CGEM BOSS 6.6.5.f
BESIII Offline Software System
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RootCnvSvc-04-01-15/src/Hlt/HltInfCnv.cxx
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1#ifndef HltInfCnv_CXX
2#define HltInfCnv_CXX 1
3
4#include "GaudiKernel/MsgStream.h"
5#include "GaudiKernel/DataObject.h"
6
7#include "TClonesArray.h"
8
9#include "EventModel/EventModel.h"
10#include "Identifier/HltID.h"
11#include "HltEvent/HltEvent.h" //TDS object
12#include "HltEvent/HltInf.h" //TDS object
13#include "RootEventData/THltEvent.h" // standard root object
14#include "RootEventData/THltInf.h" // standard root object
15#include "RootCnvSvc/Hlt/HltCnv.h"
16#include "RootCnvSvc/Hlt/HltInfCnv.h"
17#include "RootCnvSvc/RootAddress.h"
18
19
20// Instantiation of a static factory class used by clients to create
21// instances of this service
22
23HltInfCnv::HltInfCnv(ISvcLocator* svc)
24 : RootEventBaseCnv(classID(), svc),
25 m_old(false)
26{
27 // Here we associate this converter with the /Event path on the TDS.
28 MsgStream log(msgSvc(), "HltInfCnv");
29 //log << MSG::DEBUG << "Constructor called for " << objType() << endreq;
30 m_rootBranchname ="m_hltInf";
31 //declareObject(EventModel::MC::HltInf, objType(), m_rootTreename, m_rootBranchname);
32 m_adresses.push_back(&m_hltInf);
33 m_hltInf=0;
34}
35
36StatusCode HltInfCnv::TObjectToDataObject(DataObject*& refpObject) {
37 // creation of TDS object from root object
38
39 MsgStream log(msgSvc(), "HltInfCnv");
40 log << MSG::DEBUG << "HltInfCnv::TObjectToDataObject" << endreq;
41 StatusCode sc=StatusCode::SUCCESS;
42
43 // create the TDS location for the trigger data
44 HltInf* hltInfTds = new HltInf;
45 refpObject=hltInfTds;
46
47 // now convert
48 if(!m_hltInf) return sc;
49
50 int evt = m_hltInf->getEventType();
51 int alg = m_hltInf->getAlgProcess();
52 int cri = m_hltInf->getCriteriaTable();
53 int ver = m_hltInf->getVersion();
54 float etot = m_hltInf->getTotalEnergy();
55 hltInfTds->setEventType(evt);
56 hltInfTds->setAlgProcess(alg);
57 hltInfTds->setCriteriaTable(cri);
58 hltInfTds->setVersion(ver);
59 hltInfTds->setTotalEnergy(etot);
60
61 try{
62 uint32_t nsub= m_hltInf->getNumber();
63 uint32_t ncon= m_hltInf->getNCON();
64 uint32_t nmdc= nsub &0XFF;
65 uint32_t ntof=(nsub>>8 )&0XFF;
66 uint32_t nemc=(nsub>>16)&0XFF;
67 uint32_t nmuc=(nsub>>24)&0XFF;
68 uint32_t ncgem= nsub>>32;
69 if(nmuc>HltID::getID_MUC_MAX()+1 || nemc>HltID::getID_EMC_MAX()+1
70 ||ntof>HltID::getID_TOF_MAX()+1 || nmdc>HltID::getID_MDC_MAX()+1
71 || ncgem>HltID::getID_CGEM_MAX()+1){
72 throw exception();
73 }
74 hltInfTds->setNumber(nsub);
75 hltInfTds->setNCON(ncon);
76
77 std::vector<Int_t> mdcRoot=m_hltInf->getMdcData();
78 if(mdcRoot.size()!=nmdc) {
79 throw exception();
80 }
81 std::vector<Int_t>::iterator it=mdcRoot.begin();
82 for(;it!=mdcRoot.end();it++){
83 uint32_t data=*it;
84 hltInfTds->push_mdc(data);
