Changing name of getter method to avoid ambiguity.
[u/mrichter/AliRoot.git] / STEER / AliGRPObject.cxx
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39e3007b 1/**************************************************************************\r
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
3 * *\r
4 * Author: The ALICE Off-line Project. *\r
5 * Contributors are mentioned in the code where appropriate. *\r
6 * *\r
7 * Permission to use, copy, modify and distribute this software and its *\r
8 * documentation strictly for non-commercial purposes is hereby granted *\r
9 * without fee, provided that the above copyright notice appears in all *\r
10 * copies and that both the copyright notice and this permission notice *\r
11 * appear in the supporting documentation. The authors make no claims *\r
12 * about the suitability of this software for any purpose. It is *\r
13 * provided "as is" without express or implied warranty. *\r
14 **************************************************************************/\r
15\r
16/* $Id$ */\r
17\r
18// **********************\r
19// Class containing the GRP data that have to be stored in the OCDB.\r
20// Data come either from DAQ logbook or from DCS DB.\r
21// Processing of the data can also be performed here.\r
22// **********************\r
23\r
24#include <TMap.h>\r
25#include <TObject.h>\r
26#include <TObjString.h>\r
27\r
28#include "AliGRPObject.h"\r
29#include "AliDCSSensor.h"\r
30#include "AliLog.h"\r
31\r
32ClassImp(AliGRPObject)\r
33 \r
7e5aabd4 34const Float_t AliGRPObject::fgkInvalidFloat = 1E-33; // value to identify invalid data - float\r
39e3007b 35const TString AliGRPObject::fgkInvalidString = ""; // value to identify invalid data - string\r
36const Char_t AliGRPObject::fgkInvalidChar = -1; // value to identify invalid data - uchar\r
37const Int_t AliGRPObject::fgkInvalidInt = -1; // value to identify invalid data - uint\r
38const Int_t AliGRPObject::fgkInvalidUInt = 0; // value to identify invalid data - uint\r
39const Int_t AliGRPObject::fgknDCSDPHallProbes = 40; // number of dcs dps\r
40const char* AliGRPObject::fgkDCSDataPointsHallProbes[AliGRPObject::fgknDCSDPHallProbes] = {\r
41 "L3_BSF17_H1",\r
42 "L3_BSF17_H2",\r
43 "L3_BSF17_H3",\r
44 "L3_BSF17_Temperature",\r
45 "L3_BSF4_H1",\r
46 "L3_BSF4_H2",\r
47 "L3_BSF4_H3",\r
48 "L3_BSF4_Temperature",\r
49 "L3_BKF17_H1",\r
50 "L3_BKF17_H2",\r
51 "L3_BKF17_H3",\r
52 "L3_BKF17_Temperature",\r
53 "L3_BKF4_H1",\r
54 "L3_BKF4_H2",\r
55 "L3_BKF4_H3",\r
56 "L3_BKF4_Temperature",\r
57 "L3_BSF13_H1",\r
58 "L3_BSF13_H2",\r
59 "L3_BSF13_H3",\r
60 "L3_BSF13_Temperature",\r
61 "L3_BSF8_H1",\r
62 "L3_BSF8_H2",\r
63 "L3_BSF8_H3",\r
64 "L3_BSF8_Temperature",\r
65 "L3_BKF13_H1",\r
66 "L3_BKF13_H2",\r
67 "L3_BKF13_H3",\r
68 "L3_BKF13_Temperature",\r
69 "L3_BKF8_H1",\r
70 "L3_BKF8_H2",\r
71 "L3_BKF8_H3",\r
72 "L3_BKF8_Temperature",\r
73 "Dipole_Inside_H1",\r
74 "Dipole_Inside_H2",\r
75 "Dipole_Inside_H3",\r
76 "Dipole_Inside_Temperature",\r
77 "Dipole_Outside_H1",\r
78 "Dipole_Outside_H2",\r
79 "Dipole_Outside_H3",\r
80 "Dipole_Outside_Temperature",\r
81 };\r
82\r
