BOSS 7.0.6
BESIII Offline Software System
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BesGlobalTrigSvc.h
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1#ifndef BesGlobalTrigSvc_h
2#define BesGlobalTrigSvc_h 1
3
5#include "GaudiKernel/Service.h"
6#include <vector>
7#include <map>
8#include <complex>
9#include <fstream>
10
11#include "GaudiKernel/IIncidentListener.h"
14#include "Trigger/TrigPara.h"
15
16using namespace std;
17
18class IDataProviderSvc;
19class BesMdcTrig;
20class BesEmcTrig;
21class BesTofTrig;
22class BesMucTrig;
23class BesTMTrig;
24
25class BesGlobalTrigSvc: public Service,
26 virtual public IIncidentListener,
27 virtual public IBesGlobalTrigSvc {
28public:
29 BesGlobalTrigSvc(const std::string& name, ISvcLocator* svc);
30 virtual ~BesGlobalTrigSvc();
31public:
32 virtual StatusCode queryInterface( const InterfaceID& riid,
33 void** ppvInterface);
34 /// Initialise the service (Inherited Service overrides)
35 virtual StatusCode initialize();
36 /// Finalise the service.
37 virtual StatusCode finalize();
38 // Incident handler
39 void handle(const Incident&);
40
41 void startMdcTrig();
42 void startTofTrig();
43 void startEmcTrig();
44 void startTMTrig();
45
46 StatusCode GlobalTrig();
47
48 inline void setEvtTime(double i) { m_evttime = i; };
49 inline double getEvtTime() { return m_evttime; }
50
51 inline void setGoodEvent(bool i) { m_goodEvent = i; };
52 inline bool getGoodEvent() { return m_goodEvent; };
53 //set trigger conditions
54 StatusCode setTrigCondition();
55
56 //values controled in jobOptions
57 inline double getL1TC_GATE() { return L1TC_GATE; }
58 inline double getL1TC_THRESH() { return L1TC_THRESH; }
59 inline int getL1ETOT_L_Peak() { return L1ETOT_L_Peak; }
60 inline int getL1ETOT_L_Sigma() { return L1ETOT_L_Sigma; }
61 inline int getL1ETOT_M_Peak() { return L1ETOT_M_Peak; }
62 inline int getL1ETOT_M_Sigma() { return L1ETOT_M_Sigma; }
63 inline int getL1ETOT_BR_Peak() { return L1ETOT_BR_Peak; }
64 inline int getL1ETOT_BR_Sigma() { return L1ETOT_BR_Sigma; }
65 inline int getL1ETOT_EC_Peak() { return L1ETOT_EC_Peak; }
66 inline int getL1ETOT_EC_Sigma() { return L1ETOT_EC_Sigma; }
67 inline int getL1EBL_Z_Peak() { return L1EBL_Z_Peak; }
68 inline int getL1EBL_Z_Sigma() { return L1EBL_Z_Sigma; }
69 int getL1ETOT_L();
70 int getL1ETOT_M();
71 int getL1ETOT_BR();
72 int getL1ETOT_EC();
73 int getL1EBL_BR();
74 int getL1EBL_EC();
75 int getL1EDIFF_BR();
76 int getL1EDIFF_EC();
77 int getL1BLK_GATE();
78 int getL1EBL_Z();
79
80 inline int getMAXMDCTRACK() { return MAXMDCTRACK; }
81 inline double getEnergy_Ratio() { return Energy_Ratio; }
82
83 inline double getBarrelGate() { return emcBarrelGate; }
84 inline double getEndGate() { return emcEndGate; }
85 inline int getTofLayerControl() { return m_tofLayer; }
86
87 //interface of the trigger channels in each event
88 const int getTrigChan(int i) { return m_trigChannel[i]; }
