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edm::RootTree Class Reference

#include <RootTree.h>

Public Types

typedef roottree::BranchMap BranchMap
 
typedef roottree::EntryNumber EntryNumber
 

Public Member Functions

void addBranch (BranchKey const &key, BranchDescription const &prod, std::string const &oldBranchName)
 
TBranch * branchEntryInfoBranch () const
 
BranchMap const & branches () const
 
std::vector< std::string > const & branchNames () const
 
BranchType branchType () const
 
TTreeCache * checkTriggerCache (TBranch *branch, EntryNumber entryNumber) const
 
TTreeCache * checkTriggerCacheImpl (TBranch *branch, EntryNumber entryNumber) const
 
void close ()
 
bool current () const
 
bool current (EntryNumber entry) const
 
void dropBranch (std::string const &oldBranchName)
 
EntryNumber const & entries () const
 
EntryNumber const & entryNumber () const
 
EntryNumber const & entryNumberForIndex (unsigned int index) const
 
template<typename T >
void fillAux (T *&pAux)
 
template<typename T >
void fillBranchEntry (TBranch *branch, T *&pbuf)
 
template<typename T >
void fillBranchEntry (TBranch *branch, EntryNumber entryNumber, T *&pbuf)
 
template<typename T >
void fillBranchEntryMeta (TBranch *branch, T *&pbuf)
 
template<typename T >
void fillBranchEntryMeta (TBranch *branch, EntryNumber entryNumber, T *&pbuf)
 
void getEntry (TBranch *branch, EntryNumber entry) const
 
void insertEntryForIndex (unsigned int index)
 
bool isValid () const
 
TTree const * metaTree () const
 
bool next ()
 
bool nextWithCache ()
 
RootTreeoperator= (RootTree const &)=delete
 
bool previous ()
 
DelayedReaderresetAndGetRootDelayedReader () const
 
void resetTraining ()
 
void rewind ()
 
DelayedReaderrootDelayedReader () const
 
 RootTree (std::shared_ptr< InputFile > filePtr, BranchType const &branchType, unsigned int nIndexes, unsigned int maxVirtualSize, unsigned int cacheSize, unsigned int learningEntries, bool enablePrefetching, InputType inputType)
 
 RootTree (RootTree const &)=delete
 
TTreeCache * selectCache (TBranch *branch, EntryNumber entryNumber) const
 
void setEntryNumber (EntryNumber theEntryNumber)
 
void setPresence (BranchDescription &prod, std::string const &oldBranchName)
 
void setSignals (signalslot::Signal< void(StreamContext const &, ModuleCallingContext const &)> const *preEventReadSource, signalslot::Signal< void(StreamContext const &, ModuleCallingContext const &)> const *postEventReadSource)
 
bool skipEntries (unsigned int &offset)
 
void trainCache (char const *branchNames)
 
TTree const * tree () const
 
TTree * tree ()
 
 ~RootTree ()
 

Private Member Functions

void setCacheSize (unsigned int cacheSize)
 
void setTreeMaxVirtualSize (int treeMaxVirtualSize)
 
void startTraining ()
 
void stopTraining ()
 

Private Attributes

TBranch * auxBranch_
 
TBranch * branchEntryInfoBranch_
 
std::shared_ptr< BranchMapbranches_
 
std::vector< std::string > branchNames_
 
BranchType branchType_
 
unsigned int cacheSize_
 
bool enablePrefetching_
 
bool enableTriggerCache_
 
EntryNumber entries_
 
EntryNumber entryNumber_
 
std::unique_ptr< std::vector< EntryNumber > > entryNumberForIndex_
 
std::shared_ptr< InputFilefilePtr_
 
TTree * infoTree_
 
unsigned int learningEntries_
 
TTree * metaTree_
 
bool performedSwitchOver_
 
std::shared_ptr< TTreeCache > rawTreeCache_
 
EntryNumber rawTriggerSwitchOverEntry_
 
std::shared_ptr< TTreeCache > rawTriggerTreeCache_
 
std::unique_ptr< RootDelayedReaderrootDelayedReader_
 
TBranch * statusBranch_
 
EntryNumber switchOverEntry_
 
std::unordered_set< TBranch * > trainedSet_
 
bool trainNow_
 
TTree * tree_
 
unsigned long treeAutoFlush_
 
std::shared_ptr< TTreeCache > treeCache_
 
std::unordered_set< TBranch * > triggerSet_
 
std::shared_ptr< TTreeCache > triggerTreeCache_
 

Detailed Description

Definition at line 69 of file RootTree.h.

Member Typedef Documentation

Definition at line 71 of file RootTree.h.

Definition at line 72 of file RootTree.h.

Constructor & Destructor Documentation

edm::RootTree::RootTree ( std::shared_ptr< InputFile filePtr,
BranchType const &  branchType,
unsigned int  nIndexes,
unsigned int  maxVirtualSize,
unsigned int  cacheSize,
unsigned int  learningEntries,
bool  enablePrefetching,
InputType  inputType 
)

Definition at line 28 of file RootTree.cc.

References edm::BranchTypeToProductTreeName(), cacheSize_, Exception, learningEntries_, setCacheSize(), setTreeMaxVirtualSize(), trainedSet_, tree_, treeAutoFlush_, and triggerSet_.