83//-----------------------------------------------------------------------------\r
84AliGRPObject::AliGRPObject():\r
85 TObject(),\r
86 fPoints(5),\r
87 fDimension(0),\r
88 fTimeStart((time_t)fgkInvalidFloat),\r
89 fTimeEnd((time_t)fgkInvalidFloat),\r
90 fBeamEnergy(fgkInvalidFloat),\r
91 fBeamType(fgkInvalidString),\r
92 fNumberOfDetectors(fgkInvalidChar),\r
93 fDetectorMask(fgkInvalidUInt),\r
94 fLHCPeriod(fgkInvalidString),\r
95 fRunType(fgkInvalidString),\r
96 fLHCState(fgkInvalidString),\r
97 fLHCLuminosity(new Float_t[fPoints]),\r
98 fLHCLuminositySplineFit(0x0),\r
99 fBeamIntensity(new Float_t[fPoints]),\r
100 fBeamIntensitySplineFit(0x0),\r
101 fL3Polarity(fgkInvalidChar),\r
102 fDipolePolarity(fgkInvalidChar),\r
103 fL3Current(new Float_t[fPoints]),\r
104 fDipoleCurrent(new Float_t[fPoints]),\r
105 fCavernTemperature(new Float_t[fPoints]),\r
106 //fCavernAtmosPressure(new Float_t[fPoints]),\r
107 fCavernAtmosPressure(0x0),\r
108 fSurfaceAtmosPressure(0x0),\r
109 fHallProbes(0x0)\r
110{\r
111\r
112 //\r
113 // AliGRPObject default ctor\r
114 //\r
115\r
116 fDimension = fgknDCSDPHallProbes*fPoints;\r
117 fHallProbes = new Float_t[fDimension];\r
118\r
119 for (Int_t nhp=0; nhp< fDimension; nhp++){\r
120 fHallProbes[nhp] = fgkInvalidFloat;\r
121 }\r
122\r
123 for (Int_t i = 0; i < fPoints; i++){\r
124\r
125 fLHCLuminosity[i] = fgkInvalidFloat;\r
126 fBeamIntensity[i] = fgkInvalidFloat;\r
127 fL3Current[i] = fgkInvalidFloat;\r
128 fDipoleCurrent[i] = fgkInvalidFloat;\r
129 fCavernTemperature[i] = fgkInvalidFloat;\r
130 // fCavernAtmosPressure[i] = fgkInvalidFloat;\r
131 }\r
132}\r
133\r
134//-----------------------------------------------------------------------------\r
135\r
136AliGRPObject::AliGRPObject(const AliGRPObject &obj):\r
137 TObject(),\r
138 fPoints(obj.fPoints),\r
139 fDimension(obj.fDimension),\r
140 fTimeStart(obj.fTimeStart),\r
141 fTimeEnd(obj.fTimeEnd),\r
142 fBeamEnergy(obj.fBeamEnergy),\r
143 fBeamType(obj.fBeamType),\r
144 fNumberOfDetectors(obj.fNumberOfDetectors),\r
145 fDetectorMask(obj.fDetectorMask),\r
146 fLHCPeriod(obj.fLHCPeriod),\r
147 fRunType(obj.fRunType),\r
148 fLHCState(obj.fLHCState),\r
149 fLHCLuminosity(new Float_t[fPoints]),\r
150 fLHCLuminositySplineFit(obj.fLHCLuminositySplineFit),\r
151 fBeamIntensity(new Float_t[fPoints]),\r
152 fBeamIntensitySplineFit(obj.fBeamIntensitySplineFit),\r
153 fL3Polarity(obj.fL3Polarity),\r
154 fDipolePolarity(obj.fDipolePolarity),\r
155 fL3Current(new Float_t[fPoints]),\r
156 fDipoleCurrent(new Float_t[fPoints]),\r
157 fCavernTemperature(new Float_t[fPoints]),\r
39e3007b 158 fCavernAtmosPressure(obj.fCavernAtmosPressure),\r
159 fSurfaceAtmosPressure(obj.fSurfaceAtmosPressure),\r
160 fHallProbes(0x0)\r
161\r
162{\r
163\r
164 //\r
165 // AliGRPObject copy ctor\r
166 //\r
167\r
168 for (Int_t nhp=0; nhp< fDimension; nhp++){\r
169 fHallProbes[nhp] = obj.fHallProbes[nhp];\r
170 }\r
171\r
172 for (Int_t i = 0; i < fPoints; i++){\r
173\r
174 fLHCLuminosity[i] = obj.fLHCLuminosity[i];\r
175 fBeamIntensity[i] = obj.fBeamIntensity[i];\r
176 fL3Current[i] = obj.fL3Current[i];\r
177 fDipoleCurrent[i] = obj.fDipoleCurrent[i];\r