89 const int* getTrigChan() const { return m_trigChannel; }
90
91 inline void setTrigChan(int i, int j) { m_trigChannel[i] = j; }
92
93 //interface to get trigger conditions in each events
94 const int getTrigCond(int i) { return m_trigCondition[i]; }
95 const int* getTrigCond() const { return m_trigCondition; }
96
97 inline void setTrigCond(int i, bool j) {
98 trigCond[i] = j;
99 if(j) m_trigCondition[i] = 1;
100 else m_trigCondition[i] = 0;
101 }
102
103 //set L1 signal
104 inline void setIfpass(bool i) { ifpass = i; }
105 //get L1 signal
106 inline bool getIfpass() { return ifpass; }
107
108 //set run mode
109 inline void setRunMode(int mode) { m_runMode = mode; }
110 //get run mode
111 inline int getRunMode() { return m_runMode; }
112
113 //set MDC information
114 //set MDC trigger conditions
115 inline void setSTrk_BB(bool i) { mdc_STrk_BB = i; }
116 inline void setNStrkN(bool i) { mdc_NStrkN = i; }
117 inline void setNStrk2(bool i) { mdc_NStrk2 = i; }
118 inline void setNStrk1(bool i) { mdc_NStrk1 = i; }
119 inline void setLTrk_BB(bool i) { mdc_LTrk_BB = i; }
120 inline void setNLtrkN(bool i) { mdc_NLtrkN = i; }
121 inline void setNLtrk2(bool i) { mdc_NLtrk2 = i; }
122 inline void setNLtrk1(bool i) { mdc_NLtrk1 = i; }
123 inline void setNItrk1(bool i) { mdc_NItrk1 = i; }
124 inline void setNItrk2(bool i) { mdc_NItrk2 = i; }
125
126 //set other information of MDC
127 inline void setMdcStrkId(std::vector<int> i) { mdcStrkId = i; }
128 inline void setMdcLtrkId(std::vector<int> i) { mdcLtrkId = i; }
129
130 //get MDC information
131 //get MDC trigger conditions
132 inline bool getSTrk_BB() { return mdc_STrk_BB; }
133 inline bool getNStrkN() { return mdc_NStrkN; }
134 inline bool getNStrk2() { return mdc_NStrk2; }
135 inline bool getNStrk1() { return mdc_NStrk1; }
136 inline bool getLTrk_BB() { return mdc_LTrk_BB; }
137 inline bool getNLtrkN() { return mdc_NLtrkN; }
138 inline bool getNLtrk2() { return mdc_NLtrk2; }
139 inline bool getNLtrk1() { return mdc_NLtrk1; }
140 inline bool getNItrk1() { return mdc_NItrk1; }
141 inline bool getNItrk2() { return mdc_NItrk2; }
142 //get other information in MDC
143 inline std::vector<int> getMdcStrkId() { return mdcStrkId; }
144 inline std::vector<int> getMdcLtrkId() { return mdcLtrkId; }
145
146 //set TOF information
147 //set TOF trigger conditions
148 inline void setETofBB(bool i) { tof_ETofBB = i; }
149 inline void setBTofBB(bool i) { tof_BTofBB = i; }
150 inline void setNETof2(bool i) { tof_NETof2 = i; }
151 inline void setNETof1(bool i) { tof_NETof1 = i; }
152 inline void setNBTof2(bool i) { tof_NBTof2 = i; }
153 inline void setNBTof1(bool i) { tof_NBTof1 = i; }
154 inline void setNTof1(bool i) { tof_NTof1 = i; }
155
156 //set other information of TOF
157 inline void setTofHitPos(map<int,vector<int>,greater<int> > i) { tofHitPos = i; }
158 inline void setBTofHitMap(vector<int> i) { btofHitMap = i; }
159 inline void setETofHitMap(vector<int> i) { etofHitMap = i; }