35  :
36  filePtr_(filePtr),
37  tree_(dynamic_cast<TTree*>(filePtr_.get() != nullptr ? filePtr_->Get(BranchTypeToProductTreeName(branchType).c_str()) : nullptr)),
38  metaTree_(dynamic_cast<TTree*>(filePtr_.get() != nullptr ? filePtr_->Get(BranchTypeToMetaDataTreeName(branchType).c_str()) : nullptr)),
40  auxBranch_(tree_ ? getAuxiliaryBranch(tree_, branchType_) : nullptr),
41  treeCache_(),
42  rawTreeCache_(),
45  trainedSet_(),
46  triggerSet_(),
47  entries_(tree_ ? tree_->GetEntries() : 0),
48  entryNumber_(-1),
49  entryNumberForIndex_(new std::vector<EntryNumber>(nIndexes, IndexIntoFile::invalidEntry)),
50  branchNames_(),
51  branches_(new BranchMap),
52  trainNow_(false),
53  switchOverEntry_(-1),
55  learningEntries_(learningEntries),
56  cacheSize_(cacheSize),
57  treeAutoFlush_(0),
58  enablePrefetching_(enablePrefetching),
60  rootDelayedReader_(new RootDelayedReader(*this, filePtr, inputType)),
61  branchEntryInfoBranch_(metaTree_ ? getProductProvenanceBranch(metaTree_, branchType_) : (tree_ ? getProductProvenanceBranch(tree_, branchType_) : nullptr)),
62  infoTree_(dynamic_cast<TTree*>(filePtr_.get() != nullptr ? filePtr->Get(BranchTypeToInfoTreeName(branchType).c_str()) : nullptr)) // backward compatibility
63  {
64  if(not tree_) {
65  throw cms::Exception("WrongFileFormat")<< "The ROOT file does not contain a TTree named "<<BranchTypeToProductTreeName(branchType)<<"\n This is either not an edm ROOT file or is one that has been corrupted.";
66  }
67  // On merged files in older releases of ROOT, the autoFlush setting is always negative; we must guess.
68  // TODO: On newer merged files, we should be able to get this from the cluster iterator.
69  long treeAutoFlush = (tree_ ? tree_->GetAutoFlush() : 0);
70  if (treeAutoFlush < 0) {
71  // The "+1" is here to avoid divide-by-zero in degenerate cases.
72  Long64_t averageEventSizeBytes = tree_->GetZipBytes() / (tree_->GetEntries()+1) + 1;
73  treeAutoFlush_ = cacheSize_/averageEventSizeBytes+1;
74  } else {
75  treeAutoFlush_ = treeAutoFlush;
76  }
79  }
80  setTreeMaxVirtualSize(maxVirtualSize);
81  setCacheSize(cacheSize);
82  if (tree_) {
83  Int_t branchCount = tree_->GetListOfBranches()->GetEntriesFast();
84  trainedSet_.reserve(branchCount);
85  triggerSet_.reserve(branchCount);
86  }
87  }
EntryNumber entryNumber_
Definition: RootTree.h:193
std::string const & BranchTypeToMetaDataTreeName(BranchType const &branchType)
Definition: BranchType.cc:107
unsigned int learningEntries_
Definition: RootTree.h:201
std::shared_ptr< TTreeCache > rawTriggerTreeCache_
Definition: RootTree.h:189
std::vector< std::string > branchNames_
Definition: RootTree.h:195
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
bool trainNow_
Definition: RootTree.h:197
std::shared_ptr< BranchMap > branches_
Definition: RootTree.h:196
EntryNumber rawTriggerSwitchOverEntry_
Definition: RootTree.h:199
roottree::BranchMap BranchMap
Definition: RootTree.h:71
TTree * metaTree_
Definition: RootTree.h:180
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
TBranch * branchEntryInfoBranch_
Definition: RootTree.h:210
EntryNumber entries_
Definition: RootTree.h:192
bool enablePrefetching_
Definition: RootTree.h:206
std::unique_ptr< RootDelayedReader > rootDelayedReader_
Definition: RootTree.h:208
void setTreeMaxVirtualSize(int treeMaxVirtualSize)
Definition: RootTree.cc:191
BranchType branchType() const
Definition: RootTree.h:164
unsigned long treeAutoFlush_
Definition: RootTree.h:203
std::string const & BranchTypeToProductTreeName(BranchType const &branchType)
Definition: BranchType.cc:103
TBranch * auxBranch_
Definition: RootTree.h:182
std::string const & BranchTypeToInfoTreeName(BranchType const &branchType)
Definition: BranchType.cc:111
bool enableTriggerCache_
Definition: RootTree.h:207
static EntryNumber_t const invalidEntry
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
void setCacheSize(unsigned int cacheSize)
Definition: RootTree.cc:181
std::unique_ptr< std::vector< EntryNumber > > entryNumberForIndex_
Definition: RootTree.h:194
unsigned int cacheSize_
Definition: RootTree.h:202
std::unordered_set< TBranch * > triggerSet_
Definition: RootTree.h:191
EntryNumber switchOverEntry_
Definition: RootTree.h:198
std::shared_ptr< TTreeCache > triggerTreeCache_
Definition: RootTree.h:188
BranchType branchType_
Definition: RootTree.h:181
TTree * infoTree_
Definition: RootTree.h:212
edm::RootTree::~RootTree ( )

Definition at line 89 of file RootTree.cc.

89  {
90  }
edm::RootTree::RootTree ( RootTree const &  )
delete

Member Function Documentation

void edm::RootTree::addBranch ( BranchKey const &  key,
BranchDescription const &  prod,
std::string const &  oldBranchName 
)

Definition at line 136 of file RootTree.cc.

References MicroEventContent_cff::branch, branches_, edm::BranchDescription::branchName(), branchNames_, info(), isValid(), metaTree_, edm::BranchDescription::present(), edm::roottree::BranchInfo::productBranch_, edm::roottree::BranchInfo::provenanceBranch_, and tree_.

138  {
139  assert(isValid());
140  //use the translated branch name
141  TBranch* branch = tree_->GetBranch(oldBranchName.c_str());
142  roottree::BranchInfo info = roottree::BranchInfo(BranchDescription(prod));
143  info.productBranch_ = nullptr;
144  if (prod.present()) {
145  info.productBranch_ = branch;
146  //we want the new branch name for the JobReport
147  branchNames_.push_back(prod.branchName());
148  }
149  TTree* provTree = (metaTree_ != nullptr ? metaTree_ : tree_);
150  info.provenanceBranch_ = provTree->GetBranch(oldBranchName.c_str());
151  branches_->insert(std::make_pair(key, info));
152  }
static const TGPicture * info(bool iBackgroundIsBlack)
std::vector< std::string > branchNames_
Definition: RootTree.h:195
TTree * tree_
Definition: RootTree.h:179
std::shared_ptr< BranchMap > branches_
Definition: RootTree.h:196
TTree * metaTree_
Definition: RootTree.h:180
bool isValid() const
Definition: RootTree.cc:105
TBranch* edm::RootTree::branchEntryInfoBranch ( ) const
inline

Definition at line 156 of file RootTree.h.

References MicroEventContent_cff::branch, and edm::roottree::trainCache().

Referenced by edm::FullProvenanceReader::readProvenance().