85 }
86 std::vector<Int_t> cgemRoot=m_hltInf->getCgemData();
87 if(cgemRoot.size()!=ncgem) {
88 throw exception();
89 }
90 it=cgemRoot.begin();
91 for(;it!=cgemRoot.end();it++){
92 uint32_t data=*it;
93 hltInfTds->push_cgem(data);
94 }
95 std::vector<Int_t> tofRoot=m_hltInf->getTofData();
96 if(tofRoot.size()!=ntof) {
97 throw exception();
98 }
99 it=tofRoot.begin();
100 for(;it!=tofRoot.end();it++){
101 uint32_t data=*it;
102 hltInfTds->push_tof(data);
103 }
104 std::vector<Int_t> emcRoot=m_hltInf->getEmcData();
105 if(emcRoot.size()!=nemc) {
106 throw exception();
107 }
108 it=emcRoot.begin();
109 for(;it!=emcRoot.end();it++){
110 uint32_t data=*it;
111 hltInfTds->push_emc(data);
112 }
113 std::vector<Int_t> mucRoot=m_hltInf->getMucData();
114 if(mucRoot.size()!=nmuc) {
115 throw exception();
116 }
117 it=mucRoot.begin();
118 for(;it!=mucRoot.end();it++){
119 uint32_t data=*it;
120 hltInfTds->push_muc(data);
121 }
122 std::vector<Int_t> conRoot=m_hltInf->getConData();
123 if(conRoot.size()!=ncon) {
124 throw exception();
125 }
126 it=conRoot.begin();
127 for(;it!=conRoot.end();it++){
128 uint32_t data=*it;
129 hltInfTds->push_con(data);
130 }
131 }
132 catch(...){
133 //log << MSG::ERROR << "***********************************************************" << endreq;
134 //log << MSG::ERROR << "Input ROOT object is older version, please reconstrut again" << endreq;
135 //log << MSG::ERROR << " or check out old RootCnvSvc! (mailto: [email protected])" << endreq;
136 //log << MSG::WARNING << "***** Continuing run may cause a little memory leakage ****" << endreq;
137 //m_old=true;
138 }
139
140 delete m_hltInf;
141 m_hltInf = 0;
142
143 return StatusCode::SUCCESS;
144}
145
146StatusCode HltInfCnv::DataObjectToTObject(DataObject* obj,RootAddress* rootaddr) {
147
148 MsgStream log(msgSvc(), "HltInfCnv");
149 log << MSG::DEBUG << "HltInfCnv::DataObjectToTObject" << endreq;
150 StatusCode sc=StatusCode::SUCCESS;
151
152 HltInf * hltInfCnvTds=dynamic_cast<HltInf*> (obj);
153 if (!hltInfCnvTds) {
154 log << MSG::ERROR << "Could not downcast to HltInf" << endreq;
155 return StatusCode::FAILURE;
156 }
157
158 DataObject *evt;
159 m_eds->findObject(EventModel::Hlt::Event,evt);
160 if (evt==NULL) {
161 log << MSG::ERROR << "Could not get HltInf in TDS " << endreq;
162 return StatusCode::FAILURE;
163 }
164
165 HltEvent * devtTds=dynamic_cast<HltEvent *> (evt);
166 if (!devtTds) {
167 log << MSG::ERROR << "HltInfCnv:Could not downcast to TDS HltInf" << endreq;
168 }
169
170 IOpaqueAddress *addr;
171 m_cnvSvc->getHltCnv()->createRep(evt,addr);
172
174
175 const TObject *tHltInf = hltInf->getHltInf();
176 if (!tHltInf) return sc;
177 hltInf->clearHltInf();
178
179 Int_t type = hltInfCnvTds->getEventType();
180 Int_t alg = hltInfCnvTds->getAlgProcess();
181 Int_t cri = hltInfCnvTds->getCriteriaTable();
182 Int_t ver = hltInfCnvTds->getVersion();
183 Double_t etot = hltInfCnvTds->getTotalEnergy();