95eb6639 178 fCavernTemperature[i] = obj.fCavernTemperature[i];\r
39e3007b 179 }\r
180}\r
181\r
182//-----------------------------------------------------------------------------\r
183\r
184AliGRPObject& AliGRPObject:: operator=(const AliGRPObject & obj) \r
185{\r
186\r
187 //\r
188 // AliGRPObject assignment operator\r
189 //\r
190\r
191 this->fTimeStart = obj.GetTimeStart();\r
192 this->fTimeEnd = obj.GetTimeEnd();\r
193 this->fBeamEnergy = obj.GetBeamEnergy();\r
194 this->fBeamType = obj.GetBeamType();\r
195 this->fNumberOfDetectors = obj.GetNumberOfDetectors();\r
196 this->fDetectorMask = obj.GetDetectorMask();\r
197 this->fLHCPeriod = obj.GetLHCPeriod();\r
198 this->fRunType = obj.GetRunType();\r
199 this->fLHCState = obj.GetLHCState();\r
200 this->fLHCLuminositySplineFit = obj.GetLHCLuminositySplineFit();\r
201 this->fBeamIntensitySplineFit = obj.GetBeamIntensitySplineFit();\r
202 this->fL3Polarity = obj.GetL3Polarity();\r
203 this->fDipolePolarity = obj.GetDipolePolarity();\r
204 this->fCavernAtmosPressure = obj.GetCavernAtmosPressure();\r
205 this->fSurfaceAtmosPressure = obj.GetSurfaceAtmosPressure();\r
206 this->fPoints = obj.GetPoints();\r
207 this->fDimension = obj.GetDimension();\r
208\r
209 this->fLHCLuminosity = new Float_t[fPoints];\r
210 this->fBeamIntensity = new Float_t[fPoints];\r
211 this->fL3Current = new Float_t[fPoints];\r
212 this->fDipoleCurrent = new Float_t[fPoints];\r
213 this->fCavernTemperature = new Float_t[fPoints];\r
39e3007b 214 \r
215 for (Int_t nhp=0; nhp< fDimension; nhp++){\r
216 this->fHallProbes[nhp] = obj.GetHallProbes(nhp);\r
217\r
218 }\r
219 for (Int_t i = 0; i < fPoints; i++){\r
220\r
39e3007b 221 this->fLHCLuminosity[i] = obj.GetLHCLuminosity((Stats)i);\r
222 this->fBeamIntensity[i] = obj.GetBeamIntensity((Stats)i);\r
223 this->fL3Current[i] = obj.GetL3Current((Stats)i);\r
224 this->fDipoleCurrent[i] = obj.GetDipoleCurrent((Stats)i);\r
225 this->fCavernTemperature[i] = obj.GetCavernTemperature((Stats)i);\r
39e3007b 226 }\r
227\r
228 return *this;\r
229}\r
230\r
231//-----------------------------------------------------------------------------\r
232\r
233AliGRPObject::~AliGRPObject() {\r
234\r
235 //\r
236 // dtor\r
237 //\r
238\r
239 \r
240 delete [] fHallProbes;\r
241 delete [] fLHCLuminosity;\r
242 delete [] fBeamIntensity;\r
243 delete [] fL3Current;\r
244 delete [] fDipoleCurrent;\r
245 delete [] fCavernTemperature;\r
246\r
247 if (fLHCLuminositySplineFit){\r
248 delete fLHCLuminositySplineFit;\r
249 fLHCLuminositySplineFit = 0x0;\r
250 }\r
251 if (fBeamIntensitySplineFit){\r
252 delete fBeamIntensitySplineFit;\r
253 fBeamIntensitySplineFit = 0x0;\r
254 }\r
255 if (fCavernAtmosPressure){\r
256 delete fCavernAtmosPressure;\r
257 fCavernAtmosPressure = 0x0;\r
258 }\r
259 if (fSurfaceAtmosPressure){\r
260 delete fSurfaceAtmosPressure;\r
261 fSurfaceAtmosPressure = 0x0;\r
262 }\r
263}\r
264\r
265//-----------------------------------------------------------------------------\r
a861a1ce 266Float_t* AliGRPObject::GetHallProbesArray(DP_HallProbes hp) const {\r
39e3007b 267\r
268 //\r
269 // method to return array of statistical\r