156 {return branchEntryInfoBranch_;}
TBranch * branchEntryInfoBranch_
Definition: RootTree.h:210
roottree::BranchMap const & edm::RootTree::branches ( ) const

Definition at line 178 of file RootTree.cc.

References branches_.

Referenced by edm::RootDelayedReader::branches(), checkTriggerCacheImpl(), and trainCache().

178 {return *branches_;}
std::shared_ptr< BranchMap > branches_
Definition: RootTree.h:196
std::vector<std::string> const& edm::RootTree::branchNames ( ) const
inline

Definition at line 108 of file RootTree.h.

Referenced by edm::RootFile::reportOpened().

108 {return branchNames_;}
std::vector< std::string > branchNames_
Definition: RootTree.h:195
BranchType edm::RootTree::branchType ( ) const
inline

Definition at line 164 of file RootTree.h.

Referenced by edm::RootDelayedReader::getProduct_().

164 {return branchType_;}
BranchType branchType_
Definition: RootTree.h:181
TTreeCache * edm::RootTree::checkTriggerCache ( TBranch *  branch,
EntryNumber  entryNumber 
) const
inline

Definition at line 247 of file RootTree.cc.

References checkTriggerCacheImpl(), enableTriggerCache_, trainedSet_, and treeCache_.

Referenced by selectCache().

247  {
248  if (!treeCache_->IsAsyncReading() && enableTriggerCache_ && (trainedSet_.find(branch) == trainedSet_.end())) {
250  } else {
251  return nullptr;
252  }
253  }
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
TTreeCache * checkTriggerCacheImpl(TBranch *branch, EntryNumber entryNumber) const
Definition: RootTree.cc:258
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
bool enableTriggerCache_
Definition: RootTree.h:207
TTreeCache * edm::RootTree::checkTriggerCacheImpl ( TBranch *  branch,
EntryNumber  entryNumber 
) const

Definition at line 258 of file RootTree.cc.

References branches(), entryNumber_, filePtr_, mps_fire::i, performedSwitchOver_, rawTriggerSwitchOverEntry_, rawTriggerTreeCache_, trainedSet_, tree_, triggerSet_, and triggerTreeCache_.

Referenced by checkTriggerCache().

258  {
259  // This branch is not going to be in the cache.
260  // Assume this is a "trigger pattern".
261  // Always make sure the branch is added to the trigger set.
262  if (triggerSet_.find(branch) == triggerSet_.end()) {
263  triggerSet_.insert(branch);
264  if (triggerTreeCache_.get()) { triggerTreeCache_->AddBranch(branch, kTRUE); }
265  }
266 
267  if (rawTriggerSwitchOverEntry_ < 0) {
268  // The trigger has never fired before. Take everything not in the
269  // trainedSet and load it from disk
270 
271  // Calculate the end of the next cluster; triggers in the next cluster
272  // will use the triggerCache, not the rawTriggerCache.
273  //
274  // Guarantee that rawTriggerSwitchOverEntry_ is positive (non-zero) after completion
275  // of this if-block.
276  TTree::TClusterIterator clusterIter = tree_->GetClusterIterator(entryNumber);
278  rawTriggerSwitchOverEntry_ = clusterIter();
279  }
280 
281  // ROOT will automatically expand the cache to fit one cluster; hence, we use
282  // 5 MB as the cache size below
283  tree_->SetCacheSize(static_cast<Long64_t>(5*1024*1024));
284  rawTriggerTreeCache_.reset(dynamic_cast<TTreeCache*>(filePtr_->GetCacheRead()));
285  if(rawTriggerTreeCache_) rawTriggerTreeCache_->SetEnablePrefetching(false);
286  TObjArray *branches = tree_->GetListOfBranches();
287  int branchCount = branches->GetEntriesFast();
288 
289  // Train the rawTriggerCache to have everything not in the regular cache.
290  rawTriggerTreeCache_->SetLearnEntries(0);
292  for (int i=0;i<branchCount;i++) {
293  TBranch *tmp_branch = (TBranch*)branches->UncheckedAt(i);
294  if (trainedSet_.find(tmp_branch) != trainedSet_.end()) {
295  continue;
296  }
297  rawTriggerTreeCache_->AddBranch(tmp_branch, kTRUE);
298  }
299  performedSwitchOver_ = false;
300  rawTriggerTreeCache_->StopLearningPhase();
301  filePtr_->SetCacheRead(nullptr);
302 
303  return rawTriggerTreeCache_.get();
305  // The raw trigger has fired and it contents are valid.
306  return rawTriggerTreeCache_.get();
307  } else if (rawTriggerSwitchOverEntry_ > 0) {
308  // The raw trigger has fired, but we are out of the cache. Use the
309  // triggerCache instead.
310  if (!performedSwitchOver_) {
311  rawTriggerTreeCache_.reset();
312  performedSwitchOver_ = true;
313 
314  // Train the triggerCache
315  tree_->SetCacheSize(static_cast<Long64_t>(5*1024*1024));
316  triggerTreeCache_.reset(dynamic_cast<TTreeCache*>(filePtr_->GetCacheRead()));
317  triggerTreeCache_->SetEnablePrefetching(false);
318  triggerTreeCache_->SetLearnEntries(0);
319  triggerTreeCache_->SetEntryRange(entryNumber, tree_->GetEntries());
320  for(std::unordered_set<TBranch*>::const_iterator it = triggerSet_.begin(), itEnd = triggerSet_.end();
321  it != itEnd;
322  it++)
323  {
324  triggerTreeCache_->AddBranch(*it, kTRUE);
325  }
326  triggerTreeCache_->StopLearningPhase();
327  filePtr_->SetCacheRead(nullptr);
328  }
329  return triggerTreeCache_.get();
330  }
331 
332  // By construction, this case should be impossible.
333  assert (false);
334  return nullptr;
335  }
EntryNumber entryNumber_
Definition: RootTree.h:193
std::shared_ptr< TTreeCache > rawTriggerTreeCache_
Definition: RootTree.h:189
TTree * tree_
Definition: RootTree.h:179
EntryNumber rawTriggerSwitchOverEntry_
Definition: RootTree.h:199
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
bool performedSwitchOver_
Definition: RootTree.h:200
std::unordered_set< TBranch * > triggerSet_
Definition: RootTree.h:191
BranchMap const & branches() const
Definition: RootTree.cc:178
std::shared_ptr< TTreeCache > triggerTreeCache_
Definition: RootTree.h:188
void edm::RootTree::close ( void  )

Definition at line 436 of file RootTree.cc.

