libraries/HDDM/DEventSourceHDDM.cc

Bug Summary

File:	/volatile/halld/gluex/nightly/2024-03-31/Linux_CentOS7.7-x86_64-gcc4.8.5/halld_recon/src/libraries/HDDM/DEventSourceHDDM.cc
Location:	line 1217, column 13
Description:	Value stored to 'mass' is never read

Annotated Source Code

1	// $Id: DEventSourceHDDM.cc 19023 2015-07-14 20:23:27Z beattite $
2	//
3	// Author: David Lawrence June 24, 2004
4	//
5	// changes: Wed Jun 20 17:08:13 EDT 2007 B. Zihlmann
6	// modify TOF section to add several new variables incuding the
7	// GEANT particle type to the Truth hits and the hit and track-hit
8	// list.
9	//
10	// Oct 3, 2012 Yi Qiang: add functions for Cherenkov RICH detector
11	// Oct 11, 2012 Yi Qiang: complete functions for Cherenkov detector
12	// Oct 8, 2013 Yi Qiang: added dedicated object for RICH Truth Hit
13	// July 5, 2014 R.T.Jones: changed over from c to c++ API for hddm
14	// June 22, 2015 J. Stevens: changed RICH -> DIRC and remove CERE
15	// May 7, 2017 R. Dzhygadlo: added DDIRCTruthPmtHit DDIRCTruthBarHit
16	// Oct 20, 2017 A. Somov: Added fields for the DPSHit/DPSCHit
17	//
18	// DEventSourceHDDM methods
19	//
20
21	#include <iostream>
22	#include <iomanip>
23	#include <cmath>
24	using namespace std;
25
26	#include <JANA/JFactory_base.h>
27	#include <JANA/JEventLoop.h>
28	#include <JANA/JEvent.h>
29	#include <DANA/DStatusBits.h>
30
31	#include <JANA/JGeometryXML.h>
32	#include "BCAL/DBCALGeometry.h"
33	#include "PAIR_SPECTROMETER/DPSGeometry.h"
34
35	#include <DVector2.h>
36	#include <DEventSourceHDDM.h>
37	#include <FDC/DFDCGeometry.h>
38	#include <FCAL/DFCALGeometry.h>
39	#include <FCAL/DFCALHit.h>
40	#include <CCAL/DCCALGeometry.h>
41	#include <CCAL/DCCALHit.h>
42
43
44	//------------------------------------------------------------------
45	// Binary predicate used to sort hits
46	//------------------------------------------------------------------
47	class MCTrackHitSort{
48	public:
49	bool operator()(DMCTrackHit* const &thit1,
50	DMCTrackHit* const &thit2) const {
51	return thit1->z < thit2->z;
52	}
53	};
54
55	bool MCTrackHitSort_C(DMCTrackHit* const &thit1,
56	DMCTrackHit* const &thit2) {
57	return thit1->z < thit2->z;
58	}
59
60
61	//----------------
62	// Constructor
63	//----------------
64	DEventSourceHDDM::DEventSourceHDDM(const char* source_name)
65	: JEventSource(source_name)
66	{
67	/// Constructor for DEventSourceHDDM object
68	ifs = new ifstream(source_name);
69	ifs->get();
70	ifs->unget();
71	if (ifs->rdbuf()->in_avail() > 30) {
72	class nonstd_streambuf: public std::streambuf {
73	public: char *pub_gptr() {return gptr();}
74	};
75	void buf = (void)ifs->rdbuf();
76	std::string head(((nonstd_streambuf*)buf)->pub_gptr(), 30);
77	std::string expected = " class=\"s\" ";
78	std::string also_supported = " class=\"mc_s\" ";
79	if (head.find(expected) == head.npos &&
80	head.find(also_supported) == head.npos)
81	{
82	std::string msg("Unexpected header found in input HDDM stream: ");
83	throw std::runtime_error(msg + head + source_name);
84	}
85	}
86
87	fin = new hddm_s::istream(*ifs);
88	initialized = false;
89	dapp = NULL__null;
90	bfield = NULL__null;
91	geom = NULL__null;
92
93	dRunNumber = -1;
94
95	if( (!gPARMS->Exists("JANA_CALIB_CONTEXT")) && (getenv("JANA_CALIB_CONTEXT")==NULL__null) ){
96	cout << "============================================================" << endl;
97	cout << " WARNING: JANA_CALIB_CONTEXT not set. " << endl;
98	cout << "You are reading from an HDDM file which is most likely" << endl;
99	cout << "MC data. In most cases, you will want to set this parameter" << endl;
100	cout << "to get proper reconstruction." << endl;
101	cout << "(usually something like \"variation=mc\")" << endl;
102	cout << "============================================================" << endl;
103	}
104	}
105
106	//----------------
107	// Destructor
108	//----------------
109	DEventSourceHDDM::~DEventSourceHDDM()
110	{
111	if (fin)
112	delete fin;
113	if (ifs)
114	delete ifs;
115	}
116
117	//----------------
118	// GetEvent
119	//----------------
120	jerror_t DEventSourceHDDM::GetEvent(JEvent &event)
121	{
122	/// Implementation of JEventSource virtual function
123
124	if (!fin)
125	return EVENT_SOURCE_NOT_OPEN;
126
127	// Each open HDDM file takes up about 1M of memory so it's
128	// worthwhile to close it as soon as we can.
129	else if (!ifs->good()) {
130	delete fin;
131	fin = NULL__null;
132	delete ifs;
133	ifs = NULL__null;
134	return NO_MORE_EVENTS_IN_SOURCE;
135	}
136
137	hddm_s::HDDM *record = new hddm_s::HDDM();
138	while (record->getPhysicsEvents().size() == 0) {
139	if (! (fin >> record)) {
140	delete fin;
141	fin = NULL__null;
142	delete ifs;
143	ifs = NULL__null;
144	return NO_MORE_EVENTS_IN_SOURCE;
145	}
146	}
147
148	++Nevents_read;
149
150	int event_number = -1;
151	int run_number = -1;
152
153	if(!record->getPhysicsEvents().empty()) {
154	// Get event/run numbers from HDDM
155	hddm_s::PhysicsEvent &pe = record->getPhysicsEvent(0);
156	event_number = pe.getEventNo();
157	run_number = pe.getRunNo();
158	}
159
160	// Copy the reference info into the JEvent object
161	event.SetJEventSource(this);
162	event.SetEventNumber(event_number);
163	event.SetRunNumber(run_number);
164	event.SetRef(record);
165	event.SetStatusBit(kSTATUS_HDDM);
166	event.SetStatusBit(kSTATUS_FROM_FILE);
167	event.SetStatusBit(kSTATUS_PHYSICS_EVENT);
168
169	return NOERROR;
170	}
171
172	//----------------
173	// FreeEvent
174	//----------------
175	void DEventSourceHDDM::FreeEvent(JEvent &event)
176	{
177	hddm_s::HDDM record = (hddm_s::HDDM)event.GetRef();
178	delete record;
179	}
180
181	//----------------
182	// GetObjects
183	//----------------
184	jerror_t DEventSourceHDDM::GetObjects(JEvent &event, JFactory_base *factory)
185	{
186	/// This gets called through the virtual method of the
187	/// JEventSource base class. It creates the objects of the type
188	/// on which factory is based. It uses the hddm_s::HDDM* object
189	/// kept in the ref field of the JEvent object passed.
190
191	// We must have a factory to hold the data
192	if (!factory)
193	throw RESOURCE_UNAVAILABLE;
194
195	// HDDM doesn't exactly support tagged factories, but the tag
196	// can be used to direct filling of the correct factory.
197	string tag = (factory->Tag()==NULL__null)? "" : factory->Tag();
198
199	// The ref field of the JEvent is just the HDDM object pointer.
200	hddm_s::HDDM record = (hddm_s::HDDM)event.GetRef();
201	if (!record)
202	throw RESOURCE_UNAVAILABLE;
203
204	// Get pointer to the B-field object and Geometry object
205	JEventLoop *loop = event.GetJEventLoop();
206	if (initialized == false && loop) {
207	initialized = true;
208	dRunNumber = event.GetRunNumber();
209	dapp = dynamic_cast<DApplication*>(loop->GetJApplication());
210	if (dapp) {
211	jcalib = dapp->GetJCalibration(event.GetRunNumber());
212	// Make sure jcalib is set
213	if (!jcalib) {
214	_DBG_std::cerr<<"libraries/HDDM/DEventSourceHDDM.cc"<< ":"<<214<<" " << "ERROR - no jcalib set!" <<endl;
215	return RESOURCE_UNAVAILABLE;
216	}
217	// Get constants and do basic check on number of elements
218	vector< map<string, float> > tvals;
219	if(jcalib->Get("FDC/strip_calib", tvals))
220	throw JException("Could not load CCDB table: FDC/strip_calib");
221
222	if (tvals.size() != 192) {
223	_DBG_std::cerr<<"libraries/HDDM/DEventSourceHDDM.cc"<< ":"<<223<<" " << "ERROR - strip calibration vectors are not the right size!"
224	<< endl;
225	return VALUE_OUT_OF_RANGE;
226	}
227	map<string,float>::iterator iter;
228	for (iter=tvals[0].begin(); iter!=tvals[0].end(); iter++) {
229	// Copy values into tables. We preserve the order since
230	// that is how it was originally done in hitFDC.c
231	for (unsigned int i=0; i<tvals.size(); i++) {
232	map<string, float> &row = tvals[i];
233	uscale[i]=row["qru"];
234	vscale[i]=row["qrv"];
235	}
236	}
237	}
238	// load BCAL geometry
239	vector<const DBCALGeometry *> BCALGeomVec;
240	loop->Get(BCALGeomVec);
241	if(BCALGeomVec.size() == 0)
242	throw JException("Could not load DBCALGeometry object!");
243	dBCALGeom = BCALGeomVec[0];
244
245	// load PS geometry
246	vector<const DPSGeometry*> psGeomVect;
247	loop->Get(psGeomVect);
248	if (psGeomVect.size() < 1)
249	return OBJECT_NOT_AVAILABLE;
250	psGeom = psGeomVect[0];
251
252
253	}
254
255	// Warning: This class is not completely thread-safe and can fail if running
256	// running in multithreaded mode over files with events from multiple runs
257	// It is expected that simulated data will rarely contain events from multiple
258	// runs, as this is an intermediate format in the simulation chain, so for
259	// now we just insert a sanity check, and push the problem to the future
260	if(dRunNumber != event.GetRunNumber()) {
261	jerr << endl
262	<< "WARNING: DEventSourceHDDM cannot currently handle HDDM files containing" << endl
263	<< "events with multiple runs! If you encounter this error message," << endl
264	<< "please contact the GlueX Offline Software Group: halld-offline@jlab.org" << endl
265	<< endl;
266	exit(-1);
267	}
268
269	//Get target center
270	//multiple reader threads can access this object: need lock
271	bool locNewRunNumber = false;
272	unsigned int locRunNumber = event.GetRunNumber();
273	LockRead();
274	{
275	locNewRunNumber = (dTargetCenterZMap.find(locRunNumber) == dTargetCenterZMap.end());
276	}
277	UnlockRead();
278	if(locNewRunNumber)
279	{
280	DApplication* dapp = dynamic_cast<DApplication*>(loop->GetJApplication());
281	DGeometry* locGeometry = dapp->GetDGeometry(loop->GetJEvent().GetRunNumber());
282	double locTargetCenterZ = 0.0;
283	locGeometry->GetTargetZ(locTargetCenterZ);
284
285	JGeometryXML jgeom = dynamic_cast<JGeometryXML >(locGeometry);
286	hddm_s::GeometryList geolist = record->getGeometrys();
287	if (jgeom != 0 && geolist.size() > 0) {
288	std::string md5sim = geolist(0).getMd5simulation();
289	std::string md5smear = geolist(0).getMd5smear();
290	std::string md5recon = jgeom->GetChecksum();
291	geolist(0).setMd5reconstruction(md5recon);
292	if (md5sim != md5smear) {
293	jerr << std::endl
294	<< "WARNING: simulation geometry checksum does not match"
295	<< " that shown for the mcsmear step."
296	<< std::endl;
297	}
298	else if (md5sim != md5recon) {
299	jerr << endl
300	<< "WARNING: simulation geometry checksum does not match"
301	<< " the geometry being used for reconstruction."