160
161 //get TOF information
162 //get TOF trigger conditions
163 inline bool getNBTof1() { return tof_NBTof1; }
164 inline bool getNBTof2() { return tof_NBTof2; }
165 inline bool getNETof1() { return tof_NETof1; }
166 inline bool getNETof2() { return tof_NETof2; }
167 inline bool getNTof1() { return tof_NTof1; }
168 inline bool getBTofBB() { return tof_BTofBB; }
169 inline bool getETofBB() { return tof_ETofBB; }
170
171 //get other information in TOF
172 inline map<int,vector<int>,greater<int> > getTofHitPos() { return tofHitPos; }
173 inline vector<int> getBTofHitMap() { return btofHitMap; }
174 inline vector<int> getETofHitMap() { return etofHitMap; }
175
176 //set EMC information
177 //set trigger conditions
178 inline void setNClus1(bool i) { emc_NClus1 = i; }
179 inline void setNClus2(bool i) { emc_NClus2 = i; }
180 inline void setNBClus1(bool i) { emc_NBClus1 = i; }
181 inline void setNEClus1(bool i) { emc_NEClus1 = i; }
182 inline void setBClusBB(bool i) { emc_BClusBB = i; }
183 inline void setEClusBB(bool i) { emc_EClusBB = i; }
184 inline void setClus_Z(bool i) { emc_Clus_Z = i; }
185 inline void setBClus_PHI(bool i) { emc_BClus_PHI = i; }
186 inline void setEClus_PHI(bool i) { emc_EClus_PHI = i; }
187 inline void setBEtot_H(bool i) { emc_BEtot_H = i; }
188 inline void setEEtot_H(bool i) { emc_EEtot_H = i; }
189 inline void setEtot_L(bool i) { emc_Etot_L = i; }
190 inline void setEtot_M(bool i) { emc_Etot_M = i; }
191 inline void setBL_Z(bool i) { emc_BL_Z = i; }
192 inline void setDiff_B(bool i) { emc_Diff_B = i; }
193 inline void setDiff_E(bool i) { emc_Diff_E = i; }
194 inline void setBL_BBLK(bool i) { emc_BL_BBLK = i; }
195 inline void setBL_EBLK(bool i) { emc_BL_EBLK = i; }
196
197 //set other information of EMC
198 inline void setEmcNbCluster(int i) { emcNbCluster = i; }
199 inline void setEmcNweCluster(int i) { emcNweCluster = i; }
200 inline void setEmcNeeCluster(int i) { emcNeeCluster = i; }
201 inline void setEmcTotE(double i) { emcTotE = i; }
202 inline void setEmcLTotE(double i) { emcLTotE = i; }
203 inline void setEmcRTotE(double i) { emcRTotE = i; }
204 inline void setEmcBTotE(double i) { emcBTotE = i; }
205 inline void setEmcETotE(double i) { emcETotE = i; }
206 inline void setEmcLBTotE(double i) { emcLBTotE = i; }
207 inline void setEmcRBTotE(double i) { emcRBTotE = i; }
208 inline void setEmcWETotE(double i) { emcWETotE = i; }
209 inline void setEmcEETotE(double i) { emcEETotE = i; }
210 inline void setBTCEnergy(int theta, int phi, double energy) { emcBTCEnergy[theta][phi] = energy; }
211 inline void setWETCEnergy(int theta, int phi, double energy) { emcWETCEnergy[theta][phi] = energy; }
212 inline void setEETCEnergy(int theta, int phi, double energy) { emcEETCEnergy[theta][phi] = energy; }
213 inline void setEmcBlockE(std::vector<double> i) { emcBlockE = i; }
214 inline void setEmcClusId(map<int,vector<complex<int> >, greater<int> > i) { emcClusId = i; }