References auxBranch_, branchEntryInfoBranch_, filePtr_, infoTree_, metaTree_, rawTreeCache_, rawTriggerTreeCache_, tree_, treeCache_, and triggerTreeCache_.

Referenced by lumiQTWidget.ApplicationWindow::fileQuit(), esMonitoring.AsyncLineReaderMixin::handle_close(), esMonitoring.FDJsonServer::handle_close(), Vispa.Gui.BoxContentDialog.BoxContentDialog::keyPressEvent(), and Vispa.Gui.FindDialog.FindDialog::keyPressEvent().

436  {
437  // The TFile is about to be closed, and destructed.
438  // Just to play it safe, zero all pointers to quantities that are owned by the TFile.
440  tree_ = metaTree_ = infoTree_ = nullptr;
441  // We own the treeCache_.
442  // We make sure the treeCache_ is detached from the file,
443  // so that ROOT does not also delete it.
444  filePtr_->SetCacheRead(nullptr);
445  // We *must* delete the TTreeCache here because the TFilePrefetch object
446  // references the TFile. If TFile is closed, before the TTreeCache is
447  // deleted, the TFilePrefetch may continue to do TFile operations, causing
448  // deadlocks or exceptions.
449  treeCache_.reset();
450  rawTreeCache_.reset();
451  triggerTreeCache_.reset();
452  rawTriggerTreeCache_.reset();
453  // We give up our shared ownership of the TFile itself.
454  filePtr_.reset();
455  }
std::shared_ptr< TTreeCache > rawTriggerTreeCache_
Definition: RootTree.h:189
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
TTree * metaTree_
Definition: RootTree.h:180
TBranch * branchEntryInfoBranch_
Definition: RootTree.h:210
TBranch * auxBranch_
Definition: RootTree.h:182
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
std::shared_ptr< TTreeCache > triggerTreeCache_
Definition: RootTree.h:188
TTree * infoTree_
Definition: RootTree.h:212
bool edm::RootTree::current ( ) const
inline

Definition at line 98 of file RootTree.h.

Referenced by edm::RootFile::fillEventAuxiliary(), edm::RootFile::readCurrentEvent(), edm::RootFile::readLuminosityBlockAuxiliary_(), and edm::RootFile::readRunAuxiliary_().

98 {return entryNumber_ < entries_ && entryNumber_ >= 0;}
bool edm::RootTree::current ( EntryNumber  entry) const
inline

Definition at line 99 of file RootTree.h.

99 {return entry < entries_ && entry >= 0;}
void edm::RootTree::dropBranch ( std::string const &  oldBranchName)

Definition at line 155 of file RootTree.cc.

References beamvalidation::br, MicroEventContent_cff::branch, entries(), mps_fire::i, and tree_.

155  {
156  //use the translated branch name
157  TBranch* branch = tree_->GetBranch(oldBranchName.c_str());
158  if (branch != nullptr) {
159  TObjArray* leaves = tree_->GetListOfLeaves();
160  int entries = leaves->GetEntries();
161  for (int i = 0; i < entries; ++i) {
162  TLeaf* leaf = (TLeaf*)(*leaves)[i];
163  if (leaf == nullptr) continue;
164  TBranch* br = leaf->GetBranch();
165  if (br == nullptr) continue;
166  if (br->GetMother() == branch) {
167  leaves->Remove(leaf);
168  }
169  }
170  leaves->Compress();
171  tree_->GetListOfBranches()->Remove(branch);
172  tree_->GetListOfBranches()->Compress();
173  delete branch;
174  }
175  }
TTree * tree_
Definition: RootTree.h:179
EntryNumber const & entries() const
Definition: RootTree.h:105
EntryNumber const& edm::RootTree::entries ( ) const
inline
EntryNumber const& edm::RootTree::entryNumber ( ) const
inline
RootTree::EntryNumber const & edm::RootTree::entryNumberForIndex ( unsigned int  index) const

Definition at line 93 of file RootTree.cc.

References entryNumberForIndex_, diffTreeTool::index, and findQualityFiles::size.

Referenced by edm::RootDelayedReader::getProduct_(), and edm::FullProvenanceReader::readProvenance().

93  {
94  assert(index < entryNumberForIndex_->size());
95  return (*entryNumberForIndex_)[index];
96  }
size
Write out results.
std::unique_ptr< std::vector< EntryNumber > > entryNumberForIndex_
Definition: RootTree.h:194
template<typename T >
void edm::RootTree::fillAux ( T *&  pAux)
inline

Definition at line 112 of file RootTree.h.

References edm::roottree::getEntry().

Referenced by edm::RootFile::fillLumiAuxiliary(), edm::RootFile::fillRunAuxiliary(), and edm::RootFile::fillThisEventAuxiliary().

112  {
113  auxBranch_->SetAddress(&pAux);
115  }
EntryNumber entryNumber_
Definition: RootTree.h:193
TBranch * auxBranch_
Definition: RootTree.h:182
void getEntry(TBranch *branch, EntryNumber entry) const
Definition: RootTree.cc:357
template<typename T >
void edm::RootTree::fillBranchEntry ( TBranch *  branch,
T *&  pbuf 
)
inline

Definition at line 128 of file RootTree.h.

References edm::roottree::getEntry().

Referenced by edm::RootFile::fillEventHistory().

128  {
129  branch->SetAddress(&pbuf);
131  }
EntryNumber entryNumber_
Definition: RootTree.h:193
void getEntry(TBranch *branch, EntryNumber entry) const
Definition: RootTree.cc:357
template<typename T >
void edm::RootTree::fillBranchEntry ( TBranch *  branch,
EntryNumber  entryNumber,
T *&  pbuf 
)
inline

Definition at line 145 of file RootTree.h.

References edm::roottree::getEntry().

145  {
146  branch->SetAddress(&pbuf);
148  }
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
void getEntry(TBranch *branch, EntryNumber entry) const
Definition: RootTree.cc:357
template<typename T >
void edm::RootTree::fillBranchEntryMeta ( TBranch *  branch,
T *&  pbuf 
)
inline

Definition at line 117 of file RootTree.h.