270 // variables for Hall Probe hp\r
271 //\r
272\r
a861a1ce 273 Float_t* array = new Float_t[fPoints];\r
39e3007b 274 Int_t shift = fPoints*(Int_t)hp; \r
275 for (Int_t i=0;i<fPoints; i++){\r
276\r
277 array[i] = fHallProbes[shift+i];\r
278\r
279 }\r
280\r
281 return array;\r
282}\r
39e3007b 283//-------------------------------------------------------------------------------\r
284\r
285void AliGRPObject::SetHallProbes(DP_HallProbes hp, const Float_t* hall_probe){\r
286\r
287 //\r
288 // method to set hall probe hp \r
289 // from a given array\r
290 //\r
291\r
292 Int_t shift = fPoints*hp;\r
293 for (Int_t i = 0; i< fPoints; i++){\r
294\r
295 fHallProbes[i+shift] = hall_probe[i];\r
296 }\r
297 return;\r
298}\r
299\r
300//-------------------------------------------------------------------------------\r
301\r
302void AliGRPObject::ReadValuesFromMap(const TMap* mapGRP){\r
303\r
304 //\r
305 // method to set the values of the GRP parameters \r
306 // reading them from the old format of the GRP \r
307 // object, i.e. a TMap\r
308 //\r
309\r
310 if (mapGRP->GetValue("fAliceStartTime")){\r
311 SetTimeStart((time_t)(((TObjString*)(mapGRP->GetValue("fAliceStartTime")))->GetString()).Atoi());\r
312 }\r
313 else {\r
314 AliError(Form("No fAliceStartTime value found in GRP map!"));\r
315 }\r
316 if (mapGRP->GetValue("fAliceStopTime")){\r
317 SetTimeEnd((time_t)(((TObjString*)(mapGRP->GetValue("fAliceStopTime")))->GetString()).Atoi());\r
318 }\r
319 \r
320 else { \r
321 AliError(Form("No fAliceStopTime value found in GRP map!"));\r
322 }\r
323\r
324 if(mapGRP->GetValue("fAliceBeamEnergy")){\r
325 SetBeamEnergy((((TObjString*)(mapGRP->GetValue("fAliceBeamEnergy")))->GetString()).Atof());\r
326 }\r
327 else { \r
328 AliError(Form("No fAliceBeamEnergy value found in GRP map!"));\r
329 }\r
330 if(mapGRP->GetValue("fAliceBeamType")){\r
331 SetBeamType(((TObjString*)(mapGRP->GetValue("fAliceBeamType")))->GetString());\r
332 }\r
333 else { \r
334 AliError(Form("No fAliceBeamType value found in GRP map!"));\r
335 }\r
336 if(mapGRP->GetValue("fNumberOfDetectors")){\r
337 SetNumberOfDetectors((Char_t)(((TObjString*)(mapGRP->GetValue("fNumberOfDetectors")))->GetString()).Atoi()); \r
338 }\r
339 else { \r
340 AliError(Form("No fNumberOfDetectors value found in GRP map!"));\r
341 }\r
342 if(mapGRP->GetValue("fDetectorMask")){\r
343 SetDetectorMask((UInt_t)(((TObjString*)(mapGRP->GetValue("fDetectorMask")))->GetString()).Atoi()); \r
344 }\r
345 else { \r
346 AliError(Form("No fDetectorMask value found in GRP map!"));\r
347 }\r
348 if(mapGRP->GetValue("fLHCPeriod")){\r
349 SetLHCPeriod(((TObjString*)(mapGRP->GetValue("fLHCPeriod")))->GetString());\r
350 }\r
351 else { \r
352 AliError(Form("No fLHCPeriod value found in GRP map!"));\r
353 }\r
354 if(mapGRP->GetValue("fRunType")){\r
355 SetRunType(((TObjString*)(mapGRP->GetValue("fRunType")))->GetString());\r
356 }\r
357 else { \r
358 AliError(Form("No fRunType value found in GRP map!"));\r
359 }\r
360 if(mapGRP->GetValue("fLHCState")){\r
361 SetLHCState(((TObjString*)(mapGRP->GetValue("fLHCState")))->GetString());\r
362 }\r
363 else { \r