302	<< std::endl;
303	}
304	}
305
306	vector<double> locBeamPeriodVector;
307	if(loop->GetCalib("PHOTON_BEAM/RF/beam_period", locBeamPeriodVector))
308	throw runtime_error("Could not load CCDB table: PHOTON_BEAM/RF/beam_period");
309	double locBeamBunchPeriod = locBeamPeriodVector[0];
310
311	LockRead();
312	{
313	dTargetCenterZMap[locRunNumber] = locTargetCenterZ;
314	dBeamBunchPeriodMap[locRunNumber] = locBeamBunchPeriod;
315	}
316	UnlockRead();
317	}
318
319	// Get name of data class we're trying to extract
320	string dataClassName = factory->GetDataClassName();
321
322	if (dataClassName == "DPSHit")
323	return Extract_DPSHit(record,
324	dynamic_cast<JFactory<DPSHit>*>(factory), tag);
325
326	if (dataClassName == "DPSTruthHit")
327	return Extract_DPSTruthHit(record,
328	dynamic_cast<JFactory<DPSTruthHit>*>(factory), tag);
329
330	if (dataClassName == "DPSCHit")
331	return Extract_DPSCHit(record,
332	dynamic_cast<JFactory<DPSCHit>*>(factory), tag);
333
334	if (dataClassName == "DPSCTruthHit")
335	return Extract_DPSCTruthHit(record,
336	dynamic_cast<JFactory<DPSCTruthHit>*>(factory), tag);
337
338	if (dataClassName == "DRFTime")
339	return Extract_DRFTime(record,
340	dynamic_cast<JFactory<DRFTime>*>(factory), loop);
341
342	if (dataClassName == "DTAGMHit")
343	return Extract_DTAGMHit(record,
344	dynamic_cast<JFactory<DTAGMHit>*>(factory), tag);
345
346	if (dataClassName == "DTAGHHit")
347	return Extract_DTAGHHit(record,
348	dynamic_cast<JFactory<DTAGHHit>*>(factory), tag);
349
350	if (dataClassName == "DMCTrackHit")
351	return Extract_DMCTrackHit(record,
352	dynamic_cast<JFactory<DMCTrackHit>*>(factory), tag);
353
354	if (dataClassName == "DMCReaction")
355	return Extract_DMCReaction(record,
356	dynamic_cast<JFactory<DMCReaction>*>(factory), tag, loop);
357
358	if (dataClassName == "DMCThrown")
359	return Extract_DMCThrown(record,
360	dynamic_cast<JFactory<DMCThrown>*>(factory), tag);
361
362	if (dataClassName == "DBCALTruthShower")
363	return Extract_DBCALTruthShower(record,
364	dynamic_cast<JFactory<DBCALTruthShower>*>(factory), tag);
365
366	if (dataClassName == "DBCALSiPMSpectrum")
367	return Extract_DBCALSiPMSpectrum(record,
368	dynamic_cast<JFactory<DBCALSiPMSpectrum>*>(factory), tag);
369
370	if (dataClassName == "DBCALTruthCell")
371	return Extract_DBCALTruthCell(record,
372	dynamic_cast<JFactory<DBCALTruthCell>*>(factory), tag);
373
374	if (dataClassName == "DBCALSiPMHit")
375	return Extract_DBCALSiPMHit(record,
376	dynamic_cast<JFactory<DBCALSiPMHit>*>(factory), tag);
377
378	if (dataClassName == "DBCALDigiHit")
379	return Extract_DBCALDigiHit(record,
380	dynamic_cast<JFactory<DBCALDigiHit>*>(factory), tag);
381
382	if (dataClassName == "DBCALIncidentParticle")
383	return Extract_DBCALIncidentParticle(record,
384	dynamic_cast<JFactory<DBCALIncidentParticle>*>(factory), tag);
385
386	if (dataClassName == "DBCALTDCDigiHit")
387	return Extract_DBCALTDCDigiHit(record,
388	dynamic_cast<JFactory<DBCALTDCDigiHit>*>(factory), tag);
389
390	if (dataClassName == "DCDCHit")
391	return Extract_DCDCHit(loop, record,
392	dynamic_cast<JFactory<DCDCHit>*>(factory) , tag);
393
394	if (dataClassName == "DFDCHit")
395	return Extract_DFDCHit(record,
396	dynamic_cast<JFactory<DFDCHit>*>(factory), tag);
397
398	if (dataClassName == "DFCALTruthShower")
399	return Extract_DFCALTruthShower(record,
400	dynamic_cast<JFactory<DFCALTruthShower>*>(factory), tag);
401
402	if (dataClassName == "DFCALHit")
403	return Extract_DFCALHit(record,
404	dynamic_cast<JFactory<DFCALHit>*>(factory), tag,
405	event.GetJEventLoop());
406
407	if (dataClassName == "DCCALTruthShower")
408	return Extract_DCCALTruthShower(record,
409	dynamic_cast<JFactory<DCCALTruthShower>*>(factory), tag);
410
411	if (dataClassName == "DCCALHit")
412	return Extract_DCCALHit(record,
413	dynamic_cast<JFactory<DCCALHit>*>(factory), tag,
414	event.GetJEventLoop());
415
416	if (dataClassName == "DMCTrajectoryPoint" && tag == "")
417	return Extract_DMCTrajectoryPoint(record,
418	dynamic_cast<JFactory<DMCTrajectoryPoint>*>(factory), tag);
419
420	if (dataClassName == "DTOFTruth")
421	return Extract_DTOFTruth(record,
422	dynamic_cast<JFactory<DTOFTruth>*>(factory), tag);
423
424	// TOF is a special case: TWO factories are needed at the same time
425	// DTOFHit and DTOFHitMC
426	if (dataClassName == "DTOFHit") {
427	JFactory_base* factory2 = loop->GetFactory("DTOFHitMC", tag.c_str());
428	return Extract_DTOFHit(record,
429	dynamic_cast<JFactory<DTOFHit>*>(factory),
430	dynamic_cast<JFactory<DTOFHitMC>*>(factory2), tag);
431	}
432	if (dataClassName == "DTOFHitMC") {
433	JFactory_base* factory2 = loop->GetFactory("DTOFHit", tag.c_str());
434	return Extract_DTOFHit(record,
435	dynamic_cast<JFactory<DTOFHit>*>(factory2),
436	dynamic_cast<JFactory<DTOFHitMC>*>(factory), tag);
437	}
438
439	if (dataClassName == "DSCHit")
440	return Extract_DSCHit(record,
441	dynamic_cast<JFactory<DSCHit>*>(factory), tag);
442
443	if (dataClassName == "DSCTruthHit")
444	return Extract_DSCTruthHit(record,
445	dynamic_cast<JFactory<DSCTruthHit>*>(factory), tag);
446
447	if (dataClassName == "DFMWPCTruthHit")
448	return Extract_DFMWPCTruthHit(record,
449	dynamic_cast<JFactory<DFMWPCTruthHit>*>(factory), tag);
450
451	if (dataClassName == "DFMWPCTruth")
452	return Extract_DFMWPCTruth(record,
453	dynamic_cast<JFactory<DFMWPCTruth>*>(factory), tag);
454
455	if (dataClassName == "DFMWPCHit")
456	return Extract_DFMWPCHit(record,
457	dynamic_cast<JFactory<DFMWPCHit>*>(factory), tag);
458
459	if (dataClassName == "DCTOFTruth")
460	return Extract_DCTOFTruth(record,
461	dynamic_cast<JFactory<DCTOFTruth>*>(factory), tag);
462
463	if (dataClassName == "DCTOFHit")
464	return Extract_DCTOFHit(record,
465	dynamic_cast<JFactory<DCTOFHit>*>(factory), tag);
466
467	if (dataClassName == "DDIRCTruthBarHit")
468	return Extract_DDIRCTruthBarHit(record,
469	dynamic_cast<JFactory<DDIRCTruthBarHit>*>(factory), tag);
470
471	if (dataClassName == "DDIRCTruthPmtHit")
472	return Extract_DDIRCTruthPmtHit(record,
473	dynamic_cast<JFactory<DDIRCTruthPmtHit>*>(factory), tag);
474
475	if (dataClassName == "DDIRCPmtHit")
476	return Extract_DDIRCPmtHit(record,
477	dynamic_cast<JFactory<DDIRCPmtHit>*>(factory), tag, event.GetJEventLoop());
478
479	// extract CereTruth and CereRichHit hits, yqiang Oct 3, 2012
480	// removed CereTruth (merged into MCThrown), added CereHit, yqiang Oct 10 2012
481	if (dataClassName == "DCereHit")
482	return Extract_DCereHit(record,
483	dynamic_cast<JFactory<DCereHit>*>(factory), tag);
484
485	if (dataClassName == "DTPOLHit")
486	return Extract_DTPOLHit(record,
487	dynamic_cast<JFactory<DTPOLHit>*>(factory), tag);
488
489	if (dataClassName == "DTPOLTruthHit")
490	return Extract_DTPOLTruthHit(record,
491	dynamic_cast<JFactory<DTPOLTruthHit>*>(factory), tag);
492
493	return OBJECT_NOT_AVAILABLE;
494	}
495
496	//------------------
497	// Extract_DRFTime
498	//------------------
499	jerror_t DEventSourceHDDM::Extract_DRFTime(hddm_s::HDDM *record,
500	JFactory<DRFTime> factory, JEventLoop locEventLoop)
501	{
502	if (factory==NULL__null)
503	return OBJECT_NOT_AVAILABLE;
504	string tag = (factory->Tag())? factory->Tag() : "";
505
506	vector<DRFTime*> locRFTimes;
507
508	// loop over RF-time records
509	const hddm_s::RFtimeList &rftimes = record->getRFtimes();
510	hddm_s::RFtimeList::iterator iter;
511	for (iter = rftimes.begin(); iter != rftimes.end(); ++iter)
512	{
513	if (iter->getJtag() != tag)
514	continue;
515	DRFTime *locRFTime = new DRFTime;
516	locRFTime->dTime = iter->getTsync();
517	locRFTime->dTimeVariance = 0.0; //SET ME!!
518	locRFTimes.push_back(locRFTime);
519	}
520
521	if(!locRFTimes.empty())
522	{
523	//found in the file, copy into factory and return
524	factory->CopyTo(locRFTimes);
525	return NOERROR;
526	}
527
528	//Not found in the file, so either:
529	//Experimental data & it's missing: bail
530	//MC data: generate it
531
532	vector<const DBeamPhoton*> locMCGENPhotons;
533	locEventLoop->Get(locMCGENPhotons, "MCGEN");
534	if(locMCGENPhotons.empty())
535	return OBJECT_NOT_AVAILABLE; //Experimental data & it's missing: bail
536
537	//Is MC data. Either:
538	//No tag: return t = 0.0, but true t is 0.0 +/- n*locBeamBunchPeriod: must select the correct beam bunch
539	//TRUTH tag: get exact t from DBeamPhoton tag MCGEN
540
541	if(tag == "TRUTH")
542	{
543	DRFTime *locRFTime = new DRFTime;
544	locRFTime->dTime = locMCGENPhotons[0]->time();
545	locRFTime->dTimeVariance = 0.0;
546	locRFTimes.push_back(locRFTime);
547	}
548	else
549	{
550	double locBeamBunchPeriod = 0.0;
551	int locRunNumber = locEventLoop->GetJEvent().GetRunNumber();
552	LockRead();
553	{
554	locBeamBunchPeriod = dBeamBunchPeriodMap[locRunNumber];
555	}
556	UnlockRead();
557
558	//start with true RF time, increment/decrement by multiples of locBeamBunchPeriod ns until closest to 0
559	double locTime = locMCGENPhotons[0]->time();
560	int locNumRFBuckets = int(locTime/locBeamBunchPeriod);
561	locTime -= double(locNumRFBuckets)*locBeamBunchPeriod;
562	while(locTime > 0.5*locBeamBunchPeriod)
563	locTime -= locBeamBunchPeriod;
564	while(locTime < -0.5*locBeamBunchPeriod)
565	locTime += locBeamBunchPeriod;
566
567	DRFTime *locRFTime = new DRFTime;
568	locRFTime->dTime = locTime;
569	locRFTime->dTimeVariance = 0.0;
570	locRFTimes.push_back(locRFTime);
571	}
572
573	// Copy into factories
574	factory->CopyTo(locRFTimes);
575
576	return NOERROR;
577	}
578
579	//------------------
580	// Extract_DMCTrackHit
581	//------------------
582	jerror_t DEventSourceHDDM::Extract_DMCTrackHit(hddm_s::HDDM *record,
583	JFactory<DMCTrackHit> *factory, string tag)
584	{
585	/// Copies the data from the given hddm_s structure. This is called
586	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
587	/// returns OBJECT_NOT_AVAILABLE immediately.
588
589	if (factory == NULL__null)
590	return OBJECT_NOT_AVAILABLE;
591	if (tag != "")
592	return OBJECT_NOT_AVAILABLE;
593
594	// The following routines will create DMCTrackHit objects and add them
595	// to data.
596	vector<DMCTrackHit*> data;
597	GetCDCTruthHits(record, data);
598	GetFDCTruthHits(record, data);
599	GetBCALTruthHits(record, data);
600	GetTOFTruthHits(record, data);
601	GetCherenkovTruthHits(record, data);
602	GetFCALTruthHits(record, data);
603	GetSCTruthHits(record, data);
604
605	// It has happened that some CDC hits have "nan" for the drift time
606	// in a peculiar event Alex Somov came across. This ultimately caused
607	// a seg. fault in MCTrackHitSort_C. I hate doing this since it
608	// is treating the symptom rather than the cause, but nonetheless,
609	// it patches up the problem for now until there is time to revisit
610	// it later.
611	for (unsigned int i=0; i < data.size(); i++)
612	if (!isfinite(data[i]->z))
613	data[i]->z = -1000.0;
614
615	// sort hits by z
616	sort(data.begin(), data.end(), MCTrackHitSort_C);
617
618	// Some systems will use negative phis. Force them all to
619	// be in the 0 to 2pi range
620	for (unsigned int i=0; i < data.size(); i++) {
621	DMCTrackHit *mctrackhit = data[i];
622	if (mctrackhit->phi < 0.0)
623	mctrackhit->phi += 2.0*M_PI3.14159265358979323846;
624	}
625
626	// Copy into factory
627	factory->CopyTo(data);
628
629	return NOERROR;
630	}
631
632	//-------------------
633	// GetCDCTruthHits
634	//-------------------
635	jerror_t DEventSourceHDDM::GetCDCTruthHits(hddm_s::HDDM *record,
636	vector<DMCTrackHit*>& data)
637	{
638	const hddm_s::CdcTruthPointList &points = record->getCdcTruthPoints();
639	hddm_s::CdcTruthPointList::iterator iter;
640	for (iter = points.begin(); iter != points.end(); ++iter) {
641	DMCTrackHit *mctrackhit = new DMCTrackHit;
642	mctrackhit->r = iter->getR();
643	mctrackhit->phi = iter->getPhi();
644	mctrackhit->z = iter->getZ();
645	mctrackhit->track = iter->getTrack();
646	mctrackhit->primary = iter->getPrimary();
647	mctrackhit->ptype = iter->getPtype();
648	mctrackhit->system = SYS_CDC;
649	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
650	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
651	data.push_back(mctrackhit);
652	}
653
654	return NOERROR;
655	}
656
657	//-------------------
658	// GetFDCTruthHits
659	//-------------------
660	jerror_t DEventSourceHDDM::GetFDCTruthHits(hddm_s::HDDM *record,
661	vector<DMCTrackHit*>& data)
662	{
663	const hddm_s::FdcTruthPointList &points = record->getFdcTruthPoints();
664	hddm_s::FdcTruthPointList::iterator iter;
665	for (iter = points.begin(); iter != points.end(); ++iter) {
666	float x = iter->getX();
667	float y = iter->getY();
668	DMCTrackHit *mctrackhit = new DMCTrackHit;
669	mctrackhit->r = sqrt(xx + yy);
670	mctrackhit->phi = atan2(y,x);
671	mctrackhit->z = iter->getZ();
672	mctrackhit->track = iter->getTrack();
673	mctrackhit->primary = iter->getPrimary();
674	mctrackhit->ptype = iter->getPtype();
675	mctrackhit->system = SYS_FDC;
676	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
677	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
678	data.push_back(mctrackhit);
679	}
680
681	return NOERROR;
682	}
683
684	//-------------------
685	// GetBCALTruthHits
686	//-------------------
687	jerror_t DEventSourceHDDM::GetBCALTruthHits(hddm_s::HDDM *record,
688	vector<DMCTrackHit*>& data)
689	{
690	const hddm_s::BcalTruthShowerList &showers = record->getBcalTruthShowers();
691	hddm_s::BcalTruthShowerList::iterator iter;
692	for (iter = showers.begin(); iter != showers.end(); ++iter) {
693	DMCTrackHit *mctrackhit = new DMCTrackHit;
694	mctrackhit->r = iter->getR();
695	mctrackhit->phi = iter->getPhi();
696	mctrackhit->z = iter->getZ();
697	mctrackhit->track = iter->getTrack();
698	mctrackhit->primary = iter->getPrimary();
699	mctrackhit->ptype = iter->getPtype();
700	mctrackhit->system = SYS_BCAL;
701	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
702	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
703	data.push_back(mctrackhit);
704	}
705
706	return NOERROR;
707	}
708
709	//-------------------
710	// GetTOFTruthHits
711	//-------------------
712	jerror_t DEventSourceHDDM::GetTOFTruthHits(hddm_s::HDDM *record,
713	vector<DMCTrackHit*>& data)
714	{
715	const hddm_s::FtofTruthPointList &points = record->getFtofTruthPoints();
716	hddm_s::FtofTruthPointList::iterator iter;
717	for (iter = points.begin(); iter != points.end(); ++iter) {
718	float x = iter->getX();
719	float y = iter->getY();
720	DMCTrackHit *mctrackhit = new DMCTrackHit;
721	mctrackhit->r = sqrt(xx + yy);
722	mctrackhit->phi = atan2(y,x);
723	mctrackhit->z = iter->getZ();
724	mctrackhit->track = iter->getTrack();
725	mctrackhit->primary = iter->getPrimary();
726	mctrackhit->ptype = iter->getPtype(); // save GEANT particle type
727	mctrackhit->system = SYS_TOF;
728	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
729	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
730	data.push_back(mctrackhit);
731	}
732
733	return NOERROR;
734	}
735
736	//-------------------
737	// GetCherenkovTruthHits
738	// modified by yqiang, Oct 10 2012
739	//-------------------
740	jerror_t DEventSourceHDDM::GetCherenkovTruthHits(hddm_s::HDDM *record,
741	vector<DMCTrackHit*>& data)
742	{
743	const hddm_s::CereTruthPointList &points = record->getCereTruthPoints();
744	hddm_s::CereTruthPointList::iterator iter;
745	for (iter = points.begin(); iter != points.end(); ++iter) {
746	float x = iter->getX();
747	float y = iter->getY();
748	DMCTrackHit *mctrackhit = new DMCTrackHit;
749	mctrackhit->r = sqrt(xx + yy);
750	mctrackhit->phi = atan2(y,x);
751	mctrackhit->z = iter->getZ();
752	mctrackhit->track = iter->getTrack();
753	mctrackhit->primary = iter->getPrimary();
754	mctrackhit->ptype = iter->getPtype(); // save GEANT particle typ()e
755	mctrackhit->system = SYS_CHERENKOV;
756	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
757	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
758	data.push_back(mctrackhit);
759	}
760
761	return NOERROR;
762	}
763
764	//-------------------
765	// GetFCALTruthHits
766	//-------------------
767	jerror_t DEventSourceHDDM::GetFCALTruthHits(hddm_s::HDDM *record,
768	vector<DMCTrackHit*>& data)
769	{
770	const hddm_s::FcalTruthShowerList &points = record->getFcalTruthShowers();
771	hddm_s::FcalTruthShowerList::iterator iter;
772	for (iter = points.begin(); iter != points.end(); ++iter) {
773	float x = iter->getX();
774	float y = iter->getY();
775	DMCTrackHit *mctrackhit = new DMCTrackHit;
776	mctrackhit->r = sqrt(xx + yy);
777	mctrackhit->phi = atan2(y,x);
778	mctrackhit->z = iter->getZ();
779	mctrackhit->track = iter->getTrack();
780	mctrackhit->primary = iter->getPrimary();
781	mctrackhit->ptype = iter->getPtype();
782	mctrackhit->system = SYS_FCAL;
783	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
784	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
785	data.push_back(mctrackhit);
786	}
787
788	return NOERROR;
789	}
790
791	//-------------------
792	// GetCCALTruthHits
793	//-------------------
794	jerror_t DEventSourceHDDM::GetCCALTruthHits(hddm_s::HDDM *record,
795	vector<DMCTrackHit*>& data)
796	{
797	const hddm_s::CcalTruthShowerList &points = record->getCcalTruthShowers();
798	hddm_s::CcalTruthShowerList::iterator iter;
799	for (iter = points.begin(); iter != points.end(); ++iter) {
800	float x = iter->getX();
801	float y = iter->getY();
802	DMCTrackHit *mctrackhit = new DMCTrackHit;
803	mctrackhit->r = sqrt(xx + yy);
804	mctrackhit->phi = atan2(y,x);
805	mctrackhit->z = iter->getZ();
806	mctrackhit->track = iter->getTrack();
807	mctrackhit->primary = iter->getPrimary();
808	mctrackhit->ptype = iter->getPtype();
809	mctrackhit->system = SYS_CCAL;
810	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
811	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
812	data.push_back(mctrackhit);
813	}
814
815	return NOERROR;
816	}
817
818
819	//-------------------
820	// GetSCTruthHits
821	//-------------------
822	jerror_t DEventSourceHDDM::GetSCTruthHits(hddm_s::HDDM *record,
823	vector<DMCTrackHit*>& data)
824	{
825	const hddm_s::StcTruthPointList &points = record->getStcTruthPoints();
826	hddm_s::StcTruthPointList::iterator iter;
827	for (iter = points.begin(); iter != points.end(); ++iter) {
828	DMCTrackHit *mctrackhit = new DMCTrackHit;
829	mctrackhit->r = iter->getR();
830	mctrackhit->phi = iter->getPhi();
831	mctrackhit->z = iter->getZ();
832	mctrackhit->track = iter->getTrack();
833	mctrackhit->primary = iter->getPrimary();
834	mctrackhit->ptype = iter->getPtype(); // save GEANT particle type
835	mctrackhit->system = SYS_START;
836	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
837	mctrackhit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
838	data.push_back(mctrackhit);
839	}
840
841	return NOERROR;
842	}
843
844	//------------------
845	// Extract_DBCALSiPMHit
846	//------------------
847	jerror_t DEventSourceHDDM::Extract_DBCALSiPMHit(hddm_s::HDDM *record,
848	JFactory<DBCALSiPMHit> *factory, string tag)
849	{
850	/// Copies the data from the given hddm_s structure. This is called
851	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
852	/// returns OBJECT_NOT_AVAILABLE immediately.