References MicroEventContent_cff::branch, and edm::roottree::getEntry().

Referenced by edm::FullProvenanceReader::readProvenance().

117  {
118  if (metaTree_ != nullptr) {
119  // Metadata was in separate tree. Not cached.
120  branch->SetAddress(&pbuf);
122  } else {
123  fillBranchEntry<T>(branch, pbuf);
124  }
125  }
EntryNumber entryNumber_
Definition: RootTree.h:193
Int_t getEntry(TBranch *branch, EntryNumber entryNumber)
Definition: RootTree.cc:497
TTree * metaTree_
Definition: RootTree.h:180
template<typename T >
void edm::RootTree::fillBranchEntryMeta ( TBranch *  branch,
EntryNumber  entryNumber,
T *&  pbuf 
)
inline

Definition at line 134 of file RootTree.h.

References MicroEventContent_cff::branch, and edm::roottree::getEntry().

134  {
135  if (metaTree_ != nullptr) {
136  // Metadata was in separate tree. Not cached.
137  branch->SetAddress(&pbuf);
139  } else {
140  fillBranchEntry<T>(branch, entryNumber, pbuf);
141  }
142  }
Int_t getEntry(TBranch *branch, EntryNumber entryNumber)
Definition: RootTree.cc:497
TTree * metaTree_
Definition: RootTree.h:180
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
void edm::RootTree::getEntry ( TBranch *  branch,
EntryNumber  entry 
) const

Definition at line 357 of file RootTree.cc.

References cms::Exception::addContext(), helperFunctions::cache(), MillePedeFileConverter_cfg::e, filePtr_, edm::errors::FileReadError, selectCache(), AlCaHLTBitMon_QueryRunRegistry::string, and lumiQTWidget::t.

Referenced by edm::RootDelayedReader::getProduct_().

357  {
358  try {
359  TTreeCache * cache = selectCache(branch, entryNumber);
360  filePtr_->SetCacheRead(cache);
361  branch->GetEntry(entryNumber);
362  filePtr_->SetCacheRead(nullptr);
363  } catch(cms::Exception const& e) {
364  // We make sure the treeCache_ is detached from the file,
365  // so that ROOT does not also delete it.
366  filePtr_->SetCacheRead(nullptr);
368  t.addContext(std::string("Reading branch ")+branch->GetName());
369  throw t;
370  }
371  }
TTreeCache * selectCache(TBranch *branch, EntryNumber entryNumber) const
Definition: RootTree.cc:338
def cache(function)
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
void edm::RootTree::insertEntryForIndex ( unsigned int  index)

Definition at line 99 of file RootTree.cc.

References entryNumber(), diffTreeTool::index, and findQualityFiles::size.

Referenced by edm::RootFile::readCurrentEvent(), edm::RootFile::readLuminosityBlock_(), and edm::RootFile::readRun_().

99  {
100  assert(index < entryNumberForIndex_->size());
101  (*entryNumberForIndex_)[index] = entryNumber();
102  }
size
Write out results.
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
bool edm::RootTree::isValid ( void  ) const

Definition at line 105 of file RootTree.cc.

References auxBranch_, branchEntryInfoBranch_, entries_, infoTree_, metaTree_, and tree_.

Referenced by ntupleDataFormat._Object::_checkIsValid(), addBranch(), edm::RootFile::fillIndexIntoFile(), edm::RootFile::readLuminosityBlock_(), edm::RootFile::readLuminosityBlockAuxiliary_(), edm::RootFile::readRun_(), edm::RootFile::readRunAuxiliary_(), core.AutoHandle.AutoHandle::ReallyLoad(), setPresence(), and edm::RootFile::validateFile().

105  {
106  if (metaTree_ == nullptr || metaTree_->GetNbranches() == 0) {
107  return tree_ != nullptr && auxBranch_ != nullptr;
108  }
109  if (tree_ != nullptr && auxBranch_ != nullptr && metaTree_ != nullptr) { // backward compatibility
110  if (branchEntryInfoBranch_ != nullptr || infoTree_ != nullptr) return true; // backward compatibility
111  return (entries_ == metaTree_->GetEntries() && tree_->GetNbranches() <= metaTree_->GetNbranches() + 1); // backward compatibility
112  } // backward compatibility
113  return false;
114  }
TTree * tree_
Definition: RootTree.h:179
TTree * metaTree_
Definition: RootTree.h:180
TBranch * branchEntryInfoBranch_
Definition: RootTree.h:210
EntryNumber entries_
Definition: RootTree.h:192
TBranch * auxBranch_
Definition: RootTree.h:182
TTree * infoTree_
Definition: RootTree.h:212
TTree const* edm::RootTree::metaTree ( ) const
inline

Definition at line 152 of file RootTree.h.

Referenced by edm::RootFile::createFileBlock().

152 {return metaTree_;}
TTree * metaTree_
Definition: RootTree.h:180
bool edm::RootTree::next ( void  )
inline

Definition at line 95 of file RootTree.h.

Referenced by edm::RootFile::fillIndexIntoFile(), and edm::RootFile::initializeDuplicateChecker().

95 {return ++entryNumber_ < entries_;}
EntryNumber entryNumber_
Definition: RootTree.h:193
EntryNumber entries_
Definition: RootTree.h:192
bool edm::RootTree::nextWithCache ( )

Definition at line 196 of file RootTree.cc.

References entries_, entryNumber_, and setEntryNumber().

196  {
197  bool returnValue = ++entryNumber_ < entries_;
198  if(returnValue) {
200  }
201  return returnValue;
202  }
EntryNumber entryNumber_
Definition: RootTree.h:193
EntryNumber entries_
Definition: RootTree.h:192
void setEntryNumber(EntryNumber theEntryNumber)
Definition: RootTree.cc:205
RootTree& edm::RootTree::operator= ( RootTree const &  )
delete
bool edm::RootTree::previous ( )
inline

Definition at line 97 of file RootTree.h.

97 {return --entryNumber_ >= 0;}
EntryNumber entryNumber_
Definition: RootTree.h:193
DelayedReader * edm::RootTree::resetAndGetRootDelayedReader ( ) const

Definition at line 117 of file RootTree.cc.

