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NanoAODOutputModule.cc
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1 // -*- C++ -*-
2 //
3 // Package: PhysicsTools/NanoAODOutput
4 // Class : NanoAODOutputModule
5 //
6 // Implementation:
7 // [Notes on implementation]
8 //
9 // Original Author: Christopher Jones
10 // Created: Mon, 07 Aug 2017 14:21:41 GMT
11 //
12 
13 // system include files
14 #include <algorithm>
15 #include <memory>
16 
17 #include "Compression.h"
18 #include "TFile.h"
19 #include "TObjString.h"
20 #include "TROOT.h"
21 #include "TTree.h"
22 #include <string>
23 
24 // user include files
45 
46 #include <iostream>
47 
49 public:
51  ~NanoAODOutputModule() override;
52 
53  static void fillDescriptions(edm::ConfigurationDescriptions& descriptions);
54 
55 private:
56  void write(edm::EventForOutput const& e) override;
58  void writeRun(edm::RunForOutput const&) override;
59  bool isFileOpen() const override;
60  void openFile(edm::FileBlock const&) override;
61  void reallyCloseFile() override;
62 
69  bool m_fakeName; //crab workaround, remove after crab is fixed
73  std::unique_ptr<TFile> m_file;
75 
76  static constexpr int m_firstFlush{1000};
77 
79  public:
80  void branch(TTree& tree) {
81  tree.Branch("run", &m_run, "run/i");
82  tree.Branch("luminosityBlock", &m_luminosityBlock, "luminosityBlock/i");
83  tree.Branch("event", &m_event, "event/l");
84  }
85  void fill(const edm::EventID& id) {
86  m_run = id.run();
87  m_luminosityBlock = id.luminosityBlock();
88  m_event = id.event();
89  }
90 
91  private:
92  UInt_t m_run;
94  ULong64_t m_event;
96 
98  public:
99  void branch(TTree& tree) {
100  tree.Branch("run", &m_run, "run/i");
101  tree.Branch("luminosityBlock", &m_luminosityBlock, "luminosityBlock/i");
102  }
103  void fill(const edm::LuminosityBlockID& id) {
104  m_run = id.run();
105  m_luminosityBlock = id.value();
106  }
107 
108  private:
109  UInt_t m_run;
112 
114  public:
115  void branch(TTree& tree) { tree.Branch("run", &m_run, "run/i"); }
116  void fill(const edm::RunID& id) { m_run = id.run(); }
117 
118  private:
119  UInt_t m_run;
121 
122  std::vector<TableOutputBranches> m_tables;
123  std::vector<TriggerOutputBranches> m_triggers;
124  bool m_triggers_areSorted = false;
125  std::vector<EventStringOutputBranches> m_evstrings;
126 
127  std::vector<SummaryTableOutputBranches> m_runTables;
128 
129  std::vector<std::pair<std::string, edm::EDGetToken>> m_nanoMetadata;
130 };
131 
132 //
133 // constants, enums and typedefs
134 //
135 
136 //
137 // static data member definitions
138 //
139 
140 //
141 // constructors and destructor
142 //
145  edm::one::OutputModule<>(pset),
146  m_fileName(pset.getUntrackedParameter<std::string>("fileName")),
147  m_logicalFileName(pset.getUntrackedParameter<std::string>("logicalFileName")),
148  m_compressionLevel(pset.getUntrackedParameter<int>("compressionLevel")),
149  m_compressionAlgorithm(pset.getUntrackedParameter<std::string>("compressionAlgorithm")),
150  m_writeProvenance(pset.getUntrackedParameter<bool>("saveProvenance", true)),
151  m_fakeName(pset.getUntrackedParameter<bool>("fakeNameForCrab", false)),
152  m_autoFlush(pset.getUntrackedParameter<int>("autoFlush", -10000000)),
153  m_processHistoryRegistry() {}
154 
156 
158  //Get data from 'e' and write it to the file
160  jr->eventWrittenToFile(m_jrToken, iEvent.id().run(), iEvent.id().event());
161 
162  if (m_autoFlush) {
163  int64_t events = m_tree->GetEntriesFast();
164  if (events == m_firstFlush) {
165  m_tree->FlushBaskets();
166  float maxMemory;
167  if (m_autoFlush > 0) {
168  // Estimate the memory we'll be using at the first full flush by
169  // linearly scaling the number of events.
170  float percentClusterDone = m_firstFlush / static_cast<float>(m_autoFlush);
171  maxMemory = static_cast<float>(m_tree->GetTotBytes()) / percentClusterDone;
172  } else if (m_tree->GetZipBytes() == 0) {
173  maxMemory = 100 * 1024 * 1024; // Degenerate case of no information in the tree; arbitrary value
174  } else {
175  // Estimate the memory we'll be using by scaling the current compression ratio.