215 inline void setEmcClusE(std::vector<double> i) { emcClusE = i; }
216
217 //get EMC information
218 //get EMC trigger conditions
219 inline bool getNClus1() { return emc_NClus1; }
220 inline bool getNClus2() { return emc_NClus2; }
221 inline bool getNBClus1() { return emc_NBClus1; }
222 inline bool getNEClus1() { return emc_NEClus1; }
223 inline bool getBClusBB() { return emc_BClusBB; }
224 inline bool getEClusBB() { return emc_EClusBB; }
225 inline bool getClus_Z() { return emc_Clus_Z; }
226 inline bool getBClus_PHI() { return emc_BClus_PHI; }
227 inline bool getEClus_PHI() { return emc_EClus_PHI; }
228 inline bool getBEtot_H() { return emc_BEtot_H; }
229 inline bool getEEtot_H() { return emc_EEtot_H; }
230 inline bool getEtot_L() { return emc_Etot_L; }
231 inline bool getEtot_M() { return emc_Etot_M; }
232 inline bool getBL_Z() { return emc_BL_Z; }
233 inline bool getDiff_B() { return emc_Diff_B; }
234 inline bool getDiff_E() { return emc_Diff_E; }
235 inline bool getBL_BBLK() { return emc_BL_BBLK; }
236 inline bool getBL_EBLK() { return emc_BL_EBLK; }
237
238 //get other information of EMC
239 inline std::vector<double>& getEmcBlockE() { return emcBlockE; };
240 inline int getEmcNbCluster() { return emcNbCluster; }
241 inline int getEmcNweCluster() { return emcNweCluster; }
242 inline int getEmcNeeCluster() { return emcNeeCluster; }
243 inline double getEmcTotE() { return emcTotE; }
244 inline double getEmcLTotE() { return emcLTotE; }
245 inline double getEmcRTotE() { return emcRTotE; }
246 inline double getEmcBTotE() { return emcBTotE; }
247 inline double getEmcETotE() { return emcETotE; }
248 inline double getEmcLBTotE() { return emcLBTotE; }
249 inline double getEmcRBTotE() { return emcRBTotE; }
250 inline double getEmcWETotE() { return emcWETotE; }
251 inline double getEmcEETotE() { return emcEETotE; }
252 inline double getBTCEnergy(int theta, int phi) { return emcBTCEnergy[theta][phi]; }
253 inline double getWETCEnergy(int theta, int phi) { return emcWETCEnergy[theta][phi]; }
254 inline double getEETCEnergy(int theta, int phi) { return emcEETCEnergy[theta][phi]; }
255 inline map<int,vector<complex<int> >,greater<int> > getEmcClusId() { return emcClusId; }
256 inline std::vector<double> getEmcClusE() { return emcClusE; }
257
258 //set Muc information
259 //set Muc trigger conditions
260 inline void setMucBB3478(bool i) { muc_BB3478 = i; }
261 inline void setMucBB37(bool i) { muc_BB37 = i; }
262
263 //set other Muc infor.
264 inline void setMucIndex(std::vector<int> i) { muc_index = i; }
265 inline void setMucNtrackBR(int i) { muc_ntrackBR = i; }
266 inline void setMucNtrackEC(int i) { muc_ntrackEC = i; }
267 inline void setMucN3ltrackTotal(int i) { muc_n3ltracktotal = i; }
268
269 //get Muc information
270 //get Muc trigger conditions
271 inline bool getMucBB3478() { return muc_BB3478; }
272 inline bool getMucBB37() { return muc_BB37; }
273
274 //get other Muc infor.