853
854	if (factory == NULL__null)
855	return OBJECT_NOT_AVAILABLE;
856	if (tag != "")
857	return OBJECT_NOT_AVAILABLE;
858
859	vector<DBCALSiPMHit*> data;
860
861	const hddm_s::BcalSiPMUpHitList &uphits = record->getBcalSiPMUpHits();
862	hddm_s::BcalSiPMUpHitList::iterator uiter;
863	for (uiter = uphits.begin(); uiter != uphits.end(); ++uiter) {
864	DBCALSiPMHit *response = new DBCALSiPMHit;
865	response->module = uiter->getModule();
866	response->layer = uiter->getLayer();
867	response->sector = uiter->getSector();
868	response->E = uiter->getE();
869	response->t = uiter->getT();
870	response->end = DBCALGeometry::kUpstream;
871	response->cellId = dBCALGeom->cellId(uiter->getModule(),
872	uiter->getLayer(),
873	uiter->getSector());
874	data.push_back(response);
875	}
876
877	const hddm_s::BcalSiPMDownHitList &downhits = record->getBcalSiPMDownHits();
878	hddm_s::BcalSiPMDownHitList::iterator diter;
879	for (diter = downhits.begin(); diter != downhits.end(); ++diter) {
880	DBCALSiPMHit *response = new DBCALSiPMHit;
881	response->module = diter->getModule();
882	response->layer = diter->getLayer();
883	response->sector = diter->getSector();
884	response->E = diter->getE();
885	response->t = diter->getT();
886	response->end = DBCALGeometry::kDownstream;
887	response->cellId = dBCALGeom->cellId(diter->getModule(),
888	diter->getLayer(),
889	diter->getSector());
890	data.push_back(response);
891	}
892
893	// Copy into factory
894	factory->CopyTo(data);
895
896	return NOERROR;
897	}
898
899	//------------------
900	// Extract_DBCALDigiHit
901	//------------------
902	jerror_t DEventSourceHDDM::Extract_DBCALDigiHit(hddm_s::HDDM *record,
903	JFactory<DBCALDigiHit> *factory, string tag)
904	{
905	/// Copies the data from the given hddm_s structure. This is called
906	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
907	/// returns OBJECT_NOT_AVAILABLE immediately.
908
909	if (factory == NULL__null)
910	return OBJECT_NOT_AVAILABLE;
911	if (tag != "")
912	return OBJECT_NOT_AVAILABLE;
913
914	vector<DBCALDigiHit*> data;
915
916	const hddm_s::BcalfADCDigiHitList &digihits = record->getBcalfADCDigiHits();
917	hddm_s::BcalfADCDigiHitList::iterator iter;
918	for (iter = digihits.begin(); iter != digihits.end(); ++iter) {
919	DBCALDigiHit *response = new DBCALDigiHit;
920	response->module = iter->getModule();
921	response->layer = iter->getLayer();
922	response->sector = iter->getSector();
923	response->pulse_integral = (uint32_t)iter->getPulse_integral();
924	response->pulse_peak = 0;
925	if(iter->getBcalfADCPeaks().size() > 0) {
926	response->pulse_peak = iter->getBcalfADCPeak().getPeakAmp();
927	}
928	response->pulse_time = (uint32_t)iter->getPulse_time();
929	response->pedestal = 1;
930	response->QF = 1;
931	response->nsamples_integral = 1;
932	response->nsamples_pedestal = 1;
933	response->datasource = 3;
934	response->end = (iter->getEnd() == 0)? DBCALGeometry::kUpstream :
935	DBCALGeometry::kDownstream;
936	data.push_back(response);
937	}
938
939	// Copy into factory
940	factory->CopyTo(data);
941
942	return NOERROR;
943	}
944
945	//------------------
946	// Extract_DBCALIncidentParticle
947	//------------------
948	jerror_t DEventSourceHDDM::Extract_DBCALIncidentParticle(hddm_s::HDDM *record,
949	JFactory<DBCALIncidentParticle> *factory,
950	string tag)
951	{
952	/// Copies the data from the given hddm_s structure. This is called
953	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
954	/// returns OBJECT_NOT_AVAILABLE immediately.
955
956	if (factory == NULL__null)
957	return OBJECT_NOT_AVAILABLE;
958	if (tag != "")
959	return OBJECT_NOT_AVAILABLE;
960
961	vector<DBCALIncidentParticle*> data;
962
963	const hddm_s::BcalTruthIncidentParticleList &plist =
964	record->getBcalTruthIncidentParticles();
965	hddm_s::BcalTruthIncidentParticleList::iterator iter;
966	for (iter = plist.begin(); iter != plist.end(); ++iter) {
967	DBCALIncidentParticle *part = new DBCALIncidentParticle;
968	part->ptype = iter->getPtype();
969	part->px = iter->getPx();
970	part->py = iter->getPy();
971	part->pz = iter->getPz();
972	part->x = iter->getX();
973	part->y = iter->getY();
974	part->z = iter->getZ();
975	data.push_back(part);
976	}
977
978	factory->CopyTo(data);
979
980	return NOERROR;
981	}
982
983	//------------------
984	// Extract_DBCALSiPMSpectrum
985	//------------------
986	jerror_t DEventSourceHDDM::Extract_DBCALSiPMSpectrum(hddm_s::HDDM *record,
987	JFactory<DBCALSiPMSpectrum> *factory,
988	string tag)
989	{
990	/// Copies the data from the given hddm_s structure. This is called
991	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
992	/// returns OBJECT_NOT_AVAILABLE immediately.
993
994	if (factory == NULL__null)
995	return OBJECT_NOT_AVAILABLE;
996	if (tag != "" && tag != "TRUTH")
997	return OBJECT_NOT_AVAILABLE;
998
999	vector<DBCALSiPMSpectrum*> data;
1000
1001	const hddm_s::BcalSiPMSpectrumList &specs = record->getBcalSiPMSpectrums();
1002	hddm_s::BcalSiPMSpectrumList::iterator iter;
1003	for (iter = specs.begin(); iter != specs.end(); ++iter) {
1004	DBCALSiPMSpectrum *dana_spectrum = new DBCALSiPMSpectrum;
1005	dana_spectrum->module = iter->getModule();
1006	dana_spectrum->layer = iter->getLayer();
1007	dana_spectrum->sector = iter->getSector();
1008	dana_spectrum->end = (iter->getEnd()==0)?
1009	DBCALGeometry::kUpstream :
1010	DBCALGeometry::kDownstream;
1011	if (tag == "")
1012	dana_spectrum->incident_id = 0;
1013	else if (tag == "TRUTH") {
1014	const hddm_s::BcalSiPMTruthList &truths = iter->getBcalSiPMTruths();
1015	if (truths.size() > 0)
1016	dana_spectrum->incident_id = truths.begin()->getIncident_id();
1017	else
1018	dana_spectrum->incident_id = 0;
1019	}
1020
1021	double t = iter->getTstart();
1022	double bin_width = iter->getBin_width();
1023	stringstream ss(iter->getVals());
1024
1025	// Extract values and use them to fill histo
1026	string entry;
1027	while (ss >> entry) {
1028	if (entry[0] == 'X') {
1029	// get rid of the X, the rest of the entry is the number of zeroes to add
1030	stringstream sss(entry.substr(1));
1031	int num_zeros;
1032	sss >> num_zeros;
1033
1034	for(int i=0; i<num_zeros; i++) {
1035	dana_spectrum->spectrum.Fill(t, 0.0);
1036	t += bin_width;
1037	}
1038	} else {
1039	stringstream sss(entry);
1040	double dE;
1041	sss >> dE;
1042	dana_spectrum->spectrum.Fill(t, dE);
1043	t += bin_width;
1044	}
1045	}
1046
1047	data.push_back(dana_spectrum);
1048	}
1049
1050	// Copy into factory
1051	factory->CopyTo(data);
1052
1053	return NOERROR;
1054	}
1055
1056	//------------------
1057	// Extract_DBCALTDCDigiHit
1058	//------------------
1059	jerror_t DEventSourceHDDM::Extract_DBCALTDCDigiHit(hddm_s::HDDM *record,
1060	JFactory<DBCALTDCDigiHit> *factory, string tag)
1061	{
1062	/// Copies the data from the given hddm_s structure. This is called
1063	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1064	/// returns OBJECT_NOT_AVAILABLE immediately.
1065
1066	if (factory == NULL__null)
1067	return OBJECT_NOT_AVAILABLE;
1068	if (tag != "")
1069	return OBJECT_NOT_AVAILABLE;
1070
1071	vector<DBCALTDCDigiHit*> data;
1072
1073	const hddm_s::BcalTDCDigiHitList &hits = record->getBcalTDCDigiHits();
1074	hddm_s::BcalTDCDigiHitList::iterator iter;
1075	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1076	DBCALTDCDigiHit *bcaltdchit = new DBCALTDCDigiHit;
1077	bcaltdchit->module = iter->getModule();
1078	bcaltdchit->layer = iter->getLayer();
1079	bcaltdchit->sector = iter->getSector();
1080	bcaltdchit->end = (iter->getEnd() == 0)? DBCALGeometry::kUpstream :
1081	DBCALGeometry::kDownstream;
1082	bcaltdchit->time = (uint32_t)iter->getTime();
1083	data.push_back(bcaltdchit);
1084	}
1085
1086	// Copy into factory
1087	factory->CopyTo(data);
1088
1089	return NOERROR;
1090	}
1091
1092	//------------------
1093	// Extract_DMCReaction
1094	//------------------
1095	jerror_t DEventSourceHDDM::Extract_DMCReaction(hddm_s::HDDM *record,
1096	JFactory<DMCReaction> *factory, string tag,
1097	JEventLoop *loop)
1098	{
1099	/// Copies the data from the given hddm_s structure. This is called
1100	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1101	/// returns OBJECT_NOT_AVAILABLE immediately.
1102
1103	if (tag != "")
1104	return OBJECT_NOT_AVAILABLE;
1105
1106	if (factory == NULL__null)
1107	return OBJECT_NOT_AVAILABLE;
1108
1109	double locTargetCenterZ = 0.0;
1110	int locRunNumber = loop->GetJEvent().GetRunNumber();
1111	LockRead();
1112	{
1113	locTargetCenterZ = dTargetCenterZMap[locRunNumber];
1114	}
1115	UnlockRead();
1116	DVector3 locPosition(0.0, 0.0, locTargetCenterZ);
1117
1118	vector<DMCReaction*> dmcreactions;
1119
1120	const hddm_s::ReactionList &reacts = record->getReactions();
1121	hddm_s::ReactionList::iterator iter;
1122	for (iter = reacts.begin(); iter != reacts.end(); ++iter) {
1123	DMCReaction *mcreaction = new DMCReaction;
1124	dmcreactions.push_back(mcreaction);
1125	mcreaction->type = iter->getType();
1126	mcreaction->weight = iter->getWeight();
1127	hddm_s::Origin &origin = iter->getVertex().getOrigin();
1128	double torig = origin.getT();
1129	double zorig = origin.getVz();
1130
1131	const hddm_s::BeamList &beams = record->getBeams();
1132	if (beams.size() > 0) {
1133	hddm_s::Beam &beam = iter->getBeam();
1134	DVector3 mom(beam.getMomentum().getPx(),
1135	beam.getMomentum().getPy(),
1136	beam.getMomentum().getPz());
1137	mcreaction->beam.setPosition(locPosition);
1138	mcreaction->beam.setMomentum(mom);
1139	mcreaction->beam.setPID(Gamma);
1140	mcreaction->target.setPID(IDTrack(mcreaction->beam.charge(),
1141	mcreaction->beam.mass()));
1142	mcreaction->beam.setTime(torig - (zorig - locTargetCenterZ)/29.9792458);
1143	}
1144	else {
1145	// fake values for DMCReaction
1146	mcreaction->beam.setPosition(locPosition);
1147	mcreaction->beam.setPID(Gamma);
1148	}
1149
1150	const hddm_s::TargetList &targets = record->getTargets();
1151	if (targets.size() > 0) {
1152	hddm_s::Target &target = iter->getTarget();
1153	DKinematicData target_kd;
1154	DVector3 mom(target.getMomentum().getPx(),
1155	target.getMomentum().getPy(),
1156	target.getMomentum().getPz());
1157	mcreaction->target.setPosition(locPosition);
1158	mcreaction->target.setMomentum(mom);
1159	hddm_s::PropertiesList &properties = target.getPropertiesList();
1160	if (properties.size() > 0) {
1161	mcreaction->target.setPID(IDTrack(properties(0).getCharge(),
1162	properties(0).getMass()));
1163	}
1164	mcreaction->target.setTime(torig - (zorig - locTargetCenterZ)/29.9792458);
1165	}
1166	else {
1167	// fake values for DMCReaction
1168	mcreaction->target.setPosition(locPosition);
1169	}
1170	}
1171
1172	// Copy into factories
1173	//_DBG_<<"Creating "<<dmcreactions.size()<<" DMCReaction objects"<<endl;
1174
1175	factory->CopyTo(dmcreactions);
1176
1177	return NOERROR;
1178	}
1179
1180	//------------------
1181	// Extract_DMCThrown
1182	//------------------
1183	jerror_t DEventSourceHDDM::Extract_DMCThrown(hddm_s::HDDM *record,
1184	JFactory<DMCThrown> *factory, string tag)
1185	{
1186	/// Copies the data from the given hddm_s structure. This is called
1187	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1188	/// returns OBJECT_NOT_AVAILABLE immediately.