References rootDelayedReader_.

Referenced by edm::RootFile::readCurrentEvent(), edm::RootFile::readLuminosityBlock_(), and edm::RootFile::readRun_().

117  {
118  rootDelayedReader_->reset();
119  return rootDelayedReader_.get();
120  }
std::unique_ptr< RootDelayedReader > rootDelayedReader_
Definition: RootTree.h:208
void edm::RootTree::resetTraining ( )
inline

Definition at line 162 of file RootTree.h.

Referenced by edm::RootFile::RootFile().

162 {trainNow_ = true;}
bool trainNow_
Definition: RootTree.h:197
void edm::RootTree::rewind ( )
inline

Definition at line 100 of file RootTree.h.

References PFRecoTauDiscriminationByIsolation_cfi::offset.

100 {entryNumber_ = 0;}
EntryNumber entryNumber_
Definition: RootTree.h:193
DelayedReader * edm::RootTree::rootDelayedReader ( ) const

Definition at line 123 of file RootTree.cc.

References rootDelayedReader_.

Referenced by edm::FullProvenanceReader::readProvenanceAsync().

123  {
124  return rootDelayedReader_.get();
125  }
std::unique_ptr< RootDelayedReader > rootDelayedReader_
Definition: RootTree.h:208
TTreeCache * edm::RootTree::selectCache ( TBranch *  branch,
EntryNumber  entryNumber 
) const
inline

Definition at line 338 of file RootTree.cc.

References checkTriggerCache(), rawTreeCache_, trainedSet_, and treeCache_.

Referenced by getEntry().

338  {
339  TTreeCache *triggerCache = nullptr;
340  if (!treeCache_) {
341  return nullptr;
342  } else if (treeCache_->IsLearning() && rawTreeCache_) {
343  treeCache_->AddBranch(branch, kTRUE);
344  trainedSet_.insert(branch);
345  return rawTreeCache_.get();
346  } else if ((triggerCache = checkTriggerCache(branch, entryNumber))) {
347  // A NULL return value from checkTriggerCache indicates the trigger cache case
348  // does not apply, and we should continue below.
349  return triggerCache;
350  } else {
351  // The "normal" TTreeCache case.
352  return treeCache_.get();
353  }
354  }
TTreeCache * checkTriggerCache(TBranch *branch, EntryNumber entryNumber) const
Definition: RootTree.cc:247
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
EntryNumber const & entryNumber() const
Definition: RootTree.h:103
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
void edm::RootTree::setCacheSize ( unsigned int  cacheSize)
private

Definition at line 181 of file RootTree.cc.

References cacheSize_, enablePrefetching_, filePtr_, rawTreeCache_, tree_, and treeCache_.

Referenced by RootTree().

181  {
182  cacheSize_ = cacheSize;
183  tree_->SetCacheSize(static_cast<Long64_t>(cacheSize));
184  treeCache_.reset(dynamic_cast<TTreeCache*>(filePtr_->GetCacheRead()));
185  if(treeCache_) treeCache_->SetEnablePrefetching(enablePrefetching_);
186  filePtr_->SetCacheRead(nullptr);
187  rawTreeCache_.reset();
188  }
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
bool enablePrefetching_
Definition: RootTree.h:206
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
unsigned int cacheSize_
Definition: RootTree.h:202
void edm::RootTree::setEntryNumber ( EntryNumber  theEntryNumber)

Definition at line 205 of file RootTree.cc.

References entries_, entryNumber_, filePtr_, rawTreeCache_, rawTriggerSwitchOverEntry_, startTraining(), stopTraining(), switchOverEntry_, trainedSet_, trainNow_, tree_, treeAutoFlush_, treeCache_, and triggerSet_.

Referenced by edm::RootFile::fillEventAuxiliary(), edm::RootFile::fillIndexIntoFile(), edm::RootFile::initializeDuplicateChecker(), nextWithCache(), edm::RootFile::readLuminosityBlock_(), edm::RootFile::readLuminosityBlockAuxiliary_(), edm::RootFile::readRunAuxiliary_(), edm::RootFile::setAtEventEntry(), edm::RootFile::setEntryAtEvent(), edm::RootFile::setEntryAtLumi(), and edm::RootFile::setEntryAtRun().

205  {
206  filePtr_->SetCacheRead(treeCache_.get());
207 
208  // Detect a backward skip. If the skip is sufficiently large, we roll the dice and reset the treeCache.
209  // This will cause some amount of over-reading: we pre-fetch all the events in some prior cluster.
210  // However, because reading one event in the cluster is supposed to be equivalent to reading all events in the cluster,
211  // we're not incurring additional over-reading - we're just doing it more efficiently.
212  // NOTE: Constructor guarantees treeAutoFlush_ is positive, even if TTree->GetAutoFlush() is negative.
213  if(theEntryNumber < entryNumber_ and theEntryNumber >=0) {
214  //We started reading the file near the end, now we need to correct for the learning length
215  if(switchOverEntry_ >tree_->GetEntries()) {
216  switchOverEntry_ = switchOverEntry_-tree_->GetEntries();
217  if(rawTreeCache_) {
218  rawTreeCache_->SetEntryRange(theEntryNumber, switchOverEntry_);
219  rawTreeCache_->FillBuffer();
220  }
221  }
222  }
223  if ((theEntryNumber < static_cast<EntryNumber>(entryNumber_-treeAutoFlush_)) &&
224  (treeCache_) && (!treeCache_->IsLearning()) && (entries_ > 0) && (switchOverEntry_ >= 0)) {
225  treeCache_->SetEntryRange(theEntryNumber, entries_);
226  treeCache_->FillBuffer();
227  }
228 
229  entryNumber_ = theEntryNumber;
230  tree_->LoadTree(entryNumber_);
231  filePtr_->SetCacheRead(nullptr);
232  if(treeCache_ && trainNow_ && entryNumber_ >= 0) {
233  startTraining();
234  trainNow_ = false;
235  trainedSet_.clear();
236  triggerSet_.clear();
238  }
239  if (treeCache_ && treeCache_->IsLearning() && switchOverEntry_ >= 0 && entryNumber_ >= switchOverEntry_) {
240  stopTraining();
241  }
242  }
EntryNumber entryNumber_
Definition: RootTree.h:193
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
bool trainNow_
Definition: RootTree.h:197
EntryNumber rawTriggerSwitchOverEntry_
Definition: RootTree.h:199
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
void stopTraining()
Definition: RootTree.cc:428
EntryNumber entries_
Definition: RootTree.h:192
unsigned long treeAutoFlush_
Definition: RootTree.h:203
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
void startTraining()
Definition: RootTree.cc:390
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
std::unordered_set< TBranch * > triggerSet_
Definition: RootTree.h:191
EntryNumber switchOverEntry_
Definition: RootTree.h:198
void edm::RootTree::setPresence ( BranchDescription prod,
std::string const &  oldBranchName 
)

Definition at line 128 of file RootTree.cc.