275 inline std::vector<int> getMuclayerSeg() { return muc_vlayerSeg; }
276 inline std::vector<int> getMuchitLayer() { return muc_vhitLayer; }
277 inline std::vector<int> getMuchitSeg() { return muc_vhitSeg; }
278 inline std::vector<int> getMucIndex() { return muc_index; }
279 inline int getMucNhitEE() { return muc_nhitEE; }
280 inline int getMucNhitBR() { return muc_nhitBR; }
281 inline int getMucNhitWE() { return muc_nhitWE; }
282 inline int getMucNhitTotal() { return muc_nhitTotal; }
283 inline int getMucNlayerBR() { return muc_nlayerBR; }
284 inline int getMucNlayerWE() { return muc_nlayerWE; }
285 inline int getMucNlayerEE() { return muc_nlayerEE; }
286 inline int getMucNtrackBR() { return muc_ntrackBR; }
287 inline int getMucNtrackEC() { return muc_ntrackEC; }
288 inline int getMucN3ltrackTotal() { return muc_n3ltracktotal; }
289
290 //set track match trigger conditions
291 inline void setTMNATrk1(bool i) { tm_NATrk1 = i; }
292 inline void setTMNATrk2(bool i) { tm_NATrk2 = i; }
293 inline void setTMATrkBB(bool i) { tm_ATrk_BB = i; }
294 inline void setTMNBTrk1(bool i) { tm_NBTrk1 = i; }
295 inline void setTMNBTrk2(bool i) { tm_NBTrk2 = i; }
296 inline void setTMBTrkBB(bool i) { tm_BTrk_BB = i; }
297 inline void setTMNCTrk1(bool i) { tm_NCTrk1 = i; }
298 inline void setTMNCTrk2(bool i) { tm_NCTrk2 = i; }
299 inline void setTMCTrkBB(bool i) { tm_CTrk_BB = i; }
300
301 //get track match trigger conditions
302 inline bool getTMNATrk1() { return tm_NATrk1; }
303 inline bool getTMNATrk2() { return tm_NATrk2; }
304 inline bool getTMATrkBB() { return tm_ATrk_BB; }
305 inline bool getTMNBTrk1() { return tm_NBTrk1; }
306 inline bool getTMNBTrk2() { return tm_NBTrk2; }
307 inline bool getTMBTrkBB() { return tm_BTrk_BB; }
308 inline bool getTMNCTrk1() { return tm_NCTrk1; }
309 inline bool getTMNCTrk2() { return tm_NCTrk2; }
310 inline bool getTMCTrkBB() { return tm_CTrk_BB; }
311
312 //get endcap track match mode
313 inline int getEndCapMode() { return tm_endcap; }
314
315private:
316 BesMdcTrig* m_MdcTrig;
317 BesTofTrig* m_TofTrig;
318 BesEmcTrig* m_EmcTrig;
319 BesMucTrig* m_MucTrig;
320 BesTMTrig* m_TMTrig;
321
322 std::vector<int> trigOut;
323
324 std::vector<std::string> trigChannel;
325 std::vector<std::string> trigCondName;
326 std::vector<std::string> trigTable;
327 std::vector<int> channelNo;
328
329 double m_evttime;
330
331 bool m_goodEvent;
332
333 //MDC
334 //MDC trigger conditions
335 bool mdc_STrk_BB,mdc_NStrkN,mdc_NStrk2,mdc_NStrk1;
336 bool mdc_LTrk_BB,mdc_NLtrkN,mdc_NLtrk2,mdc_NLtrk1;
337 bool mdc_NItrk1,mdc_NItrk2;
338
339 //Other variables in MDC
340 std::vector<int> mdcStrkId;
341 std::vector<int> mdcLtrkId;
342
343 //TOF
344 //TOF trigger conditions
345 bool tof_NBTof1,tof_NBTof2,tof_NETof1,tof_NETof2,tof_NTof1;
346 bool tof_BTofBB,tof_ETofBB;
347 //Other variables in TOF
348 map<int,vector<int>,greater<int> > tofHitPos;
349 std::vector<int> btofHitMap;
350 std::vector<int> etofHitMap;
351
352 //EMC
353 //EMC trigger conditions
354 bool emc_NClus1, emc_NClus2, emc_NBClus1, emc_NEClus1, emc_BClusBB,emc_EClusBB,emc_Clus_Z,emc_BClus_PHI;
355 bool emc_EClus_PHI,emc_BEtot_H,emc_EEtot_H,emc_Etot_L,emc_Etot_M,emc_BL_Z;