364 AliError(Form("No fLHCState value found in GRP map!"));\r
365 }\r
366 if(mapGRP->GetValue("fLHCluminosity")){\r
367 AliInfo(Form("fLHCLuminosity found, but porting only average to the new object, since the other values are not available in the old object"));\r
368 SetLHCLuminosity((Float_t)(((TObjString*)(mapGRP->GetValue("fLHCLuminosity")))->GetString()).Atof(),(Stats)0);\r
369 } \r
370 else { \r
371 AliError(Form("No fLHCLuminosity value found in GRP map!"));\r
372 }\r
373 if(mapGRP->GetValue("fBeamIntensity")){\r
374 AliInfo(Form("fBeamIntensity found, but porting only average to the new object, since the other values are not available in the old object"));\r
375 SetBeamIntensity((Float_t)(((TObjString*)(mapGRP->GetValue("fBeamIntensity")))->GetString()).Atof(),(Stats)0);\r
376 } \r
377 else { \r
378 AliError(Form("No fBeamIntensity value found in GRP map!"));\r
379 }\r
380 if(mapGRP->GetValue("fL3Polarity")){\r
381 SetL3Polarity((Char_t)(((TObjString*)(mapGRP->GetValue("fL3Polarity")))->GetString()).Atoi());\r
382 } \r
383 else { \r
384 AliError(Form("No fL3Polarity value found in GRP map!"));\r
385 }\r
386 if(mapGRP->GetValue("fDipolePolarity")){\r
387 SetDipolePolarity((Char_t)(((TObjString*)(mapGRP->GetValue("fDipolePolarity")))->GetString()).Atoi()); \r
388 } \r
389 else { \r
390 AliError(Form("No fDipolePolarity value found in GRP map!"));\r
391 }\r
392 if(mapGRP->GetValue("fL3Current")){\r
393 AliInfo(Form("fL3Current found, but porting only average to the new object, since the other values are not available in the old object"));\r
394 SetL3Current((Float_t)(((TObjString*)(mapGRP->GetValue("fL3Current")))->GetString()).Atof(),(Stats)0);\r
395 } \r
396 else { \r
397 AliError(Form("No fL3Current value found in GRP map!"));\r
398 }\r
399 if(mapGRP->GetValue("fDipoleCurrent")){\r
400 AliInfo(Form("fDipoleCurrent found, but porting only average to the new object, since the other values are not available in the old object"));\r
401 SetDipoleCurrent((Float_t)(((TObjString*)(mapGRP->GetValue("fDipoleCurrent")))->GetString()).Atof(),(Stats)0);\r
402 } \r
403 else { \r
404 AliError(Form("No fDipoleCurrent value found in GRP map!"));\r
405 }\r
406 if(mapGRP->GetValue("fCavernTemperature")){\r
407 AliInfo(Form("fCaverntemperature found, but porting only average to the new object, since the other values are not available in the old object"));\r
408 SetCavernTemperature((Float_t)(((TObjString*)(mapGRP->GetValue("fCavernTemperature")))->GetString()).Atof(),(Stats)0);\r
409 } \r
410 else { \r
411 AliError(Form("No fCavernTemperature value found in GRP map!"));\r
412 }\r
39e3007b 413 if(mapGRP->GetValue("fCavernAtmosPressure")){\r
414 AliInfo(Form("fCavernAtmosPressure found, but not ported to the new object since of a different type"));\r
415 } \r
416 else { \r
417 AliError(Form("No fCavernAtmosPressure value found in GRP map!"));\r
418 }\r
419 if(mapGRP->GetValue("fP2Pressure")){\r
420 SetSurfaceAtmosPressure((AliDCSSensor*)((TObjString*)(mapGRP->GetValue("fP2Pressure"))));\r
421 }\r
422 else { \r
423 AliError(Form("No fP2Pressure value found in GRP map!"));\r
424 }\r
425 \r
426 return;\r
427\r
428}\r