References isValid(), edm::BranchDescription::setDropped(), and tree_.

128  {
129  assert(isValid());
130  if(tree_->GetBranch(oldBranchName.c_str()) == nullptr){
131  prod.setDropped(true);
132  }
133  }
TTree * tree_
Definition: RootTree.h:179
bool isValid() const
Definition: RootTree.cc:105
void edm::RootTree::setSignals ( signalslot::Signal< void(StreamContext const &, ModuleCallingContext const &)> const *  preEventReadSource,
signalslot::Signal< void(StreamContext const &, ModuleCallingContext const &)> const *  postEventReadSource 
)

Definition at line 488 of file RootTree.cc.

References rootDelayedReader_.

Referenced by edm::RootFile::setSignals().

489  {
490  rootDelayedReader_->setSignals(preEventReadSource,
491  postEventReadSource);
492  }
std::unique_ptr< RootDelayedReader > rootDelayedReader_
Definition: RootTree.h:208
void edm::RootTree::setTreeMaxVirtualSize ( int  treeMaxVirtualSize)
private

Definition at line 191 of file RootTree.cc.

References tree_.

Referenced by RootTree().

191  {
192  if (treeMaxVirtualSize >= 0) tree_->SetMaxVirtualSize(static_cast<Long64_t>(treeMaxVirtualSize));
193  }
TTree * tree_
Definition: RootTree.h:179
bool edm::RootTree::skipEntries ( unsigned int &  offset)

Definition at line 374 of file RootTree.cc.

References entries_, entryNumber_, and PFRecoTauDiscriminationByIsolation_cfi::offset.

374  {
375  entryNumber_ += offset;
376  bool retval = (entryNumber_ < entries_);
377  if(retval) {
378  offset = 0;
379  } else {
380  // Not enough entries in the file to skip.
381  // The +1 is needed because entryNumber_ is -1 at the initialization of the tree, not 0.
382  long long overshoot = entryNumber_ + 1 - entries_;
384  offset = overshoot;
385  }
386  return retval;
387  }
EntryNumber entryNumber_
Definition: RootTree.h:193
EntryNumber entries_
Definition: RootTree.h:192
void edm::RootTree::startTraining ( )
private

Definition at line 390 of file RootTree.cc.

References edm::poolNames::branchListIndexesBranchName(), branchType_, edm::BranchTypeToAuxiliaryBranchName(), cacheSize_, entryNumber_, filePtr_, edm::InEvent, learningEntries_, rawTreeCache_, switchOverEntry_, trainedSet_, tree_, treeCache_, and triggerSet_.

Referenced by setEntryNumber().

390  {
391  if (cacheSize_ == 0) {
392  return;
393  }
394  assert(treeCache_);
395  assert(branchType_ == InEvent);
396  assert(!rawTreeCache_);
397  treeCache_->SetLearnEntries(learningEntries_);
398  tree_->SetCacheSize(static_cast<Long64_t>(cacheSize_));
399  rawTreeCache_.reset(dynamic_cast<TTreeCache *>(filePtr_->GetCacheRead()));
400  rawTreeCache_->SetEnablePrefetching(false);
401  filePtr_->SetCacheRead(nullptr);
402  rawTreeCache_->SetLearnEntries(0);
404  auto rawStart = entryNumber_;
405  auto rawEnd = switchOverEntry_;
406  auto treeStart =switchOverEntry_;
407  if(switchOverEntry_ >= tree_->GetEntries()) {
408  treeStart = switchOverEntry_-tree_->GetEntries();
409  rawEnd = tree_->GetEntries();
410  }
411  rawTreeCache_->StartLearningPhase();
412  rawTreeCache_->SetEntryRange(rawStart, rawEnd);
413  rawTreeCache_->AddBranch("*", kTRUE);
414  rawTreeCache_->StopLearningPhase();
415  treeCache_->StartLearningPhase();
416  treeCache_->SetEntryRange(treeStart, tree_->GetEntries());
417  // Make sure that 'branchListIndexes' branch exist in input file
418  if (filePtr_->Get(poolNames::branchListIndexesBranchName().c_str()) != nullptr) {
419  treeCache_->AddBranch(poolNames::branchListIndexesBranchName().c_str(), kTRUE);
420  }
421  treeCache_->AddBranch(BranchTypeToAuxiliaryBranchName(branchType_).c_str(), kTRUE);
422  trainedSet_.clear();
423  triggerSet_.clear();
424  assert(treeCache_->GetTree() == tree_);
425  }
EntryNumber entryNumber_
Definition: RootTree.h:193
std::string const & BranchTypeToAuxiliaryBranchName(BranchType const &branchType)
Definition: BranchType.cc:115
unsigned int learningEntries_
Definition: RootTree.h:201
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
unsigned int cacheSize_
Definition: RootTree.h:202
std::unordered_set< TBranch * > triggerSet_
Definition: RootTree.h:191
std::string const & branchListIndexesBranchName()
Definition: BranchType.cc:247
EntryNumber switchOverEntry_
Definition: RootTree.h:198
BranchType branchType_
Definition: RootTree.h:181
void edm::RootTree::stopTraining ( )
private

Definition at line 428 of file RootTree.cc.

References filePtr_, rawTreeCache_, and treeCache_.

Referenced by setEntryNumber().

428  {
429  filePtr_->SetCacheRead(treeCache_.get());
430  treeCache_->StopLearningPhase();
431  filePtr_->SetCacheRead(nullptr);
432  rawTreeCache_.reset();
433  }
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
std::shared_ptr< TTreeCache > rawTreeCache_
Definition: RootTree.h:187
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
void edm::RootTree::trainCache ( char const *  branchNames)

Definition at line 458 of file RootTree.cc.