356 bool emc_Diff_B,emc_Diff_E,emc_BL_BBLK,emc_BL_EBLK;
357
358 //Other variables in EMC
359 double emcBarrelGate, emcEndGate;
360 double emcTotE,emcLTotE,emcRTotE,emcBTotE,emcETotE,emcLBTotE,emcRBTotE,emcWETotE,emcEETotE;
361 int emcNbCluster,emcNweCluster,emcNeeCluster;
362 std::vector<double> emcBlockE;
363 std::vector<double> emcClusE;
364 map<int,vector<complex<int> >, greater<int> > emcClusId;
365 double emcBTCEnergy[TrigConf::TCTHETANO_B][TrigConf::TCPHINO_B];
366 double emcWETCEnergy[TrigConf::TCTHETANO_E][TrigConf::TCPHINO_E];
367 double emcEETCEnergy[TrigConf::TCTHETANO_E][TrigConf::TCPHINO_E];
368
369 //muc
370 //MUC trigger conditions
371 bool muc_BB3478, muc_BB37;
372
373 //Other variables in MUC
374 int muc_nhitEE, muc_nhitBR, muc_nhitWE, muc_nhitTotal;
375 int muc_nlayerBR, muc_nlayerWE, muc_nlayerEE;
376 int muc_ntrackBR, muc_ntrackEC;
377 int muc_n3ltracktotal;
378 std::vector<int> muc_vlayerSeg;
379 std::vector<int> muc_vhitLayer;
380 std::vector<int> muc_vhitSeg;
381 std::vector<int> muc_index;
382
383 //Track match
384 //TM trigger conditions
385 bool tm_NATrk1, tm_NATrk2, tm_ATrk_BB, tm_NBTrk1, tm_NBTrk2, tm_BTrk_BB, tm_NCTrk1, tm_NCTrk2, tm_CTrk_BB;
386
387 //trigger lines which can trigger events
388 std::vector<std::string> vTrigLine;
389
390 //trigger condition status in each events
391 std::vector<int> vTrigCond;
392
393 //trigger condition Id, from 0--47
394 bool trigCond[48];
395
396 //trigger data which need to be registered to TDS
397 int m_trigCondition[48];
398 int m_trigChannel[16];
399
400 //L1 signal
401 bool ifpass;
402
403 //run mode
404 int m_runMode;
405 int m_tofLayer;
406 std::string trigTableFile;
407
408 //property
409 double L1TC_GATE;
410 double L1TC_THRESH;
411 int L1ETOT_L;
412 int L1ETOT_L_Peak;
413 int L1ETOT_L_Sigma;
414 int L1ETOT_M;
415 int L1ETOT_M_Peak;
416 int L1ETOT_M_Sigma;
417 int L1ETOT_BR;
418 int L1ETOT_BR_Peak;
419 int L1ETOT_BR_Sigma;
420 int L1ETOT_EC;
421 int L1ETOT_EC_Peak;
422 int L1ETOT_EC_Sigma;
423 int L1EBL_BR;
424 int L1EBL_EC;
425 int L1EDIFF_BR;
426 int L1EDIFF_EC;
427 int L1BLK_GATE;
428 int L1EBL_Z;
429 int L1EBL_Z_Peak;
430 int L1EBL_Z_Sigma;
431 int MAXMDCTRACK;
432 double Energy_Ratio;
433 //endcap track match 0: MDC&TOF; 1: MDC&TOF&EMC
434 int tm_endcap;
435
436 // Reference to RealizationSvc
437 RealizationSvc* m_RealizationSvc;
438
439 static const std::string COND_NAME[48]; //The name of each trigger condition
440};
441#endif
************Class m_ypar INTEGER m_KeyWgt INTEGER m_KeyIHVP INTEGER m_KeyGPS INTEGER m_IsBeamPolarized INTEGER m_EvtGenInterface DOUBLE PRECISION m_Emin DOUBLE PRECISION m_sphot DOUBLE PRECISION m_Xenph DOUBLE PRECISION m_q2 DOUBLE PRECISION m_PolBeam2 DOUBLE PRECISION m_xErrPb *COMMON c_KK2f $ !CMS energy average $ !Spin Polarization vector first beam $ !Spin Polarization vector second beam $ !Beam energy spread[GeV] $ !minimum hadronization energy[GeV] $ !input READ never touch them !$ !debug facility $ !maximum weight $ !inverse alfaQED $ !minimum real photon energy
Definition: KK2f.h:50
void setEmcNbCluster(int i)
void setEvtTime(double i)
void setBTCEnergy(int theta, int phi, double energy)