1189
1190	if (factory == NULL__null)
1191	return OBJECT_NOT_AVAILABLE;
1192	if (tag != "")
1193	return OBJECT_NOT_AVAILABLE;
1194
1195	vector<DMCThrown*> data;
1196
1197	const hddm_s::VertexList &verts = record->getVertices();
1198	hddm_s::VertexList::iterator iter;
1199	for (iter = verts.begin(); iter != verts.end(); ++iter) {
1200	const hddm_s::OriginList &origs = iter->getOrigins();
1201	const hddm_s::ProductList &prods = iter->getProducts();
1202	double vertex[4] = {0., 0., 0., 0.};
1203	if (origs.size() > 0) {
1204	vertex[0] = iter->getOrigin().getT();
1205	vertex[1] = iter->getOrigin().getVx();
1206	vertex[2] = iter->getOrigin().getVy();
1207	vertex[3] = iter->getOrigin().getVz();
1208	}
1209	hddm_s::ProductList::iterator piter;
1210	for (piter = prods.begin(); piter != prods.end(); ++piter) {
1211	double E = piter->getMomentum().getE();
1212	double px = piter->getMomentum().getPx();
1213	double py = piter->getMomentum().getPy();
1214	double pz = piter->getMomentum().getPz();
1215	double mass = sqrt(EE - (pxpx + pypy + pzpz));
1216	if (!isfinite(mass))
1217	mass = 0.0;
	Value stored to 'mass' is never read
1218	DMCThrown *mcthrown = new DMCThrown;
1219	mcthrown->type = piter->getType(); // GEANT partcile type
1220	mcthrown->myid = piter->getId();
1221	mcthrown->parentid = piter->getParentid();
1222	mcthrown->mech = piter->getMech();
1223	mcthrown->pdgtype = piter->getPdgtype(); // PDG particle type
1224	// Ensure consistency of GEANT type and PDG type information
1225	const Particle_t pTypeFromPdgType = PDGtoPType(mcthrown->pdgtype);
1226	if (mcthrown->type != (int)pTypeFromPdgType) {
1227	// GEANT type and PDG type information are inconsistent
1228	if ((mcthrown->type == 0) and (pTypeFromPdgType != Unknown)) {
1229	// Workaround for cases where `type` is 0, i.e. Unknown, but the `pgdtype` is valid
1230	// This may happen, for example, when EvtGen is used to decay particles
1231	// Assume that the PDG type info is correct and set the GEANT type accordingly
1232	mcthrown->type = (int)pTypeFromPdgType;
1233	} else if ((pTypeFromPdgType == Unknown) and (PDGtype((Particle_t)mcthrown->type) != 0)) {
1234	// Workaround for cases where the `pgdtype` is Unknown, but `type` is not Unknown
1235	// Assume that the GEANT type info is correct and set the PDG type accordingly
1236	mcthrown->pdgtype = PDGtype((Particle_t)mcthrown->type);
1237	} else {
1238	// Both types inconsistent but also not Unknown; not clear which is correct
1239	jerr << std::endl
1240	<< "WARNING: type mismatch for MC-thrown particle with myid = " << mcthrown->myid
1241	<< ": GEANT type = " << mcthrown->type
1242	<< " vs. PDG type = " << mcthrown->pdgtype << "."
1243	<< std::endl;
1244	}
1245	}
1246	mcthrown->setPID((Particle_t)mcthrown->type);
1247	mcthrown->setMomentum(DVector3(px, py, pz));
1248	mcthrown->setPosition(DVector3(vertex[1], vertex[2], vertex[3]));
1249	mcthrown->setTime(vertex[0]);
1250	data.push_back(mcthrown);
1251	}
1252	}
1253
1254	// Copy into factory
1255	factory->CopyTo(data);
1256
1257	return NOERROR;
1258	}
1259
1260	//------------------
1261	// Extract_DCDCHit
1262	//------------------
1263	jerror_t DEventSourceHDDM::Extract_DCDCHit(JEventLoop* locEventLoop, hddm_s::HDDM *record,
1264	JFactory<DCDCHit> *factory, string tag)
1265	{
1266	/// Copies the data from the given hddm_s structure. This is called
1267	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1268	/// returns OBJECT_NOT_AVAILABLE immediately.
1269
1270	if (factory == NULL__null)
1271	return OBJECT_NOT_AVAILABLE;
1272
1273	// Since we are writing out CDC hits with the new "Calib" tag by default
1274	// assume that is what we are reading in, so that we don't support the
1275	// default tag anymore
1276	// sdobbs -- 3/13/2018
1277	//if (tag != "" && tag != "TRUTH" && tag != "Calib")
1278	if (tag != "TRUTH" && tag != "Calib")
1279	return OBJECT_NOT_AVAILABLE;
1280
1281	vector<DCDCHit*> data;
1282
1283	if ( tag == "" \|\| tag == "Calib" ) {
1284	vector<const DCDCHit*> locTruthHits;
1285	locEventLoop->Get(locTruthHits, "TRUTH");
1286
1287	//pre-sort truth hits
1288	map<pair<int, int>, vector<const DCDCHit*>> locTruthHitMap; //key pair: ring, straw
1289	for(auto& locTruthHit : locTruthHits)
1290	locTruthHitMap[std::make_pair(locTruthHit->ring, locTruthHit->straw)].push_back(locTruthHit);
1291
1292	const hddm_s::CdcStrawHitList &hits = record->getCdcStrawHits();
1293	hddm_s::CdcStrawHitList::iterator iter;
1294	int locIndex = 0;
1295	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1296	DCDCHit *hit = new DCDCHit;
1297	hit->ring = iter->getRing();
1298	hit->straw = iter->getStraw();
1299	hit->q = iter->getQ();
1300	hit->t = iter->getT();
1301	if(iter->getCdcDigihits().size() > 0) {
1302	hit->amp = iter->getCdcDigihit().getPeakAmp();
1303	}
1304	else{
1305	// for generated events (not folded-in background events) for which we
1306	// have no digi hits return q
1307	hit->amp=hit->q;
1308	}
1309	hit->QF = 0;
1310	if(iter->getCdcHitQFs().size() > 0) {
1311	hit->QF = iter->getCdcHitQF().getQF();
1312	}
1313	hit->d = 0.; // initialize to zero to avoid any NaN
1314	hit->itrack = 0; // track information is in TRUTH tag
1315	hit->ptype = 0; // ditto
1316
1317	//match hit between truth & recon
1318	auto& locPotentialTruthHits = locTruthHitMap[std::make_pair(hit->ring, hit->straw)];
1319	double locBestDeltaT = 9.9E99;
1320	const DCDCHit* locBestTruthHit = nullptr;
1321	for(auto& locTruthHit : locPotentialTruthHits)
1322	{
1323	auto locDeltaT = fabs(hit->t - locTruthHit->t);
1324	if(locDeltaT >= locBestDeltaT)
1325	continue;
1326	locBestDeltaT = locDeltaT;
1327	locBestTruthHit = locTruthHit;
1328	}
1329	if(locBestTruthHit != nullptr)
1330	hit->AddAssociatedObject(locBestTruthHit);
1331
1332	data.push_back(hit);
1333	++locIndex;
1334	}
1335	}
1336	else if (tag == "TRUTH") {
1337	const hddm_s::CdcStrawTruthHitList &thits = record->getCdcStrawTruthHits();
1338	hddm_s::CdcStrawTruthHitList::iterator iter;
1339	for (iter = thits.begin(); iter != thits.end(); ++iter) {
1340	DCDCHit *hit = new DCDCHit;
1341	hit->ring = iter->getRing();
1342	hit->straw = iter->getStraw();
1343	hit->q = iter->getQ();
1344	hit->t = iter->getT();
1345	hit->d = iter->getD();
1346	hit->itrack = iter->getItrack();
1347	hit->ptype = iter->getPtype();
1348	data.push_back(hit);
1349	}
1350	}
1351
1352	// Copy into factory
1353	factory->CopyTo(data);
1354
1355	return NOERROR;
1356	}
1357
1358
1359	//------------------
1360	// Extract_DFDCHit
1361	//------------------
1362	jerror_t DEventSourceHDDM::Extract_DFDCHit(hddm_s::HDDM *record,
1363	JFactory<DFDCHit> *factory, string tag)
1364	{
1365	/// Copies the data from the given hddm_s structure. This is called
1366	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1367	/// returns OBJECT_NOT_AVAILABLE immediately.
1368
1369	if (factory == NULL__null)
1370	return OBJECT_NOT_AVAILABLE;
1371	if (tag != "" && tag != "TRUTH" && tag != "CALIB")
1372	return OBJECT_NOT_AVAILABLE;
1373
1374	vector<DFDCHit*> data;
1375
1376	if (tag == "") {
1377	const hddm_s::FdcAnodeHitList &ahits = record->getFdcAnodeHits();
1378	hddm_s::FdcAnodeHitList::iterator ahiter;
1379	for (ahiter = ahits.begin(); ahiter != ahits.end(); ++ahiter) {
1380	DFDCHit* newHit = new DFDCHit();
1381	newHit->layer = ahiter->getLayer();
1382	newHit->module = ahiter->getModule();
1383	newHit->element = ahiter->getWire();
1384	newHit->q = ahiter->getDE();
1385	newHit->pulse_height = 0.; // not measured
1386	newHit->t = ahiter->getT();
1387	newHit->d = 0.; // initialize to zero to avoid any NaN
1388	newHit->itrack = 0; // track information is in TRUTH tag
1389	newHit->ptype = 0; // ditto
1390	newHit->plane = 2;
1391	newHit->type = 0;
1392	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1393	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1394	newHit->r = DFDCGeometry::getWireR(newHit);
1395	data.push_back(newHit);
1396	}
1397
1398	// Ditto for the cathodes.
1399	const hddm_s::FdcCathodeHitList &chits = record->getFdcCathodeHits();
1400	hddm_s::FdcCathodeHitList::iterator chiter;
1401	for (chiter = chits.begin(); chiter != chits.end(); ++chiter) {
1402	DFDCHit* newHit = new DFDCHit();
1403	newHit->layer = chiter->getLayer();
1404	newHit->module = chiter->getModule();
1405	newHit->element = chiter->getStrip();
1406	if (newHit->element > 1000)
1407	newHit->element -= 1000;
1408	newHit->plane = chiter->getPlane();
1409	newHit->q = chiter->getQ();
1410	newHit->pulse_height = newHit->q;
1411	if(chiter->getFdcDigihits().size() > 0) {
1412	newHit->pulse_height = chiter->getFdcDigihit().getPeakAmp();
1413	}
1414	newHit->t = chiter->getT();
1415	newHit->d = 0.; // initialize to zero to avoid any NaN
1416	newHit->itrack = 0; // track information is in TRUTH tag
1417	newHit->ptype = 0; // ditto
1418	newHit->type = 1;
1419	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1420	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1421	newHit->r = DFDCGeometry::getStripR(newHit);
1422	data.push_back(newHit);
1423	}
1424	}
1425
1426	else if (tag == "TRUTH"){
1427	const hddm_s::FdcAnodeTruthHitList &aths = record->getFdcAnodeTruthHits();
1428	hddm_s::FdcAnodeTruthHitList::iterator atiter;
1429	for (atiter = aths.begin(); atiter != aths.end(); ++atiter) {
1430	DFDCHit* newHit = new DFDCHit();
1431	newHit->layer = atiter->getLayer();
1432	newHit->module = atiter->getModule();
1433	newHit->element = atiter->getWire();
1434	newHit->q = atiter->getDE();
1435	newHit->pulse_height=0.; // not measured
1436	newHit->t = atiter->getT();
1437	newHit->d = atiter->getD();
1438	newHit->itrack = atiter->getItrack();
1439	newHit->ptype = atiter->getPtype();
1440	newHit->plane = 2;
1441	newHit->type = 0;
1442	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1443	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1444	newHit->r = DFDCGeometry::getWireR(newHit);
1445	data.push_back(newHit);
1446	}
1447
1448	// Ditto for the cathodes.
1449	const hddm_s::FdcCathodeTruthHitList &cths =
1450	record->getFdcCathodeTruthHits();
1451	hddm_s::FdcCathodeTruthHitList::iterator ctiter;
1452	for (ctiter = cths.begin(); ctiter != cths.end(); ++ctiter) {
1453	DFDCHit* newHit = new DFDCHit();
1454	newHit->layer = ctiter->getLayer();
1455	newHit->module = ctiter->getModule();
1456	newHit->element = ctiter->getStrip();
1457	if (newHit->element > 1000)
1458	newHit->element -= 1000;
1459	newHit->plane = ctiter->getPlane();
1460	newHit->q = ctiter->getQ();
1461	newHit->pulse_height = newHit->q;
1462	newHit->t = ctiter->getT();
1463	newHit->d = 0.; // initialize to zero to avoid any NaN
1464	newHit->itrack = ctiter->getItrack();
1465	newHit->ptype = ctiter->getPtype();
1466	newHit->type = 1;
1467	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1468	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1469	newHit->r = DFDCGeometry::getStripR(newHit);
1470	data.push_back(newHit);
1471	}
1472	}
1473
1474	else if (tag == "CALIB") {
1475	// Deal with the wires
1476	const hddm_s::FdcAnodeHitList &ahits = record->getFdcAnodeHits();
1477	hddm_s::FdcAnodeHitList::iterator ahiter;
1478	for (ahiter = ahits.begin(); ahiter != ahits.end(); ++ahiter) {
1479	DFDCHit* newHit = new DFDCHit();
1480	newHit->layer = ahiter->getLayer();
1481	newHit->module = ahiter->getModule();
1482	newHit->element = ahiter->getWire();
1483	newHit->q = ahiter->getDE();
1484	newHit->t = ahiter->getT();
1485	newHit->d = 0.; // initialize to zero to avoid any NaN
1486	newHit->itrack = 0; // track information is in TRUTH tag
1487	newHit->ptype = 0; // ditto
1488	newHit->plane = 2;
1489	newHit->type = 0;
1490	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1491	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1492	newHit->r = DFDCGeometry::getWireR(newHit);
1493	data.push_back(newHit);
1494	}
1495
1496	// Ditto for the cathodes.
1497	const hddm_s::FdcCathodeHitList &chits = record->getFdcCathodeHits();
1498	hddm_s::FdcCathodeHitList::iterator chiter;
1499	for (chiter = chits.begin(); chiter != chits.end(); ++chiter) {
1500	DFDCHit* newHit = new DFDCHit();
1501	newHit->layer = chiter->getLayer();
1502	newHit->module = chiter->getModule();
1503	newHit->element = chiter->getStrip();
1504	if (newHit->element > 1000)
1505	newHit->element-=1000;
1506	newHit->plane = chiter->getPlane();
1507	if (newHit->plane == 1) // v
1508	newHit->q = chiter->getQ()*vscale[newHit->element-1];
1509	else // u
1510	newHit->q = chiter->getQ()*uscale[newHit->element-1];
1511	newHit->t = chiter->getT();
1512	newHit->d = 0.; // initialize to zero to avoid any NaN
1513	newHit->itrack = 0; // track information is in TRUTH tag
1514	newHit->ptype = 0; // ditto
1515	newHit->type = 1;
1516	newHit->gPlane = DFDCGeometry::gPlane(newHit);
1517	newHit->gLayer = DFDCGeometry::gLayer(newHit);
1518	newHit->r = DFDCGeometry::getStripR(newHit);
1519	data.push_back(newHit);
1520	}
1521	}
1522
1523	// Copy into factory
1524	factory->CopyTo(data);
1525
1526	return NOERROR;
1527	}
1528
1529	//------------------
1530	// Extract_DBCALTruthShower
1531	//------------------
1532	jerror_t DEventSourceHDDM::Extract_DBCALTruthShower(hddm_s::HDDM *record,
1533	JFactory<DBCALTruthShower> *factory,
1534	string tag)
1535	{
1536	/// Copies the data from the given hddm_s structure. This is called
1537	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1538	/// returns OBJECT_NOT_AVAILABLE immediately.