176  float cxnRatio = m_tree->GetTotBytes() / static_cast<float>(m_tree->GetZipBytes());
177  maxMemory = -m_autoFlush * cxnRatio;
178  float percentBytesDone = -m_tree->GetZipBytes() / static_cast<float>(m_autoFlush);
179  m_autoFlush = m_firstFlush / percentBytesDone;
180  }
181  //std::cout << "OptimizeBaskets: total bytes " << m_tree->GetTotBytes() << std::endl;
182  //std::cout << "OptimizeBaskets: zip bytes " << m_tree->GetZipBytes() << std::endl;
183  //std::cout << "OptimizeBaskets: autoFlush " << m_autoFlush << std::endl;
184  //std::cout << "OptimizeBaskets: maxMemory " << static_cast<uint32_t>(maxMemory) << std::endl;
185  //m_tree->OptimizeBaskets(static_cast<uint32_t>(maxMemory), 1, "d");
186  m_tree->OptimizeBaskets(static_cast<uint32_t>(maxMemory), 1, "");
187  }
189  m_tree->FlushBaskets();
190  m_eventsSinceFlush = 0;
191  }
193  }
194 
196  // fill all tables, starting from main tables and then doing extension tables
197  for (unsigned int extensions = 0; extensions <= 1; ++extensions) {
198  for (auto& t : m_tables)
199  t.fill(iEvent, *m_tree, extensions);
200  }
201  if (!m_triggers_areSorted) { // sort triggers/flags in inverse processHistory order, to save without any special label the most recent ones
202  std::vector<std::string> pnames;
203  for (auto& p : iEvent.processHistory())
204  pnames.push_back(p.processName());
205  std::sort(m_triggers.begin(), m_triggers.end(), [pnames](TriggerOutputBranches& a, TriggerOutputBranches& b) {
206  return ((std::find(pnames.begin(), pnames.end(), a.processName()) - pnames.begin()) >
207  (std::find(pnames.begin(), pnames.end(), b.processName()) - pnames.begin()));
208  });
209  m_triggers_areSorted = true;
210  }
211  // fill triggers
212  for (auto& t : m_triggers)
213  t.fill(iEvent, *m_tree);
214  // fill event branches
215  for (auto& t : m_evstrings)
216  t.fill(iEvent, *m_tree);
217  m_tree->Fill();
218 
220 }
221 
224  jr->reportLumiSection(m_jrToken, iLumi.id().run(), iLumi.id().value());
225 
226  m_commonLumiBranches.fill(iLumi.id());
227  m_lumiTree->Fill();
228 
230 }
231 
234  jr->reportRunNumber(m_jrToken, iRun.id().run());
235 
236  m_commonRunBranches.fill(iRun.id());
237 
238  for (auto& t : m_runTables)
239  t.fill(iRun, *m_runTree);
240 
242  for (const auto& p : m_nanoMetadata) {
243  iRun.getByToken(p.second, hstring);
244  TObjString* tos = dynamic_cast<TObjString*>(m_file->Get(p.first.c_str()));
245  if (tos) {
246  if (hstring->str() != tos->GetString())
247  throw cms::Exception("LogicError", "Inconsistent nanoMetadata " + p.first + " (" + hstring->str() + ")");
248  } else {
249  auto ostr = std::make_unique<TObjString>(hstring->str().c_str());
250  m_file->WriteTObject(ostr.release(), p.first.c_str());
251  }
252  }
253 
254  m_runTree->Fill();
255 
257 }
258 
259 bool NanoAODOutputModule::isFileOpen() const { return nullptr != m_file.get(); }
260 
262  m_file = std::make_unique<TFile>(m_fileName.c_str(), "RECREATE", "", m_compressionLevel);
264  cms::Digest branchHash;
265  m_jrToken = jr->outputFileOpened(m_fileName,
267  std::string(),
268  m_fakeName ? "PoolOutputModule" : "NanoAODOutputModule",
271  std::string(),
272  branchHash.digest().toString(),
273  std::vector<std::string>());
274 
275  if (m_compressionAlgorithm == std::string("ZLIB")) {
276  m_file->SetCompressionAlgorithm(ROOT::kZLIB);
277  } else if (m_compressionAlgorithm == std::string("LZMA")) {
278  m_file->SetCompressionAlgorithm(ROOT::kLZMA);
279  } else {
280  throw cms::Exception("Configuration")
281  << "NanoAODOutputModule configured with unknown compression algorithm '" << m_compressionAlgorithm << "'\n"
282  << "Allowed compression algorithms are ZLIB and LZMA\n";
283  }
284  /* Setup file structure here */
285  m_tables.clear();
286  m_triggers.clear();
287  m_triggers_areSorted = false;
288  m_evstrings.clear();
289  m_runTables.clear();
290  const auto& keeps = keptProducts();
291  for (const auto& keep : keeps[edm::InEvent]) {
292  if (keep.first->className() == "nanoaod::FlatTable")
293  m_tables.emplace_back(keep.first, keep.second);
294  else if (keep.first->className() == "edm::TriggerResults") {
295  m_triggers.emplace_back(keep.first, keep.second);
296  } else if (keep.first->className() == "std::basic_string<char,std::char_traits<char> >" &&
297  keep.first->productInstanceName() == "genModel") { // friendlyClassName == "String"
298  m_evstrings.emplace_back(keep.first, keep.second, true); // update only at lumiBlock transitions
299  } else
300  throw cms::Exception("Configuration", "NanoAODOutputModule cannot handle class " + keep.first->className());
301  }
302 
303  for (const auto& keep : keeps[edm::InRun]) {