184 Int_t nsub = hltInfCnvTds->getNumber();
185 Int_t ncon = hltInfCnvTds->getNCON();
186
187 THltInf *hltInfRoot = new THltInf();
188
189 hltInfRoot->setEventType(type);
190 hltInfRoot->setAlgProcess(alg);
191 hltInfRoot->setCriteriaTable(cri);
192 hltInfRoot->setVersion(ver);
193 hltInfRoot->setTotalEnergy(etot);
194 hltInfRoot->setNumber(nsub);
195 hltInfRoot->setNCON(ncon);
196
197
198 std::vector<uint32_t> mdcTds=hltInfCnvTds->getDataVec(HltID::MDC);
199 std::vector<Int_t> mdcRoot;
200 std::vector<uint32_t>::iterator it= mdcTds.begin();
201 for(;it!=mdcTds.end();it++){
202 Int_t data=*it;
203 mdcRoot.push_back(data);
204 }
205 hltInfRoot->setMdcData(mdcRoot);
206
207 std::vector<uint32_t> cgemTds=hltInfCnvTds->getDataVec(HltID::CGEM);
208 std::vector<Int_t> cgemRoot;
209 it= cgemTds.begin();
210 for(;it!=cgemTds.end();it++){
211 Int_t data=*it;
212 cgemRoot.push_back(data);
213 }
214 hltInfRoot->setCgemData(cgemRoot);
215
216 std::vector<uint32_t> tofTds=hltInfCnvTds->getDataVec(HltID::TOF);
217 std::vector<Int_t> tofRoot;
218 for(it= tofTds.begin();it!=tofTds.end();it++){
219 Int_t data=*it;
220 tofRoot.push_back(data);
221 }
222 hltInfRoot->setTofData(tofRoot);
223
224 std::vector<uint32_t> emcTds=hltInfCnvTds->getDataVec(HltID::EMC);
225 std::vector<Int_t> emcRoot;
226 for(it= emcTds.begin();it!=emcTds.end();it++){
227 Int_t data=*it;
228 emcRoot.push_back(data);
229 }
230 hltInfRoot->setEmcData(emcRoot);
231
232 std::vector<uint32_t> mucTds=hltInfCnvTds->getDataVec(HltID::MUC);
233 std::vector<Int_t> mucRoot;
234 for(it= mucTds.begin();it!=mucTds.end();it++){
235 Int_t data=*it;
236 mucRoot.push_back(data);
237 }
238 hltInfRoot->setMucData(mucRoot);
239
240 std::vector<uint32_t> conTds=hltInfCnvTds->getDataVec(HltID::CON);
241 std::vector<Int_t> conRoot;
242 for(it= conTds.begin();it!=conTds.end();it++){
243 Int_t data=*it;
244 conRoot.push_back(data);
245 }
246 hltInfRoot->setConData(conRoot);
247
248 hltInf->addHltInf(hltInfRoot);
249
250 return StatusCode::SUCCESS;
251}
252#endif
TTree * data
Double_t etot
static THltEvent * getWriteObject()
returns object to be written (maintained here for all DIGI-converters)
virtual StatusCode TObjectToDataObject(DataObject *&obj)
transformation from root
virtual StatusCode DataObjectToTObject(DataObject *obj, RootAddress *addr)
transformation to root
virtual void push_muc(uint32_t data)
virtual void push_mdc(uint32_t data)
virtual void push_cgem(uint32_t data)
std::vector< uint32_t > & getDataVec(const Identifier &)
Definition: HltInf.cxx:71
virtual void push_tof(uint32_t data)
virtual void push_con(uint32_t data)
virtual void push_emc(uint32_t data)
Definition of a Root address, derived from IOpaqueAddress.
virtual StatusCode createRep(DataObject *pObject, IOpaqueAddress *&refpAddress)
Convert the transient object to the requested representation.
const THltInf * getHltInf() const