1539
1540	if (factory == NULL__null)
1541	return OBJECT_NOT_AVAILABLE;
1542	if (tag != "")
1543	return OBJECT_NOT_AVAILABLE;
1544
1545	vector<DBCALTruthShower*> data;
1546
1547	const hddm_s::BcalTruthShowerList &shows = record->getBcalTruthShowers();
1548	hddm_s::BcalTruthShowerList::iterator iter;
1549	for (iter = shows.begin(); iter != shows.end(); ++iter) {
1550	DBCALTruthShower *bcaltruth = new DBCALTruthShower;
1551	bcaltruth->track = iter->getTrack();
1552	bcaltruth->ptype = iter->getPtype();
1553	bcaltruth->primary = (iter->getPrimary())? 1 : 0;
1554	bcaltruth->phi = iter->getPhi();
1555	bcaltruth->r = iter->getR();
1556	bcaltruth->z = iter->getZ();
1557	bcaltruth->t = iter->getT();
1558	bcaltruth->E = iter->getE();
1559	bcaltruth->px = iter->getPx();
1560	bcaltruth->py = iter->getPy();
1561	bcaltruth->pz = iter->getPz();
1562	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
1563	bcaltruth->itrack = (ids.size())? ids.begin()->getItrack() : 0;
1564	data.push_back(bcaltruth);
1565	}
1566
1567	// Copy into factory
1568	factory->CopyTo(data);
1569
1570	return NOERROR;
1571	}
1572
1573	//------------------
1574	// Extract_DBCALTruthCell
1575	//------------------
1576	jerror_t DEventSourceHDDM::Extract_DBCALTruthCell(hddm_s::HDDM *record,
1577	JFactory<DBCALTruthCell> *factory,
1578	string tag)
1579	{
1580	/// Copies the data from the given hddm_s structure. This is called
1581	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1582	/// returns OBJECT_NOT_AVAILABLE immediately.
1583
1584	if (factory == NULL__null)
1585	return OBJECT_NOT_AVAILABLE;
1586	if (tag != "")
1587	return OBJECT_NOT_AVAILABLE;
1588
1589	vector<DBCALTruthCell*> data;
1590
1591	const hddm_s::BcalTruthHitList &hits = record->getBcalTruthHits();
1592	hddm_s::BcalTruthHitList::iterator hiter;
1593	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
1594	DBCALTruthCell *truthcell = new DBCALTruthCell();
1595	truthcell->module = hiter->getModule();
1596	truthcell->layer = hiter->getLayer();
1597	truthcell->sector = hiter->getSector();
1598	truthcell->E = hiter->getE();
1599	truthcell->t = hiter->getT();
1600	truthcell->zLocal = hiter->getZLocal();
1601	data.push_back(truthcell);
1602	}
1603
1604	// Copy into factory
1605	factory->CopyTo(data);
1606
1607	return NOERROR;
1608	}
1609
1610	//------------------
1611	// Extract_DFCALTruthShower
1612	//------------------
1613	jerror_t DEventSourceHDDM::Extract_DFCALTruthShower(hddm_s::HDDM *record,
1614	JFactory<DFCALTruthShower> *factory,
1615	string tag)
1616	{
1617	/// Copies the data from the given hddm_s structure. This is called
1618	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1619	/// returns OBJECT_NOT_AVAILABLE immediately.
1620
1621	if (factory == NULL__null)
1622	return OBJECT_NOT_AVAILABLE;
1623	if (tag != "")
1624	return OBJECT_NOT_AVAILABLE;
1625
1626	vector<DFCALTruthShower*> data;
1627	JObject::oid_t id=1;
1628
1629	const hddm_s::FcalTruthShowerList &shows = record->getFcalTruthShowers();
1630	hddm_s::FcalTruthShowerList::iterator iter;
1631	for (iter = shows.begin(); iter != shows.end(); ++iter) {
1632	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
1633	int itrack = (ids.size())? ids.begin()->getItrack() : 0;
1634	DFCALTruthShower *dfcaltruthshower = new DFCALTruthShower(
1635	id++,
1636	iter->getX(),
1637	iter->getY(),
1638	iter->getZ(),
1639	iter->getPx(),
1640	iter->getPy(),
1641	iter->getPz(),
1642	iter->getE(),
1643	iter->getT(),
1644	iter->getPrimary(),
1645	iter->getTrack(),
1646	iter->getPtype(),
1647	itrack
1648	);
1649	data.push_back(dfcaltruthshower);
1650	}
1651
1652	// Copy into factory
1653	factory->CopyTo(data);
1654
1655	return NOERROR;
1656	}
1657
1658	//------------------
1659	// Extract_DFCALHit
1660	//------------------
1661	jerror_t DEventSourceHDDM::Extract_DFCALHit(hddm_s::HDDM *record,
1662	JFactory<DFCALHit> *factory, string tag,
1663	JEventLoop* eventLoop)
1664	{
1665	/// Copies the data from the given hddm_s structure. This is called
1666	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1667	/// returs OBJECT_NOT_AVAILABLE immediately.
1668
1669	if (factory == NULL__null)
1670	return OBJECT_NOT_AVAILABLE;
1671	if (tag != "" && tag != "TRUTH")
1672	return OBJECT_NOT_AVAILABLE;
1673
1674	// extract the FCAL Geometry (for isBlockActive() and positionOnFace())
1675	vector<const DFCALGeometry*> fcalGeomVect;
1676	eventLoop->Get( fcalGeomVect );
1677	if (fcalGeomVect.size() < 1)
1678	return OBJECT_NOT_AVAILABLE;
1679	const DFCALGeometry& fcalGeom = *(fcalGeomVect[0]);
1680
1681	vector<DFCALHit*> data;
1682
1683	if (tag == "") {
1684	const hddm_s::FcalHitList &hits = record->getFcalHits();
1685	hddm_s::FcalHitList::iterator iter;
1686	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1687	int row = iter->getRow();
1688	int column = iter->getColumn();
1689
1690	// Filter out non-physical blocks here
1691	if (!fcalGeom.isBlockActive(row, column))
1692	continue;
1693
1694	// Get position of blocks on front face. (This should really come from
1695	// hdgeant directly so the positions can be shifted in mcsmear.)
1696	DVector2 pos = fcalGeom.positionOnFace(row, column);
1697
1698	DFCALHit *mchit = new DFCALHit();
1699	mchit->row = row;
1700	mchit->column = column;
1701	mchit->x = pos.X();
1702	mchit->y = pos.Y();
1703	mchit->E = iter->getE();
1704	mchit->t = iter->getT();
1705	mchit->intOverPeak = 6.;
1706	if(iter->getFcalDigihits().size() > 0) {
1707	mchit->intOverPeak = iter->getFcalDigihit().getIntegralOverPeak();
1708	}
1709	data.push_back(mchit);
1710	}
1711	}
1712	else if (tag == "TRUTH") {
1713	const hddm_s::FcalTruthHitList &hits = record->getFcalTruthHits();
1714	hddm_s::FcalTruthHitList::iterator iter;
1715	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1716	int row = iter->getRow();
1717	int column = iter->getColumn();
1718
1719	// Filter out non-physical blocks here
1720	if (!fcalGeom.isBlockActive(row, column))
1721	continue;
1722
1723	// Get position of blocks on front face. (This should really come from
1724	// hdgeant directly so the positions can be shifted in mcsmear.)
1725	DVector2 pos = fcalGeom.positionOnFace(row, column);
1726
1727	DFCALHit *mchit = new DFCALHit();
1728	mchit->row = row;
1729	mchit->column = column;
1730	mchit->x = pos.X();
1731	mchit->y = pos.Y();
1732	mchit->E = iter->getE();
1733	mchit->t = iter->getT();
1734	mchit->intOverPeak = 6.;
1735	data.push_back(mchit);
1736	}
1737	}
1738
1739	// Copy into factory
1740	factory->CopyTo(data);
1741
1742	return NOERROR;
1743	}
1744
1745	//------------------
1746	// Extract_DCCALTruthShower
1747	//------------------
1748	jerror_t DEventSourceHDDM::Extract_DCCALTruthShower(hddm_s::HDDM *record,
1749	JFactory<DCCALTruthShower> *factory,
1750	string tag)
1751	{
1752	/// Copies the data from the given hddm_s structure. This is called
1753	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1754	/// returns OBJECT_NOT_AVAILABLE immediately.
1755
1756	if (factory == NULL__null)
1757	return OBJECT_NOT_AVAILABLE;
1758	if (tag != "")
1759	return OBJECT_NOT_AVAILABLE;
1760
1761	vector<DCCALTruthShower*> data;
1762	JObject::oid_t id=1;
1763
1764	const hddm_s::CcalTruthShowerList &shows = record->getCcalTruthShowers();
1765	hddm_s::CcalTruthShowerList::iterator iter;
1766	for (iter = shows.begin(); iter != shows.end(); ++iter) {
1767	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
1768	int itrack = (ids.size())? ids.begin()->getItrack() : 0;
1769	DCCALTruthShower *dccaltruthshower = new DCCALTruthShower(
1770	id++,
1771	iter->getX(),
1772	iter->getY(),
1773	iter->getZ(),
1774	iter->getPx(),
1775	iter->getPy(),
1776	iter->getPz(),
1777	iter->getE(),
1778	iter->getT(),
1779	iter->getPrimary(),
1780	iter->getTrack(),
1781	iter->getPtype(),
1782	itrack
1783	);
1784	data.push_back(dccaltruthshower);
1785	}
1786
1787	// Copy into factory
1788	factory->CopyTo(data);
1789
1790	return NOERROR;
1791	}
1792
1793	//------------------
1794	// Extract_DCCALHit
1795	//------------------
1796	jerror_t DEventSourceHDDM::Extract_DCCALHit(hddm_s::HDDM *record,
1797	JFactory<DCCALHit> *factory, string tag,
1798	JEventLoop* eventLoop)
1799	{
1800	/// Copies the data from the given hddm_s structure. This is called
1801	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1802	/// returs OBJECT_NOT_AVAILABLE immediately.
1803
1804	if (factory == NULL__null)
1805	return OBJECT_NOT_AVAILABLE;
1806	if (tag != "" && tag != "TRUTH")
1807	return OBJECT_NOT_AVAILABLE;
1808
1809	// extract the CCAL Geometry (for isBlockActive() and positionOnFace())
1810	vector<const DCCALGeometry*> ccalGeomVect;
1811	eventLoop->Get( ccalGeomVect );
1812	if (ccalGeomVect.size() < 1)
1813	return OBJECT_NOT_AVAILABLE;
1814	const DCCALGeometry& ccalGeom = *(ccalGeomVect[0]);
1815
1816	vector<DCCALHit*> data;
1817	int hitId = 0;
1818
1819	if (tag == "") {
1820	const hddm_s::CcalHitList &hits = record->getCcalHits();
1821	hddm_s::CcalHitList::iterator iter;
1822	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1823	int row = iter->getRow();
1824	int column = iter->getColumn();
1825
1826	// Filter out non-physical blocks here
1827	if (!ccalGeom.isBlockActive(row, column))
1828	continue;
1829
1830	// Get position of blocks on front face. (This should really come from
1831	// hdgeant directly so the poisitions can be shifted in mcsmear.)
1832	DVector2 pos = ccalGeom.positionOnFace(row, column);
1833
1834	DCCALHit *mchit = new DCCALHit();
1835	mchit->row = row;
1836	mchit->column = column;
1837	mchit->x = pos.X();
1838	mchit->y = pos.Y();
1839	mchit->E = iter->getE();
1840	mchit->t = iter->getT();
1841	mchit->id = hitId++;
1842	data.push_back(mchit);
1843	}
1844	}
1845
1846	else if (tag == "TRUTH") {
1847	const hddm_s::CcalTruthHitList &hits = record->getCcalTruthHits();
1848	hddm_s::CcalTruthHitList::iterator iter;
1849	for (iter = hits.begin(); iter != hits.end(); ++iter) {
1850	int row = iter->getRow();
1851	int column = iter->getColumn();
1852
1853	// Filter out non-physical blocks here
1854	if (!ccalGeom.isBlockActive(row, column))
1855	continue;
1856
1857	// Get position of blocks on front face. (This should really come from
1858	// hdgeant directly so the poisitions can be shifted in mcsmear.)
1859	DVector2 pos = ccalGeom.positionOnFace(row, column);
1860
1861	DCCALHit *mchit = new DCCALHit();
1862	mchit->row = row;
1863	mchit->column = column;
1864	mchit->x = pos.X();
1865	mchit->y = pos.Y();
1866	mchit->E = iter->getE();
1867	mchit->t = iter->getT();
1868	mchit->id = hitId++;
1869	data.push_back(mchit);
1870	}
1871	}
1872
1873	// Copy into factory
1874	factory->CopyTo(data);
1875
1876	return NOERROR;
1877	}
1878
1879	//------------------
1880	// Extract_DMCTrajectoryPoint
1881	//------------------
1882	jerror_t DEventSourceHDDM::Extract_DMCTrajectoryPoint(hddm_s::HDDM *record,
1883	JFactory<DMCTrajectoryPoint> *factory,
1884	string tag)
1885	{
1886	/// Copies the data from the given hddm_s structure. This is called
1887	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1888	/// returns OBJECT_NOT_AVAILABLE immediately.
1889
1890	if (factory == NULL__null)
1891	return OBJECT_NOT_AVAILABLE;
1892	if (tag != "")
1893	return OBJECT_NOT_AVAILABLE;
1894
1895	vector<DMCTrajectoryPoint*> data;
1896
1897	const hddm_s::McTrajectoryPointList &pts = record->getMcTrajectoryPoints();
1898	hddm_s::McTrajectoryPointList::iterator iter;
1899	for (iter = pts.begin(); iter != pts.end(); ++iter) {
1900	DMCTrajectoryPoint *p = new DMCTrajectoryPoint;
1901	p->x = iter->getX();
1902	p->y = iter->getY();
1903	p->z = iter->getZ();
1904	p->t = iter->getT();
1905	p->px = iter->getPx();
1906	p->py = iter->getPy();
1907	p->pz = iter->getPz();
1908	p->E = iter->getE();
1909	p->dE = iter->getDE();
1910	p->primary_track = iter->getPrimary_track();
1911	p->track = iter->getTrack();
1912	p->part = iter->getPart();
1913	p->radlen = iter->getRadlen();
1914	p->step = iter->getStep();
1915	p->mech = iter->getMech();
1916	data.push_back(p);
1917	}
1918
1919	// Copy into factory
1920	factory->CopyTo(data);
1921
1922	return NOERROR;
1923	}
1924
1925	//------------------
1926	// Extract_DTOFTruth
1927	//------------------
1928	jerror_t DEventSourceHDDM::Extract_DTOFTruth(hddm_s::HDDM *record,
1929	JFactory<DTOFTruth>* factory, string tag)
1930	{
1931	/// Copies the data from the given hddm_s structure. This is called
1932	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1933	/// returns OBJECT_NOT_AVAILABLE immediately.
