HSTRACK_ET ! Total shower energy of chosen track
567 REAL*4 HSTRACK_PRESHOWER_E ! preshower of chosen track
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568 saw 1.7 REAL*4 HSTRACK_E1_POS ! Shower energy E1_POS of chosen track
569 REAL*4 HSTRACK_E1_NEG ! Shower energy E1_NEG of chosen track
570 REAL*4 HSTRACK_E2_POS ! Shower energy E2_POS of chosen track
571 REAL*4 HSTRACK_E2_NEG ! Shower energy E2_NEG of chosen track
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572 cdaq 1.1 REAL*4 HSTIME_AT_FP
573 REAL*4 HSX_FP ! X focal plane position
574 REAL*4 HSY_FP
575 REAL*4 HSXP_FP
576 REAL*4 HSYP_FP
577 REAL*4 HSCHI2PERDEG ! CHI2 per degree of freedom of chosen track.
578 REAL*4 HSX_TAR
579 REAL*4 HSY_TAR
580 REAL*4 HSXP_TAR
581 REAL*4 HSYP_TAR
582 REAL*4 HSBETA_CHISQ
583 *
584 real*4 hsmass2 ! Mass squared
585 real*4 hst ! invariant t
586 real*4 hsu ! invariant u
587 real*4 hseloss
588 real*4 hsq3 ! Lab frame momentum transfer
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589 csa 1.8 * real*4 hsthetaq, hsphiq ! Direction of q3
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590 cdaq 1.1 real*4 hsbigq2 ! Q**2
591 real*4 hsx ! fraction of nucleon p carried by quark
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592 saw 1.5 real*4 hsy ! fraction of lepton''s E lost in lab
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593 cdaq 1.1 real*4 hsw ! Invariant mass of recoil system
594 real*4 hsw2 ! Invariant mass**2 of recoil system
595 *
596 INTEGER*4 HSNUM_FPTRACK ! Index of focal plane track chosen
597 INTEGER*4 HSNUM_TARTRACK ! Index of target track chosen
598 INTEGER*4 HSID_LUND ! LUND particle ID code -- not yet filled
599 INTEGER*4 HSNFREE_FP
600 INTEGER*4 HSNUM_SCIN_HIT ! # OF SCINTILLATORS ON TRACK
601 INTEGER*4 HSNUM_PMT_HIT ! # OF HODOSCOPE PMTS ON TRACK
602 *
603 COMMON/HMS_PHYSICS_R4/
604 & HSP,
605 & HSENERGY,
606 & HSDELTA,
607 & HSTHETA,
608 & HSPHI,
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609 jones 1.12 & HSINPLANE,
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610 cdaq 1.1 & HSMINV,
611 & HSZBEAM,
612 & HSDEDX,
613 & HSBETA,
614 & HSTRACK_ET,
615 & HSTRACK_PRESHOWER_E,
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616 saw 1.7 & HSTRACK_E1_POS,
617 & HSTRACK_E1_NEG,
618 & HSTRACK_E2_POS,
619 & HSTRACK_E2_NEG,
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620 cdaq 1.1 & HSTIME_AT_FP,
621 & HSX_FP ,
622 & HSY_FP ,
623 & HSXP_FP ,
624 & HSYP_FP ,
625 & HSCHI2PERDEG ,
626 & HSX_TAR ,
627 & HSY_TAR ,
628 & HSXP_TAR ,
629 & HSYP_TAR ,
630 & HSBETA_CHISQ,
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631 csa 1.8 & hsmass2,
632 & hst,
633 & hsu,
634 & hseloss,
635 & hsq3,
636 & hsbigq2,
637 & hsx,
638 & hsy,
639 & hsw,
640 & hsw2,
641 & hscorrp,
642 & hscorre
643 * & hsthetaq,hsphiq
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644 cdaq 1.1 *
645 COMMON/HMS_PHYSICS_I4/
646 & HSNUM_FPTRACK,
647 & HSNUM_TARTRACK,
648 & HSID_LUND,
649 & HSNFREE_FP,
650 & HSNUM_SCIN_HIT,
651 & HSNUM_PMT_HIT
652 *
653 *
654 * Non-Hits data with HMS gates or starts.
655 * (Energy SUMS, logic timing,...)
656 *
657 INTEGER HMAX_MISC_HITS
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658 cdaq 1.3 PARAMETER(HMAX_MISC_HITS=100)
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659 cdaq 1.1 INTEGER*4 HMISC_TOT_HITS
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660 saw 1.4 INTEGER*4 HMISC_RAW_ADDR1 ! "Plane" (1=TDC,2=ADC)
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661 cdaq 1.1 INTEGER*4 HMISC_RAW_ADDR2 ! "Counter"
662 INTEGER*4 HMISC_RAW_DATA
663 COMMON/H_RAW_MISC/
664 & HMISC_RAW_ADDR1(HMAX_MISC_HITS),
665 & HMISC_RAW_ADDR2(HMAX_MISC_HITS),
666 & HMISC_RAW_DATA(HMAX_MISC_HITS),
667 & HMISC_TOT_HITS
668 *
669 *
670 *
671 *******************end: hms_data_structures.cmn*************************
672 * Local Variables:
673 * mode: fortran
674 * fortran-continuation-string: "&"
675 * comment-column: 35
676 * End:
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894 cdaq 1.1
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