void setBL_BBLK(bool i)
std::vector< int > getMucIndex()
void setBEtot_H(bool i)
void setEmcBTotE(double i)
void setNETof2(bool i)
void setDiff_B(bool i)
void setEmcClusE(std::vector< double > i)
void setEmcClusId(map< int, vector< complex< int > >, greater< int > > i)
void setNETof1(bool i)
StatusCode GlobalTrig()
void setTrigCond(int i, bool j)
void setTMNCTrk1(bool i)
void setEmcETotE(double i)
void setETofBB(bool i)
void setNStrk1(bool i)
virtual StatusCode initialize()
Initialise the service (Inherited Service overrides)
void setIfpass(bool i)
void setNLtrkN(bool i)
void setNItrk1(bool i)
void setTMNCTrk2(bool i)
void setEmcTotE(double i)
void setTMNATrk1(bool i)
void setEmcRBTotE(double i)
void setETofHitMap(vector< int > i)
map< int, vector< complex< int > >, greater< int > > getEmcClusId()
void setEmcEETotE(double i)
void setNLtrk1(bool i)
std::vector< int > getMdcLtrkId()
void setBL_EBLK(bool i)
const int getTrigCond(int i)
void setNClus1(bool i)
void setMucNtrackBR(int i)
double getEETCEnergy(int theta, int phi)
void setMucBB3478(bool i)
void setNBTof1(bool i)
void setNStrkN(bool i)
void setBTofBB(bool i)
std::vector< double > getEmcClusE()
void setNStrk2(bool i)
void setEmcNweCluster(int i)
void setEmcRTotE(double i)
void setNBTof2(bool i)
void setTMNATrk2(bool i)
void setEClus_PHI(bool i)
std::vector< int > getMdcStrkId()
void setNLtrk2(bool i)
double getBTCEnergy(int theta, int phi)
std::vector< int > getMuchitLayer()
std::vector< double > & getEmcBlockE()
void setEmcLTotE(double i)
void setMucNtrackEC(int i)
void setMucBB37(bool i)
void setEmcNeeCluster(int i)
void setEClusBB(bool i)
void setEEtot_H(bool i)
void setNClus2(bool i)
void setBClus_PHI(bool i)
vector< int > getBTofHitMap()
void setNItrk2(bool i)
vector< int > getETofHitMap()
std::vector< int > getMuchitSeg()
void setTrigChan(int i, int j)
void setBTofHitMap(vector< int > i)
virtual StatusCode finalize()
Finalise the service.
void handle(const Incident &)
void setEETCEnergy(int theta, int phi, double energy)
void setSTrk_BB(bool i)
const int getTrigChan(int i)
void setDiff_E(bool i)
void setMucIndex(std::vector< int > i)
void setWETCEnergy(int theta, int phi, double energy)
double getEnergy_Ratio()
void setTMATrkBB(bool i)
map< int, vector< int >, greater< int > > getTofHitPos()
virtual StatusCode queryInterface(const InterfaceID &riid, void **ppvInterface)
double getWETCEnergy(int theta, int phi)
StatusCode setTrigCondition()
void setBL_Z(bool i)
void setMdcStrkId(std::vector< int > i)
void setNBClus1(bool i)
void setMucN3ltrackTotal(int i)
void setEtot_M(bool i)
void setMdcLtrkId(std::vector< int > i)
void setEtot_L(bool i)
void setEmcBlockE(std::vector< double > i)
void setTMNBTrk1(bool i)
void setTMCTrkBB(bool i)
void setEmcLBTotE(double i)
std::vector< int > getMuclayerSeg()
void setLTrk_BB(bool i)
void setClus_Z(bool i)
const int * getTrigChan() const
const int * getTrigCond() const
void setBClusBB(bool i)
void setTofHitPos(map< int, vector< int >, greater< int > > i)
void setGoodEvent(bool i)
void setRunMode(int mode)
void setNEClus1(bool i)
void setEmcWETotE(double i)
void setTMNBTrk2(bool i)
void setTMBTrkBB(bool i)
void setNTof1(bool i)