1934
1935	if (factory == NULL__null)
1936	return OBJECT_NOT_AVAILABLE;
1937	if (tag != "")
1938	return OBJECT_NOT_AVAILABLE;
1939
1940	vector<DTOFTruth*> data;
1941
1942	const hddm_s::FtofTruthPointList &points = record->getFtofTruthPoints();
1943	hddm_s::FtofTruthPointList::iterator iter;
1944	for (iter = points.begin(); iter != points.end(); ++iter) {
1945	DTOFTruth *toftruth = new DTOFTruth;
1946	toftruth->primary = iter->getPrimary();
1947	toftruth->track = iter->getTrack();
1948	toftruth->x = iter->getX();
1949	toftruth->y = iter->getY();
1950	toftruth->z = iter->getZ();
1951	toftruth->t = iter->getT();
1952	toftruth->px = iter->getPx();
1953	toftruth->py = iter->getPy();
1954	toftruth->pz = iter->getPz();
1955	toftruth->E = iter->getE();
1956	toftruth->ptype = iter->getPtype();
1957	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
1958	toftruth->itrack = (ids.size())? ids.begin()->getItrack() : 0;
1959	data.push_back(toftruth);
1960	}
1961
1962	// Copy into factory
1963	factory->CopyTo(data);
1964
1965	return NOERROR;
1966	}
1967
1968	//------------------
1969	// Extract_DTOFHit
1970	//------------------
1971	jerror_t DEventSourceHDDM::Extract_DTOFHit( hddm_s::HDDM *record,
1972	JFactory<DTOFHit>* factory,
1973	JFactory<DTOFHitMC> *factoryMC,
1974	string tag)
1975	{
1976	/// Copies the data from the given hddm_s structure. This is called
1977	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
1978	/// returns OBJECT_NOT_AVAILABLE immediately.
1979
1980	if (factory == NULL__null)
1981	return OBJECT_NOT_AVAILABLE;
1982	if (tag != "" && tag != "TRUTH")
1983	return OBJECT_NOT_AVAILABLE;
1984
1985	vector<DTOFHit*> data;
1986	vector<DTOFHitMC*> dataMC;
1987
1988	const hddm_s::FtofCounterList &ctrs = record->getFtofCounters();
1989	hddm_s::FtofCounterList::iterator iter;
1990	for (iter = ctrs.begin(); iter != ctrs.end(); ++iter) {
1991	if (tag == "") {
1992	vector<DTOFHit*> north_hits;
1993	vector<DTOFHit*> south_hits;
1994
1995	// Loop over north AND south hits
1996	const hddm_s::FtofHitList &hits = iter->getFtofHits();
1997	hddm_s::FtofHitList::iterator hiter;
1998	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
1999	DTOFHit *tofhit = new DTOFHit;
2000	tofhit->bar = hiter->getBar();
2001	tofhit->plane = hiter->getPlane();
2002	tofhit->end = hiter->getEnd();
2003	tofhit->dE = hiter->getDE();
2004	tofhit->Amp = 0.;
2005	if(hiter->getFtofDigihits().size() > 0) {
2006	tofhit->Amp = hiter->getFtofDigihit().getPeakAmp();
2007	}
2008	tofhit->t = hiter->getT();
2009	tofhit->t_TDC = tofhit->t;
2010	tofhit->t_fADC= tofhit->t;
2011	tofhit->has_TDC=true;
2012	tofhit->has_fADC=true;
2013	data.push_back(tofhit);
2014	if (tofhit->end == 0)
2015	north_hits.push_back(tofhit);
2016	else
2017	south_hits.push_back(tofhit);
2018	}
2019
2020	// return truth hits in a different factory
2021	const hddm_s::FtofTruthHitList &truths = iter->getFtofTruthHits();
2022	hddm_s::FtofTruthHitList::iterator titer;
2023	unsigned int north_mchits = 0;
2024	unsigned int south_mchits = 0;
2025	for (titer = truths.begin(); titer != truths.end(); ++titer) {
2026	DTOFHitMC *tofmchit = new DTOFHitMC;
2027	tofmchit->bar = titer->getBar();
2028	tofmchit->plane = titer->getPlane();
2029	tofmchit->end = titer->getEnd();
2030	tofmchit->itrack = titer->getFtofTruthExtra(0).getItrack();
2031	tofmchit->ptype = titer->getFtofTruthExtra(0).getPtype();
2032	tofmchit->dist = titer->getFtofTruthExtra(0).getDist();
2033	tofmchit->x = titer->getFtofTruthExtra(0).getX();
2034	tofmchit->y = titer->getFtofTruthExtra(0).getY();
2035	tofmchit->z = titer->getFtofTruthExtra(0).getZ();
2036	tofmchit->px = titer->getFtofTruthExtra(0).getPx();
2037	tofmchit->py = titer->getFtofTruthExtra(0).getPy();
2038	tofmchit->pz = titer->getFtofTruthExtra(0).getPz();
2039	tofmchit->E = titer->getFtofTruthExtra(0).getE();
2040	dataMC.push_back(tofmchit);
2041
2042	// best-guess at tofhit-tofMChit association, not exact
2043	if (tofmchit->end == 0) {
2044	if (north_mchits < north_hits.size()) {
2045	north_hits[north_mchits]->AddAssociatedObject(tofmchit);
2046	}
2047	north_mchits++;
2048	}
2049	else {
2050	if (south_mchits < south_hits.size()) {
2051	south_hits[south_mchits]->AddAssociatedObject(tofmchit);
2052	}
2053	south_mchits++;
2054	}
2055	}
2056	}
2057
2058	else if (tag == "TRUTH") {
2059	const hddm_s::FtofTruthHitList &truths = iter->getFtofTruthHits();
2060	hddm_s::FtofTruthHitList::iterator titer;
2061	for (titer = truths.begin(); titer != truths.end(); ++titer) {
2062	DTOFHit *tofhit = new DTOFHit;
2063	tofhit->bar = titer->getBar();
2064	tofhit->plane = titer->getPlane();
2065	tofhit->end = titer->getEnd();
2066	tofhit->dE = titer->getDE();
2067	tofhit->t = titer->getT();
2068	tofhit->t_fADC= tofhit->t;
2069	tofhit->t_TDC = tofhit->t;
2070	tofhit->has_TDC=true;
2071	tofhit->has_fADC=true;
2072	data.push_back(tofhit);
2073
2074	DTOFHitMC *tofmchit = new DTOFHitMC;
2075	tofmchit->bar = tofhit->bar;
2076	tofmchit->plane = tofhit->plane;
2077	tofmchit->end = tofhit->end;
2078	tofmchit->itrack = titer->getFtofTruthExtra().getItrack();
2079	tofmchit->ptype = titer->getFtofTruthExtra().getPtype();
2080	tofmchit->dist = titer->getFtofTruthExtra().getDist();
2081	tofmchit->x = titer->getFtofTruthExtra().getX();
2082	tofmchit->y = titer->getFtofTruthExtra().getY();
2083	tofmchit->z = titer->getFtofTruthExtra().getZ();
2084	tofmchit->px = titer->getFtofTruthExtra().getPx();
2085	tofmchit->py = titer->getFtofTruthExtra().getPy();
2086	tofmchit->pz = titer->getFtofTruthExtra().getPz();
2087	tofmchit->E = titer->getFtofTruthExtra().getE();
2088	dataMC.push_back(tofmchit);
2089	tofhit->AddAssociatedObject(tofmchit);
2090	}
2091	}
2092	}
2093
2094	// Copy into factory
2095	factory->CopyTo(data);
2096	factoryMC->CopyTo(dataMC);
2097
2098	return NOERROR;
2099	}
2100
2101	//------------------
2102	// Extract_DSCHit
2103	//------------------
2104	jerror_t DEventSourceHDDM::Extract_DSCHit(hddm_s::HDDM *record,
2105	JFactory<DSCHit>* factory, string tag)
2106	{
2107	/// Copies the data from the given hddm_s structure. This is called
2108	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2109	/// returns OBJECT_NOT_AVAILABLE immediately.
2110
2111	if (factory == NULL__null)
2112	return OBJECT_NOT_AVAILABLE;
2113	if (tag != "" && tag != "TRUTH")
2114	return OBJECT_NOT_AVAILABLE;
2115
2116	vector<DSCHit*> data;
2117
2118	if (tag == "") {
2119	const hddm_s::StcHitList &hits = record->getStcHits();
2120	hddm_s::StcHitList::iterator iter;
2121	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2122	DSCHit *hit = new DSCHit;
2123	hit->sector = iter->getSector();
2124	hit->dE = iter->getDE();
2125	hit->t = iter->getT();
2126	hit->t_TDC=hit->t;
2127	hit->t_fADC=hit->t;
2128	hit->pulse_height = 0.;
2129	if(iter->getStcDigihits().size() > 0) {
2130	hit->pulse_height = iter->getStcDigihit().getPeakAmp();
2131	}
2132	hit->has_TDC=true;
2133	hit->has_fADC=true;
2134	data.push_back(hit);
2135	}
2136	}
2137	else if (tag == "TRUTH") {
2138	const hddm_s::StcTruthHitList &hits = record->getStcTruthHits();
2139	hddm_s::StcTruthHitList::iterator iter;
2140	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2141	DSCHit *hit = new DSCHit;
2142	hit->sector = iter->getSector();
2143	hit->dE = iter->getDE();
2144	hit->t = iter->getT();
2145	hit->t_TDC=hit->t;
2146	hit->t_fADC=hit->t;
2147	hit->has_TDC=true;
2148	hit->has_fADC=true;
2149	data.push_back(hit);
2150	}
2151	}
2152
2153	// Copy into factory
2154	factory->CopyTo(data);
2155
2156	return NOERROR;
2157	}
2158
2159	//------------------
2160	// Extract_DSCTruthHit
2161	//------------------
2162	jerror_t DEventSourceHDDM::Extract_DSCTruthHit(hddm_s::HDDM *record,
2163	JFactory<DSCTruthHit>* factory, string tag)
2164	{
2165	/// Copies the data from the given hddm_s structure. This is called
2166	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2167	/// returns OBJECT_NOT_AVAILABLE immediately.
2168
2169	if (factory == NULL__null)
2170	return OBJECT_NOT_AVAILABLE;
2171	if (tag != "")
2172	return OBJECT_NOT_AVAILABLE;
2173
2174	vector<DSCTruthHit*> data;
2175
2176	const hddm_s::StcTruthPointList &points = record->getStcTruthPoints();
2177	hddm_s::StcTruthPointList::iterator iter;
2178	for (iter = points.begin(); iter != points.end(); ++iter) {
2179	DSCTruthHit *hit = new DSCTruthHit;
2180	hit->dEdx = iter->getDEdx();
2181	hit->phi = iter->getPhi();
2182	hit->primary = iter->getPrimary();
2183	hit->ptype = iter->getPtype();
2184	hit->r = iter->getR();
2185	hit->t = iter->getT();
2186	hit->z = iter->getZ();
2187	hit->track = iter->getTrack();
2188	hit->sector = iter->getSector();
2189	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2190	hit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2191	data.push_back(hit);
2192	}
2193
2194	// Copy into factory
2195	factory->CopyTo(data);
2196
2197	return NOERROR;
2198	}
2199
2200	//------------------
2201	// Extract_DTrackTimeBased
2202	//------------------
2203	jerror_t DEventSourceHDDM::Extract_DTrackTimeBased(hddm_s::HDDM *record,
2204	JFactory<DTrackTimeBased> *factory,
2205	string tag, int32_t runnumber, JEventLoop* locEventLoop)
2206	{
2207	// Note: Since this is a reconstructed factory, we want to generally return OBJECT_NOT_AVAILABLE
2208	// rather than NOERROR. The reason being that the caller interprets "NOERROR" to mean "yes I
2209	// usually can provide objects of that type, but this event has none." This will cause it to
2210	// skip any attempt at reconstruction. On the other hand, a value of "OBJECT_NOT_AVAILABLE" tells
2211	// it "I cannot provide those type of objects for this event."
2212
2213	if (factory == NULL__null)
2214	return OBJECT_NOT_AVAILABLE;
2215	if (tag != "")
2216	return OBJECT_NOT_AVAILABLE;
2217
2218	vector<DTrackTimeBased*> data;
2219	vector<DReferenceTrajectory*> rts;
2220
2221	const hddm_s::TracktimebasedList &ttbs = record->getTracktimebaseds();
2222	hddm_s::TracktimebasedList::iterator iter;
2223	for (iter = ttbs.begin(); iter != ttbs.end(); ++iter) {
2224	DVector3 mom(iter->getMomentum().getPx(),
2225	iter->getMomentum().getPy(),
2226	iter->getMomentum().getPz());
2227	DVector3 pos(iter->getOrigin().getVx(),
2228	iter->getOrigin().getVy(),
2229	iter->getOrigin().getVz());
2230	DTrackTimeBased *track = new DTrackTimeBased();
2231	track->setMomentum(mom);
2232	track->setPosition(pos);
2233	track->setPID(IDTrack(iter->getProperties().getCharge(),
2234	iter->getProperties().getMass()));
2235	track->chisq = iter->getChisq();
2236	track->Ndof = iter->getNdof();
2237	track->FOM = iter->getFOM();
2238	track->candidateid = iter->getCandidateid();
2239	track->id = iter->getId();
2240
2241	// Reconstitute errorMatrix
2242	auto locCovarianceMatrix = dResourcePool_TMatrixFSym->Get_SharedResource();
2243	locCovarianceMatrix->ResizeTo(7, 7);
2244	string str_vals = iter->getErrorMatrix().getVals();
2245	StringToTMatrixFSym(str_vals, locCovarianceMatrix.get(),
2246	iter->getErrorMatrix().getNrows(),
2247	iter->getErrorMatrix().getNcols());
2248	track->setErrorMatrix(locCovarianceMatrix);
2249
2250	// Reconstitute TrackingErrorMatrix
2251	str_vals = iter->getTrackingErrorMatrix().getVals();
2252	auto TrackingErrorMatrix = dResourcePool_TMatrixFSym->Get_SharedResource();
2253	TrackingErrorMatrix->ResizeTo(5, 5);
2254	StringToTMatrixFSym(str_vals, TrackingErrorMatrix.get(),
2255	iter->getTrackingErrorMatrix().getNrows(),
2256	iter->getTrackingErrorMatrix().getNcols());
2257	track->setTrackingErrorMatrix(TrackingErrorMatrix);
2258
2259	data.push_back(track);
2260	}
2261
2262	// Copy into factory
2263	if (ttbs.size() > 0){
2264	factory->CopyTo(data);
2265
2266	// If the event had a s_Tracktimebased_t pointer, then report
2267	// back that we read them in from the file. Otherwise, report
2268	// OBJECT_NOT_AVAILABLE
2269	return NOERROR;
2270	}
2271
2272	// If we get to here then there was not even a placeholder in the HDDM file.
2273	// Return OBJECT_NOT_AVAILABLE to indicate reconstruction should be tried.
2274	return OBJECT_NOT_AVAILABLE;
2275	}
2276
2277
2278	//-------------------------------
2279	// StringToTMatrixFSym
2280	//-------------------------------
2281	string DEventSourceHDDM::StringToTMatrixFSym(string &str_vals, TMatrixFSym* mat,
2282	int Nrows, int Ncols)
2283	{
2284	/// This is the inverse of the DMatrixDSymToString method in the
2285	/// danahddm plugin.
2286
2287	// Convert the given string into a symmetric matrix
2288	mat->ResizeTo(Nrows, Ncols);
2289	stringstream ss(str_vals);
2290	for (int irow=0; irow<mat->GetNrows(); irow++) {
2291	for (int icol=irow; icol<mat->GetNcols(); icol++) {
2292	ss >> (*mat)[irow][icol];
2293	(mat)[icol][irow] = (mat)[irow][icol];
2294	}
2295	}
2296
2297	return ss.str();
2298	}
2299
2300	//------------------
2301	// Extract_DTAGMHit
2302	//------------------
2303	jerror_t DEventSourceHDDM::Extract_DTAGMHit(hddm_s::HDDM *record,
2304	JFactory<DTAGMHit>* factory,
2305	string tag)
2306	{
2307	/// Copies the data from the given hddm_s structure. This is called
2308	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2309	/// returns OBJECT_NOT_AVAILABLE immediately.