304  if (keep.first->className() == "nanoaod::MergeableCounterTable")
305  m_runTables.push_back(SummaryTableOutputBranches(keep.first, keep.second));
306  else if (keep.first->className() == "nanoaod::UniqueString" && keep.first->moduleLabel() == "nanoMetadata")
307  m_nanoMetadata.emplace_back(keep.first->productInstanceName(), keep.second);
308  else
309  throw cms::Exception("Configuration",
310  "NanoAODOutputModule cannot handle class " + keep.first->className() + " in Run branch");
311  }
312 
313  // create the trees
314  m_tree = std::make_unique<TTree>("Events", "Events");
315  m_tree->SetAutoSave(0);
316  m_tree->SetAutoFlush(0);
318 
319  m_lumiTree = std::make_unique<TTree>("LuminosityBlocks", "LuminosityBlocks");
320  m_lumiTree->SetAutoSave(0);
322 
323  m_runTree = std::make_unique<TTree>("Runs", "Runs");
324  m_runTree->SetAutoSave(0);
326 
327  if (m_writeProvenance) {
328  m_metaDataTree = std::make_unique<TTree>(edm::poolNames::metaDataTreeName().c_str(), "Job metadata");
329  m_metaDataTree->SetAutoSave(0);
330  m_parameterSetsTree = std::make_unique<TTree>(edm::poolNames::parameterSetsTreeName().c_str(), "Parameter sets");
331  m_parameterSetsTree->SetAutoSave(0);
332  }
333 }
335  if (m_writeProvenance) {
336  int basketSize = 16384; // fixme configurable?
339  if (m_metaDataTree->GetNbranches() != 0) {
340  m_metaDataTree->SetEntries(-1);
341  }
342  if (m_parameterSetsTree->GetNbranches() != 0) {
343  m_parameterSetsTree->SetEntries(-1);
344  }
345  }
346  m_file->Write();
347  m_file->Close();
348  m_file.reset();
349  m_tree.release(); // apparently root has ownership
350  m_lumiTree.release(); //
351  m_runTree.release(); //
352  m_metaDataTree.release(); //
353  m_parameterSetsTree.release(); //
356 }
357 
360 
361  desc.addUntracked<std::string>("fileName");
362  desc.addUntracked<std::string>("logicalFileName", "");
363 
364  desc.addUntracked<int>("compressionLevel", 9)->setComment("ROOT compression level of output file.");
365  desc.addUntracked<std::string>("compressionAlgorithm", "ZLIB")
366  ->setComment("Algorithm used to compress data in the ROOT output file, allowed values are ZLIB and LZMA");
367  desc.addUntracked<bool>("saveProvenance", true)
368  ->setComment("Save process provenance information, e.g. for edmProvDump");
369  desc.addUntracked<bool>("fakeNameForCrab", false)
370  ->setComment(
371  "Change the OutputModule name in the fwk job report to fake PoolOutputModule. This is needed to run on cran "
372  "(and publish) till crab is fixed");
373  desc.addUntracked<int>("autoFlush", -10000000)->setComment("Autoflush parameter for ROOT file");
374 
375  //replace with whatever you want to get from the EDM by default
376  const std::vector<std::string> keep = {"drop *",
377  "keep nanoaodFlatTable_*Table_*_*",
378  "keep edmTriggerResults_*_*_*",
379  "keep String_*_genModel_*",
380  "keep nanoaodMergeableCounterTable_*Table_*_*",
381  "keep nanoaodUniqueString_nanoMetadata_*_*"};
383 
384  //Used by Workflow management for their own meta data
386  dataSet.setAllowAnything();
387  desc.addUntracked<edm::ParameterSetDescription>("dataset", dataSet)
388  ->setComment("PSet is only used by Data Operations and not by this module.");
389 
391  branchSet.setAllowAnything();
392  desc.add<edm::ParameterSetDescription>("branches", branchSet);
393 
394  descriptions.addDefault(desc);
395 }
396 
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Definition: OutputModule.h:30
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Definition: NanoAODOutputModule.cc:74
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Definition: NanoAODOutputModule.cc:358
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Definition: HerwigMaxPtPartonFilter_cfi.py:4
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Definition: NanoAODOutputModule.cc:155
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Definition: NanoAODOutputModule.cc:157
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Definition: Digest.cc:95
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Definition: EventID.h:31
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Definition: submitPVValidationJobs.py:644
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Definition: ConfigurationDescriptions.cc:99
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Definition: NanoAODOutputModule.cc:124
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Definition: muonDTDigis_cfi.py:27
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Definition: NanoAODOutputModule.cc:116
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Definition: UniqueString.h:12
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Definition: MillePedeFileConverter_cfg.py:37