References branches(), cacheSize_, filePtr_, mps_fire::i, trainedSet_, tree_, and treeCache_.

Referenced by edm::RootFile::RootFile().

458  {
459  if (cacheSize_ == 0) {
460  return;
461  }
462  tree_->LoadTree(0);
463  assert(treeCache_);
464  filePtr_->SetCacheRead(treeCache_.get());
465  treeCache_->StartLearningPhase();
466  treeCache_->SetEntryRange(0, tree_->GetEntries());
467  treeCache_->AddBranch(branchNames, kTRUE);
468  treeCache_->StopLearningPhase();
469  assert(treeCache_->GetTree() == tree_);
470  // We own the treeCache_.
471  // We make sure the treeCache_ is detached from the file,
472  // so that ROOT does not also delete it.
473  filePtr_->SetCacheRead(nullptr);
474 
475  // Must also manually add things to the trained set.
476  TObjArray *branches = tree_->GetListOfBranches();
477  int branchCount = branches->GetEntriesFast();
478  for (int i=0;i<branchCount;i++) {
479  TBranch *branch = (TBranch*)branches->UncheckedAt(i);
480  if ((branchNames[0] == '*') || (strcmp(branchNames, branch->GetName()) == 0)) {
481  trainedSet_.insert(branch);
482  }
483  }
484 
485  }
std::vector< std::string > const & branchNames() const
Definition: RootTree.h:108
std::shared_ptr< TTreeCache > treeCache_
Definition: RootTree.h:186
TTree * tree_
Definition: RootTree.h:179
std::unordered_set< TBranch * > trainedSet_
Definition: RootTree.h:190
std::shared_ptr< InputFile > filePtr_
Definition: RootTree.h:175
unsigned int cacheSize_
Definition: RootTree.h:202
BranchMap const & branches() const
Definition: RootTree.cc:178
TTree const* edm::RootTree::tree ( ) const
inline
TTree* edm::RootTree::tree ( )
inline

Member Data Documentation

TBranch* edm::RootTree::auxBranch_
private

Definition at line 182 of file RootTree.h.

Referenced by close(), and isValid().

TBranch* edm::RootTree::branchEntryInfoBranch_
private

Definition at line 210 of file RootTree.h.

Referenced by close(), and isValid().

std::shared_ptr<BranchMap> edm::RootTree::branches_
private

Definition at line 196 of file RootTree.h.

Referenced by addBranch(), and branches().

std::vector<std::string> edm::RootTree::branchNames_
private

Definition at line 195 of file RootTree.h.

Referenced by addBranch().

BranchType edm::RootTree::branchType_
private

Definition at line 181 of file RootTree.h.

Referenced by startTraining().

unsigned int edm::RootTree::cacheSize_
private

Definition at line 202 of file RootTree.h.

Referenced by RootTree(), setCacheSize(), startTraining(), and trainCache().

bool edm::RootTree::enablePrefetching_
private

Definition at line 206 of file RootTree.h.

Referenced by setCacheSize().

bool edm::RootTree::enableTriggerCache_
private

Definition at line 207 of file RootTree.h.

Referenced by checkTriggerCache().

EntryNumber edm::RootTree::entries_
private

Definition at line 192 of file RootTree.h.

Referenced by isValid(), nextWithCache(), setEntryNumber(), and skipEntries().

EntryNumber edm::RootTree::entryNumber_
private
std::unique_ptr<std::vector<EntryNumber> > edm::RootTree::entryNumberForIndex_
private

Definition at line 194 of file RootTree.h.

Referenced by entryNumberForIndex().

std::shared_ptr<InputFile> edm::RootTree::filePtr_
private
TTree* edm::RootTree::infoTree_
private

Definition at line 212 of file RootTree.h.

Referenced by close(), and isValid().

unsigned int edm::RootTree::learningEntries_
private

Definition at line 201 of file RootTree.h.

Referenced by RootTree(), and startTraining().

TTree* edm::RootTree::metaTree_
private

Definition at line 180 of file RootTree.h.

Referenced by addBranch(), close(), and isValid().

bool edm::RootTree::performedSwitchOver_
mutableprivate

Definition at line 200 of file RootTree.h.

Referenced by checkTriggerCacheImpl().

std::shared_ptr<TTreeCache> edm::RootTree::rawTreeCache_
private
EntryNumber edm::RootTree::rawTriggerSwitchOverEntry_
mutableprivate

Definition at line 199 of file RootTree.h.

Referenced by checkTriggerCacheImpl(), and setEntryNumber().

std::shared_ptr<TTreeCache> edm::RootTree::rawTriggerTreeCache_
mutableprivate

Definition at line 189 of file RootTree.h.

Referenced by checkTriggerCacheImpl(), and close().

std::unique_ptr<RootDelayedReader> edm::RootTree::rootDelayedReader_
private

Definition at line 208 of file RootTree.h.

Referenced by resetAndGetRootDelayedReader(), rootDelayedReader(), and setSignals().

TBranch* edm::RootTree::statusBranch_
private

Definition at line 213 of file RootTree.h.

EntryNumber edm::RootTree::switchOverEntry_
private

Definition at line 198 of file RootTree.h.

Referenced by setEntryNumber(), and startTraining().

std::unordered_set<TBranch*> edm::RootTree::trainedSet_
mutableprivate
bool edm::RootTree::trainNow_
private

Definition at line 197 of file RootTree.h.

Referenced by setEntryNumber().

TTree* edm::RootTree::tree_
private
unsigned long edm::RootTree::treeAutoFlush_
private

Definition at line 203 of file RootTree.h.

Referenced by RootTree(), and setEntryNumber().

std::shared_ptr<TTreeCache> edm::RootTree::treeCache_
private
std::unordered_set<TBranch*> edm::RootTree::triggerSet_
mutableprivate

Definition at line 191 of file RootTree.h.

Referenced by checkTriggerCacheImpl(), RootTree(), setEntryNumber(), and startTraining().

std::shared_ptr<TTreeCache> edm::RootTree::triggerTreeCache_
mutableprivate

Definition at line 188 of file RootTree.h.

Referenced by checkTriggerCacheImpl(), and close().