2310
2311	if (factory == NULL__null)
2312	return OBJECT_NOT_AVAILABLE;
2313	if (tag != "" && tag != "TRUTH")
2314	return OBJECT_NOT_AVAILABLE;
2315
2316	vector<DTAGMHit*> data;
2317
2318	// loop over microChannel/taggerHit records
2319	const hddm_s::MicroChannelList &tags = record->getMicroChannels();
2320	hddm_s::MicroChannelList::iterator iter;
2321	for (iter = tags.begin(); iter != tags.end(); ++iter) {
2322	if (tag == "") {
2323	const hddm_s::TaggerHitList &hits = iter->getTaggerHits();
2324	hddm_s::TaggerHitList::iterator hiter;
2325	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
2326	DTAGMHit *taghit = new DTAGMHit();
2327	taghit->E = hiter->getE();
2328	taghit->t = hiter->getT();
2329	taghit->npix_fadc = hiter->getNpe();
2330	taghit->time_fadc = hiter->getTADC();
2331	taghit->column = hiter->getColumn();
2332	taghit->row = hiter->getRow();
2333	taghit->has_fADC = true;
2334	taghit->has_TDC = true;
2335	data.push_back(taghit);
2336	}
2337	}
2338	else if (tag == "TRUTH") {
2339	const hddm_s::TaggerTruthHitList &hits = iter->getTaggerTruthHits();
2340	hddm_s::TaggerTruthHitList::iterator hiter;
2341	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
2342	DTAGMHit *taghit = new DTAGMHit();
2343	taghit->E = hiter->getE();
2344	taghit->t = hiter->getT();
2345	taghit->npix_fadc = hiter->getDE() * 1e5; // ~1e5 pixels/GeV
2346	taghit->time_fadc = hiter->getT();
2347	taghit->column = hiter->getColumn();
2348	taghit->row = hiter->getRow();
2349	taghit->has_fADC = true;
2350	taghit->has_TDC = true;
2351	taghit->bg = hiter->getBg();
2352	data.push_back(taghit);
2353	}
2354	}
2355	}
2356
2357	// Copy into factory
2358	factory->CopyTo(data);
2359
2360	return NOERROR;
2361	}
2362
2363	//------------------
2364	// Extract_DTAGHHit
2365	//------------------
2366	jerror_t DEventSourceHDDM::Extract_DTAGHHit( hddm_s::HDDM *record,
2367	JFactory<DTAGHHit>* factory,
2368	string tag)
2369	{
2370	/// Copies the data from the given hddm_s structure. This is called
2371	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2372	/// returns OBJECT_NOT_AVAILABLE immediately.
2373
2374	if (factory == NULL__null)
2375	return OBJECT_NOT_AVAILABLE;
2376	if (tag != "" && tag != "TRUTH")
2377	return OBJECT_NOT_AVAILABLE;
2378
2379	vector<DTAGHHit*> data;
2380
2381	// loop over hodoChannel/taggerHit records
2382	const hddm_s::HodoChannelList &tags = record->getHodoChannels();
2383	hddm_s::HodoChannelList::iterator iter;
2384	for (iter = tags.begin(); iter != tags.end(); ++iter) {
2385	if (tag == "") {
2386	const hddm_s::TaggerHitList &hits = iter->getTaggerHits();
2387	hddm_s::TaggerHitList::iterator hiter;
2388	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
2389	DTAGHHit *taghit = new DTAGHHit();
2390	taghit->E = hiter->getE();
2391	taghit->t = hiter->getT();
2392	taghit->npe_fadc = hiter->getNpe();
2393	taghit->time_fadc = hiter->getTADC();
2394	taghit->counter_id = hiter->getCounterId();
2395	taghit->has_fADC = true;
2396	taghit->has_TDC = true;
2397	data.push_back(taghit);
2398	}
2399	}
2400	else if (tag == "TRUTH") {
2401	const hddm_s::TaggerTruthHitList &hits = iter->getTaggerTruthHits();
2402	hddm_s::TaggerTruthHitList::iterator hiter;
2403	for (hiter = hits.begin(); hiter != hits.end(); ++hiter) {
2404	DTAGHHit *taghit = new DTAGHHit();
2405	taghit->E = hiter->getE();
2406	taghit->t = hiter->getT();
2407	taghit->npe_fadc = hiter->getDE() * 5e5; // ~5e5 pe/GeV
2408	taghit->time_fadc = hiter->getT();
2409	taghit->counter_id = hiter->getCounterId();
2410	taghit->has_fADC = true;
2411	taghit->has_TDC = true;
2412	taghit->bg = hiter->getBg();
2413
2414	data.push_back(taghit);
2415	}
2416	}
2417	}
2418
2419	// Copy into factory
2420	factory->CopyTo(data);
2421
2422	return NOERROR;
2423	}
2424
2425	//------------------
2426	// Extract_DPSHit
2427	//------------------
2428	jerror_t DEventSourceHDDM::Extract_DPSHit(hddm_s::HDDM *record,
2429	JFactory<DPSHit>* factory, string tag)
2430	{
2431	/// Copies the data from the given hddm_s structure. This is called
2432	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2433	/// returns OBJECT_NOT_AVAILABLE immediately.
2434
2435	if (factory == NULL__null)
2436	return OBJECT_NOT_AVAILABLE;
2437	if (tag != "" && tag != "TRUTH")
2438	return OBJECT_NOT_AVAILABLE;
2439
2440	vector<DPSHit*> data;
2441
2442	if (tag == "") {
2443	const hddm_s::PsHitList &hits = record->getPsHits();
2444	hddm_s::PsHitList::iterator iter;
2445	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2446	DPSHit *hit = new DPSHit;
2447	if(iter->getArm() == 0)
2448	hit->arm = DPSGeometry::Arm::kNorth;
2449	else
2450	hit->arm = DPSGeometry::Arm::kSouth;
2451	hit->column = iter->getColumn();
2452	double npix_fadc = iter->getDE()*0.5e5; // 100 pixels in 2 MeV
2453	hit->npix_fadc = npix_fadc;
2454	hit->t = iter->getT();
2455
2456	hit->E = 0.5*(psGeom->getElow(hit->arm,hit->column) + psGeom->getEhigh(hit->arm,hit->column));
2457	hit->pulse_peak = npix_fadc*21; // 1 pixel 21 fadc counts
2458	hit->integral = npix_fadc215.1; // integral/peak = 5.1
2459	data.push_back(hit);
2460	}
2461	}
2462	else if (tag == "TRUTH") {
2463	const hddm_s::PsTruthHitList &hits = record->getPsTruthHits();
2464	hddm_s::PsTruthHitList::iterator iter;
2465	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2466	DPSHit *hit = new DPSHit;
2467	if(iter->getArm() == 0)
2468	hit->arm = DPSGeometry::Arm::kNorth;
2469	else
2470	hit->arm = DPSGeometry::Arm::kSouth;
2471	hit->column = iter->getColumn();
2472	hit->npix_fadc = iter->getDE() * 1e5; // ~1e5 pixels/GeV
2473	hit->t = iter->getT();
2474	data.push_back(hit);
2475	}
2476	}
2477
2478	// Copy into factory
2479	factory->CopyTo(data);
2480
2481	return NOERROR;
2482	}
2483
2484	//------------------
2485	// Extract_DPSTruthHit
2486	//------------------
2487	jerror_t DEventSourceHDDM::Extract_DPSTruthHit(hddm_s::HDDM *record,
2488	JFactory<DPSTruthHit>* factory, string tag)
2489	{
2490	/// Copies the data from the given hddm_s structure. This is called
2491	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2492	/// returns OBJECT_NOT_AVAILABLE immediately.
2493
2494	if (factory == NULL__null)
2495	return OBJECT_NOT_AVAILABLE;
2496	if (tag != "")
2497	return OBJECT_NOT_AVAILABLE;
2498
2499	vector<DPSTruthHit*> data;
2500
2501	const hddm_s::PsTruthPointList &points = record->getPsTruthPoints();
2502	hddm_s::PsTruthPointList::iterator iter;
2503	for (iter = points.begin(); iter != points.end(); ++iter) {
2504	DPSTruthHit *hit = new DPSTruthHit;
2505	hit->dEdx = iter->getDEdx();
2506	hit->primary = iter->getPrimary();
2507	hit->ptype = iter->getPtype();
2508	hit->t = iter->getT();
2509	hit->x = iter->getX();
2510	hit->y = iter->getY();
2511	hit->z = iter->getZ();
2512	hit->track = iter->getTrack();
2513	hit->column = iter->getColumn();
2514	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2515	hit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2516	data.push_back(hit);
2517	}
2518
2519	// Copy into factory
2520	factory->CopyTo(data);
2521
2522	return NOERROR;
2523	}
2524
2525	//------------------
2526	// Extract_DPSCHit
2527	//------------------
2528	jerror_t DEventSourceHDDM::Extract_DPSCHit(hddm_s::HDDM *record,
2529	JFactory<DPSCHit>* factory, string tag)
2530	{
2531	/// Copies the data from the given hddm_s structure. This is called
2532	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2533	/// returns OBJECT_NOT_AVAILABLE immediately.
2534
2535	if (factory == NULL__null)
2536	return OBJECT_NOT_AVAILABLE;
2537	if (tag != "" && tag != "TRUTH")
2538	return OBJECT_NOT_AVAILABLE;
2539
2540	vector<DPSCHit*> data;
2541
2542	if (tag == "") {
2543	const hddm_s::PscHitList &hits = record->getPscHits();
2544	hddm_s::PscHitList::iterator iter;
2545	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2546	DPSCHit *hit = new DPSCHit;
2547	if(iter->getArm() == 0)
2548	hit->arm = DPSGeometry::Arm::kNorth;
2549	else
2550	hit->arm = DPSGeometry::Arm::kSouth;
2551	hit->module = iter->getModule();
2552
2553	double npe_fadc = iter->getDE()*2.5e5;
2554	hit->npe_fadc = npe_fadc;
2555	hit->pulse_peak = npe_fadc*0.4; // 1000 pe - 400 fadc count
2556	hit->integral = npe_fadc0.43; // integral/peak = 3.
2557
2558	hit->t = iter->getT();
2559	hit->time_tdc = iter->getT();
2560	hit->time_fadc = iter->getT();
2561
2562	hit->has_fADC = true;
2563	hit->has_TDC = true;
2564
2565	data.push_back(hit);
2566	}
2567	}
2568	else if (tag == "TRUTH") {
2569	const hddm_s::PscTruthHitList &hits = record->getPscTruthHits();
2570	hddm_s::PscTruthHitList::iterator iter;
2571	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2572	DPSCHit *hit = new DPSCHit;
2573	if(iter->getArm() == 0)
2574	hit->arm = DPSGeometry::Arm::kNorth;
2575	else
2576	hit->arm = DPSGeometry::Arm::kSouth;
2577	hit->module = iter->getModule();
2578	hit->npe_fadc = iter->getDE() * 5e5; // ~5e5 pe/GeV
2579	hit->t = iter->getT();
2580	data.push_back(hit);
2581	}
2582	}
2583
2584	// Copy into factory
2585	factory->CopyTo(data);
2586
2587	return NOERROR;
2588	}
2589
2590	//------------------
2591	// Extract_DPSCTruthHit
2592	//------------------
2593	jerror_t DEventSourceHDDM::Extract_DPSCTruthHit(hddm_s::HDDM *record,
2594	JFactory<DPSCTruthHit>* factory, string tag)
2595	{
2596	/// Copies the data from the given hddm_s structure. This is called
2597	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2598	/// returns OBJECT_NOT_AVAILABLE immediately.
2599
2600	if (factory == NULL__null)
2601	return OBJECT_NOT_AVAILABLE;
2602	if (tag != "")
2603	return OBJECT_NOT_AVAILABLE;
2604
2605	vector<DPSCTruthHit*> data;
2606
2607	const hddm_s::PscTruthPointList &points = record->getPscTruthPoints();
2608	hddm_s::PscTruthPointList::iterator iter;
2609	for (iter = points.begin(); iter != points.end(); ++iter) {
2610	DPSCTruthHit *hit = new DPSCTruthHit;
2611	hit->dEdx = iter->getDEdx();
2612	hit->primary = iter->getPrimary();
2613	hit->ptype = iter->getPtype();
2614	hit->t = iter->getT();
2615	hit->x = iter->getX();
2616	hit->y = iter->getY();
2617	hit->z = iter->getZ();
2618	hit->track = iter->getTrack();
2619	hit->column = iter->getModule();
2620	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2621	hit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2622	data.push_back(hit);
2623	}
2624
2625	// Copy into factory
2626	factory->CopyTo(data);
2627
2628	return NOERROR;
2629	}
2630
2631	//------------------
2632	// Etract_DTPOLHit
2633	//------------------
2634	jerror_t DEventSourceHDDM::Extract_DTPOLHit(hddm_s::HDDM *record,
2635	JFactory<DTPOLHit>* factory, string tag)
2636	{
2637	if (factory == NULL__null)
2638	return OBJECT_NOT_AVAILABLE;
2639	if (tag != "")
2640	return OBJECT_NOT_AVAILABLE;
2641
2642	vector<DTPOLHit*> data;
2643
2644	if (tag == "")
2645	{
2646	const hddm_s::TpolHitList &hits = record->getTpolHits();
2647	hddm_s::TpolHitList::iterator iter;
2648	for (iter = hits.begin(); iter != hits.end(); ++iter)
2649	{
2650	DTPOLHit *hit = new DTPOLHit;
2651	hit->sector = iter->getSector();
2652	hit->ring = iter->getRing();
2653	hit->dE = iter->getDE();
2654	hit->t = iter->getT();
2655
2656	data.push_back(hit);
2657	}
2658	}
2659	else if (tag == "Truth")
2660	{
2661	const hddm_s::TpolTruthHitList &truthHits = record->getTpolTruthHits();
2662	hddm_s::TpolTruthHitList::iterator iter;
2663	for (iter = truthHits.begin(); iter != truthHits.end(); ++iter)
2664	{
2665	DTPOLHit *hit = new DTPOLHit;
2666	hit->sector = iter->getSector();
2667	hit->t = iter->getT();
2668
2669	data.push_back(hit);
2670	}
2671	}
2672
2673	factory->CopyTo(data);
2674
2675	return NOERROR;
2676	}
2677
2678	//------------------------
2679	// Extract_DTPOLTruthHit
2680	//------------------------
2681	jerror_t DEventSourceHDDM::Extract_DTPOLTruthHit(hddm_s::HDDM record, JFactory<DTPOLTruthHit> factory, string tag)
2682	{
2683	if (factory == NULL__null)
2684	return OBJECT_NOT_AVAILABLE;
2685	if (tag != "")
2686	return OBJECT_NOT_AVAILABLE;
2687
2688	vector<DTPOLTruthHit*> data;
2689
2690	const hddm_s::TpolTruthPointList &points = record->getTpolTruthPoints();
2691	hddm_s::TpolTruthPointList::iterator iter;
2692	for (iter = points.begin(); iter != points.end(); ++iter)
2693	{
2694	DTPOLTruthHit *hit = new DTPOLTruthHit;
2695	hit->dEdx = iter->getDEdx();
2696	hit->primary = iter->getPrimary();
2697	hit->track = iter->getTrack();
2698	hit->ptype = iter->getPtype();
2699	hit->r = iter->getR();
2700	hit->phi = iter->getPhi();
2701	hit->t = iter->getT();
2702	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2703	hit->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2704
2705	data.push_back(hit);
2706	}
2707
2708	factory->CopyTo(data);
2709
2710	return NOERROR;
2711	}
2712
2713	Particle_t DEventSourceHDDM::IDTrack(float locCharge, float locMass) const
2714	{
2715	float locMassTolerance = 0.010;
2716	if (locCharge > 0.1) // Positive particles
2717	{
2718	if (fabs(locMass - ParticleMass(Proton)) < locMassTolerance) return Proton;
2719	if (fabs(locMass - ParticleMass(PiPlus)) < locMassTolerance) return PiPlus;
2720	if (fabs(locMass - ParticleMass(KPlus)) < locMassTolerance) return KPlus;
2721	if (fabs(locMass - ParticleMass(Positron)) < locMassTolerance) return Positron;
2722	if (fabs(locMass - ParticleMass(MuonPlus)) < locMassTolerance) return MuonPlus;
2723	}
2724	else if(locCharge < -0.1) // Negative particles
2725	{
2726	if (fabs(locMass - ParticleMass(PiMinus)) < locMassTolerance) return PiMinus;
2727	if (fabs(locMass - ParticleMass(KMinus)) < locMassTolerance) return KMinus;
2728	if (fabs(locMass - ParticleMass(MuonMinus)) < locMassTolerance) return MuonMinus;
2729	if (fabs(locMass - ParticleMass(Electron)) < locMassTolerance) return Electron;
2730	if (fabs(locMass - ParticleMass(AntiProton)) < locMassTolerance) return AntiProton;
2731	}
2732	else //Neutral Track
2733	{
2734	if (fabs(locMass - ParticleMass(Gamma)) < locMassTolerance) return Gamma;
2735	if (fabs(locMass - ParticleMass(Neutron)) < locMassTolerance) return Neutron;
2736	}
2737	return Unknown;
2738	}
2739
2740	//------------------
2741	// Extract_DFMWPCTruthHit
2742	//------------------
2743	jerror_t DEventSourceHDDM::Extract_DFMWPCTruthHit(hddm_s::HDDM record, JFactory<DFMWPCTruthHit> factory, string tag)
2744	{
2745	/// Copies the data from the given hddm_s record. This is called
2746	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2747	/// returns OBJECT_NOT_AVAILABLE immediately.
2748
2749	if (factory == NULL__null) return OBJECT_NOT_AVAILABLE;
2750	if (tag != "") return OBJECT_NOT_AVAILABLE;
2751
2752	vector<DFMWPCTruthHit*> data;
2753
2754	const hddm_s::FmwpcTruthHitList &points = record->getFmwpcTruthHits();
2755	hddm_s::FmwpcTruthHitList::iterator iter;
2756	for (iter = points.begin(); iter != points.end(); ++iter) {
2757	DFMWPCTruthHit *hit = new DFMWPCTruthHit;
2758	hit->layer = iter->getLayer();
2759	hit->wire = iter->getWire();
2760	hit->dE = iter->getDE();
2761	hit->t = iter->getT();
2762	const hddm_s::FmwpcTruthHitQList &charges=iter->getFmwpcTruthHitQs();
2763	hit->q = (charges.size()) ? charges.begin()->getQ() : 0.;
2764	hit->d = (charges.size()) ? charges.begin()->getD() : 0.;
2765	data.push_back(hit);
2766	}
2767
2768	// Copy into factory
2769	factory->CopyTo(data);
2770
2771	return NOERROR;
2772	}
2773
2774
2775	//------------------
2776	// Extract_DFMWPCTruth
2777	//------------------
2778	jerror_t DEventSourceHDDM::Extract_DFMWPCTruth(hddm_s::HDDM *record,
2779	JFactory<DFMWPCTruth>* factory, string tag)
2780	{
2781	/// Copies the data from the given hddm_s structure. This is called
2782	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2783	/// returns OBJECT_NOT_AVAILABLE immediately.
2784
2785	if (factory == NULL__null)
2786	return OBJECT_NOT_AVAILABLE;
2787	if (tag != "")
2788	return OBJECT_NOT_AVAILABLE;
2789
2790	vector<DFMWPCTruth*> data;
2791
2792	const hddm_s::FmwpcTruthPointList &points = record->getFmwpcTruthPoints();
2793	hddm_s::FmwpcTruthPointList::iterator iter;
2794	for (iter = points.begin(); iter != points.end(); ++iter) {
2795	DFMWPCTruth *fmwpctruth = new DFMWPCTruth;
2796	fmwpctruth->primary = iter->getPrimary();
2797	fmwpctruth->track = iter->getTrack();
2798	fmwpctruth->x = iter->getX();
2799	fmwpctruth->y = iter->getY();
2800	fmwpctruth->z = iter->getZ();
2801	fmwpctruth->t = iter->getT();
2802	fmwpctruth->px = iter->getPx();
2803	fmwpctruth->py = iter->getPy();
2804	fmwpctruth->pz = iter->getPz();
2805	fmwpctruth->E = iter->getE();
2806	fmwpctruth->ptype = iter->getPtype();
2807	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2808	fmwpctruth->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2809	data.push_back(fmwpctruth);
2810	}
2811
2812	// Copy into factory
2813	factory->CopyTo(data);
2814
2815	return NOERROR;
2816	}
2817
2818	//------------------
2819	// Extract_DFMWPCHit
2820	//------------------
2821	jerror_t DEventSourceHDDM::Extract_DFMWPCHit(hddm_s::HDDM record, JFactory<DFMWPCHit> factory, string tag)
2822	{
2823	/// Copies the data from the given hddm_s record. This is called
2824	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2825	/// returns OBJECT_NOT_AVAILABLE immediately.
2826
2827	if (factory == NULL__null) return OBJECT_NOT_AVAILABLE;
2828	if (tag != "") return OBJECT_NOT_AVAILABLE;
2829
2830	vector<DFMWPCHit*> data;
2831
2832	const hddm_s::FmwpcHitList &points = record->getFmwpcHits();
2833	hddm_s::FmwpcHitList::iterator iter;
2834	for (iter = points.begin(); iter != points.end(); ++iter) {
2835	DFMWPCHit *hit = new DFMWPCHit;
2836	hit->layer = iter->getLayer();
2837	hit->wire = iter->getWire();
2838	hit->t = iter->getT();
2839	const hddm_s::FmwpcHitQList &charges=iter->getFmwpcHitQs();
2840	hit->q = (charges.size()) ? charges.begin()->getQ() : 0.;
2841	hit->amp = (charges.size()) ? hit->q/28.8 : 0.; // copied from CDC
2842	data.push_back(hit);
2843	}
2844
2845	// Copy into factory
2846	factory->CopyTo(data);
2847
2848	return NOERROR;
2849	}
2850
2851
2852	//------------------
2853	// Extract_DCTOFTruth
2854	//------------------
2855	jerror_t DEventSourceHDDM::Extract_DCTOFTruth(hddm_s::HDDM *record,
2856	JFactory<DCTOFTruth>* factory, string tag)
2857	{
2858	/// Copies the data from the given hddm_s structure. This is called
2859	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2860	/// returns OBJECT_NOT_AVAILABLE immediately.
2861
2862	if (factory == NULL__null)
2863	return OBJECT_NOT_AVAILABLE;
2864	if (tag != "")
2865	return OBJECT_NOT_AVAILABLE;
2866
2867	vector<DCTOFTruth*> data;
2868
2869	const hddm_s::CtofTruthPointList &points = record->getCtofTruthPoints();
2870	hddm_s::CtofTruthPointList::iterator iter;
2871	for (iter = points.begin(); iter != points.end(); ++iter) {
2872	DCTOFTruth *ctoftruth = new DCTOFTruth;
2873	ctoftruth->primary = iter->getPrimary();
2874	ctoftruth->track = iter->getTrack();
2875	ctoftruth->x = iter->getX();
2876	ctoftruth->y = iter->getY();
2877	ctoftruth->z = iter->getZ();
2878	ctoftruth->t = iter->getT();
2879	ctoftruth->px = iter->getPx();
2880	ctoftruth->py = iter->getPy();
2881	ctoftruth->pz = iter->getPz();
2882	ctoftruth->E = iter->getE();
2883	ctoftruth->ptype = iter->getPtype();
2884	const hddm_s::TrackIDList &ids = iter->getTrackIDs();
2885	ctoftruth->itrack = (ids.size())? ids.begin()->getItrack() : 0;
2886	data.push_back(ctoftruth);
2887	}
2888
2889	// Copy into factory
2890	factory->CopyTo(data);
2891
2892	return NOERROR;
2893	}
2894
2895
2896	//------------------
2897	// Extract_DCTOFHit
2898	//------------------
2899	jerror_t DEventSourceHDDM::Extract_DCTOFHit(hddm_s::HDDM record, JFactory<DCTOFHit> factory, string tag)
2900	{
2901	/// Copies the data from the given hddm_s record. This is called
2902	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2903	/// returns OBJECT_NOT_AVAILABLE immediately.
2904
2905	if (factory == NULL__null) return OBJECT_NOT_AVAILABLE;
2906	if (tag != "") return OBJECT_NOT_AVAILABLE;
2907
2908	vector<DCTOFHit*> data;
2909
2910	const hddm_s::CtofHitList &points = record->getCtofHits();
2911	hddm_s::CtofHitList::iterator iter;
2912	for (iter = points.begin(); iter != points.end(); ++iter) {
2913	DCTOFHit *hit = new DCTOFHit;
2914	hit->bar = iter->getBar();
2915	hit->end = iter->getEnd();
2916	hit->dE = iter->getDE();
2917	hit->t = iter->getT();
2918	data.push_back(hit);
2919	}
2920
2921	// Copy into factory
2922	factory->CopyTo(data);
2923
2924	return NOERROR;
2925	}
2926
2927	//------------------
2928	// Extract_DDIRCPmtHit
2929	//------------------
2930	jerror_t DEventSourceHDDM::Extract_DDIRCPmtHit(hddm_s::HDDM *record,
2931	JFactory<DDIRCPmtHit> *factory, string tag,
2932	JEventLoop* eventLoop)
2933	{
2934	/// Copies the data from the given hddm_s structure. This is called
2935	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
2936	/// returs OBJECT_NOT_AVAILABLE immediately.
2937
2938	if (factory == NULL__null)
2939	return OBJECT_NOT_AVAILABLE;
2940	if (tag != "")
2941	return OBJECT_NOT_AVAILABLE;
2942
2943	vector<DDIRCPmtHit*> data;
2944
2945	if (tag == "") {
2946	vector<const DDIRCTruthPmtHit*> locDIRCTruthPmtHit;
2947	eventLoop->Get(locDIRCTruthPmtHit);
2948
2949	const hddm_s::DircPmtHitList &hits = record->getDircPmtHits();
2950	hddm_s::DircPmtHitList::iterator iter;
2951	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2952	double time = iter->getT();
2953	int channel = iter->getCh();
2954
2955	DDIRCPmtHit *hit = new DDIRCPmtHit();
2956	hit->t = time;
2957	hit->ch = channel;
2958
2959	for (auto& iterTruth : locDIRCTruthPmtHit) { //.begin(); iterTruth != locDIRCTruthPmtHit.end(); ++iterTruth) {
2960
2961	// must match channel and time
2962	if(channel == iterTruth->ch && fabs(time-iterTruth->t) < 5.0) {
2963
2964	hit->AddAssociatedObject(iterTruth);
2965
2966	break;
2967	}
2968	}
2969
2970	data.push_back(hit);
2971	}
2972	}
2973
2974	// Copy into factory
2975	factory->CopyTo(data);
2976
2977	return NOERROR;
2978	}
2979
2980	//------------------
2981	// Extract_DCereHit
2982	// added by yqiang Oct 11, 2012
2983	//------------------
2984	jerror_t DEventSourceHDDM::Extract_DCereHit(hddm_s::HDDM *record,
2985	JFactory<DCereHit>* factory, string tag)
2986	{
2987	if (factory == NULL__null)
2988	return OBJECT_NOT_AVAILABLE;
2989	if (tag != "" && tag != "TRUTH")
2990	return OBJECT_NOT_AVAILABLE;
2991
2992	vector<DCereHit*> data;
2993
2994	if (tag == "") {
2995	const hddm_s::CereHitList &hits = record->getCereHits();
2996	hddm_s::CereHitList::iterator iter;
2997	for (iter = hits.begin(); iter != hits.end(); ++iter) {
2998	DCereHit *hit = new DCereHit;
2999	hit->sector = iter->getSector();
3000	hit->pe = iter->getPe();
3001	hit->t = iter->getT();
3002	data.push_back(hit);
3003	}
3004	}
3005	else if (tag == "TRUTH") {
3006	const hddm_s::CereTruthHitList &hits = record->getCereTruthHits();
3007	hddm_s::CereTruthHitList::iterator iter;
3008	for (iter = hits.begin(); iter != hits.end(); ++iter) {
3009	DCereHit *hit = new DCereHit;
3010	hit->sector = iter->getSector();
3011	hit->pe = iter->getPe();
3012	hit->t = iter->getT();
3013	data.push_back(hit);
3014	}
3015	}
3016
3017	// copy into factory
3018	factory->CopyTo(data);
3019
3020	return NOERROR;
3021	}
3022
3023	//------------------
3024	// Extract_DDIRCTruthBarHit
3025	//------------------
3026	jerror_t DEventSourceHDDM::Extract_DDIRCTruthBarHit(hddm_s::HDDM *record,
3027	JFactory<DDIRCTruthBarHit>* factory, string tag)
3028	{
3029	/// Copies the data from the given hddm_s structure. This is called
3030	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
3031	/// returns OBJECT_NOT_AVAILABLE immediately.
3032
3033	if (factory == NULL__null)
3034	return OBJECT_NOT_AVAILABLE;
3035	if (tag != "")
3036	return OBJECT_NOT_AVAILABLE;
3037
3038	vector<DDIRCTruthBarHit*> data;
3039
3040	const hddm_s::DircTruthBarHitList &hits = record->getDircTruthBarHits();
3041	hddm_s::DircTruthBarHitList::iterator iter;
3042	for (iter = hits.begin(); iter != hits.end(); ++iter) {
3043	DDIRCTruthBarHit *hit = new DDIRCTruthBarHit;
3044	hit->x = iter->getX();
3045	hit->y = iter->getY();
3046	hit->z = iter->getZ();
3047	hit->px = iter->getPx();
3048	hit->py = iter->getPy();
3049	hit->pz = iter->getPz();
3050	hit->t = iter->getT();
3051	hit->E = iter->getE();
3052	hit->pdg = iter->getPdg();
3053	hit->bar = iter->getBar();
3054	hit->track = iter->getTrack();
3055	data.push_back(hit);
3056	}
3057
3058	// Copy into factory
3059	factory->CopyTo(data);
3060
3061	return NOERROR;
3062	}
3063
3064	//------------------
3065	// Extract_DDIRCTruthPmtHit
3066	//------------------
3067	jerror_t DEventSourceHDDM::Extract_DDIRCTruthPmtHit(hddm_s::HDDM *record,
3068	JFactory<DDIRCTruthPmtHit>* factory, string tag)
3069	{
3070	/// Copies the data from the given hddm_s structure. This is called
3071	/// from JEventSourceHDDM::GetObjects. If factory is NULL, this
3072	/// returns OBJECT_NOT_AVAILABLE immediately.
3073
3074	if (factory == NULL__null)
3075	return OBJECT_NOT_AVAILABLE;
3076	if (tag != "")
3077	return OBJECT_NOT_AVAILABLE;
3078
3079	vector<DDIRCTruthPmtHit*> data;
3080
3081
3082	const hddm_s::DircTruthPmtHitList &hits = record->getDircTruthPmtHits();
3083	hddm_s::DircTruthPmtHitList::iterator iter;
3084	for (iter = hits.begin(); iter != hits.end(); ++iter) {
3085	DDIRCTruthPmtHit *hit = new DDIRCTruthPmtHit;
3086	hit->x = iter->getX();
3087	hit->y = iter->getY();
3088	hit->z = iter->getZ();
3089	hit->t = iter->getT();
3090	hit->E = iter->getE();
3091	hit->ch = iter->getCh();
3092	hit->key_bar = iter->getKey_bar();
3093	hddm_s::DircTruthPmtHitExtraList &hitextras = iter->getDircTruthPmtHitExtras();
3094	if(hitextras.size() > 0) {
3095	hit->t_fixed = hitextras(0).getT_fixed();
3096	hit->path = hitextras(0).getPath();
3097	hit->refl = hitextras(0).getRefl();
3098	hit->bbrefl = hitextras(0).getBbrefl();
3099	}
3100	data.push_back(hit);
3101	}
3102
3103	// Copy into factory
3104	factory->CopyTo(data);
3105
3106	return NOERROR;
3107	}