doc/v628/ntpl007__mtFill_8C.html

// NOTE: The RNTuple classes are experimental at this point.

// Functionality, interface, and data format is still subject to changes.

// Do not use for real data!


// Until C++ runtime modules are universally used, we explicitly load the ntuple library.  Otherwise

// triggering autoloading from the use of templated types would require an exhaustive enumeration

// of "all" template instances in the LinkDef file.

R__LOAD_LIBRARY(ROOTNTuple)


#include <ROOT/RNTuple.hxx>

#include <ROOT/RNTupleModel.hxx>


#include <TCanvas.h>

#include <TH1F.h>

#include <TRandom.h>

#include <TSystem.h>


#include <atomic>

#include <memory>

#include <mutex>

#include <thread>

#include <vector>

#include <utility>


// Import classes from experimental namespace for the time being

using REntry = ROOT::Experimental::REntry;

using RNTupleModel = ROOT::Experimental::RNTupleModel;

using RNTupleReader = ROOT::Experimental::RNTupleReader;

using RNTupleWriter = ROOT::Experimental::RNTupleWriter;


// Where to store the ntuple of this example

constexpr char const *kNTupleFileName = "ntpl007_mtFill.root";


// Number of parallel threads to fill the ntuple

constexpr int kNWriterThreads = 4;


// Number of events to generate is kNEventsPerThread * kNWriterThreads

constexpr int kNEventsPerThread = 25000;


// Thread function to generate and write events

void FillData(std::unique_ptr<REntry> entry, RNTupleWriter *ntuple) {

   // Protect the ntuple->Fill() call

   static std::mutex gLock;


   static std::atomic<std::uint32_t> gThreadId;

   const auto threadId = ++gThreadId;


   auto prng = std::make_unique<TRandom3>();

   prng->SetSeed();


   auto id = entry->Get<std::uint32_t>("id");

   auto vpx = entry->Get<std::vector<float>>("vpx");

   auto vpy = entry->Get<std::vector<float>>("vpy");

   auto vpz = entry->Get<std::vector<float>>("vpz");


   for (int i = 0; i < kNEventsPerThread; i++) {

      vpx->clear();

      vpy->clear();

      vpz->clear();

      *id = threadId;


      int npx = static_cast<int>(prng->Rndm(1) * 15);

      // Set the field data for the current event

      for (int j = 0; j < npx; ++j) {

         float px, py, pz;

         prng->Rannor(px, py);

         pz = px*px + py*py;


         vpx->emplace_back(px);

         vpy->emplace_back(py);

         vpz->emplace_back(pz);

      }


      std::lock_guard<std::mutex> guard(gLock);

      ntuple->Fill(*entry);

   }

}


// Generate kNEvents with multiple threads in kNTupleFileName

void Write()

{

   // Create the data model

   auto model = RNTupleModel::Create();

   model->MakeField<std::uint32_t>("id");

   model->MakeField<std::vector<float>>("vpx");

   model->MakeField<std::vector<float>>("vpy");

   model->MakeField<std::vector<float>>("vpz");


   // We hand-over the data model to a newly created ntuple of name "NTuple", stored in kNTupleFileName

   auto ntuple = RNTupleWriter::Recreate(std::move(model), "NTuple", kNTupleFileName);


   std::vector<std::unique_ptr<REntry>> entries;

   std::vector<std::thread> threads;

   for (int i = 0; i < kNWriterThreads; ++i)

      entries.emplace_back(ntuple->CreateEntry());

   for (int i = 0; i < kNWriterThreads; ++i)

      threads.emplace_back(FillData, std::move(entries[i]), ntuple.get());

   for (int i = 0; i < kNWriterThreads; ++i)

      threads[i].join();


   // The ntuple unique pointer goes out of scope here.  On destruction, the ntuple flushes unwritten data to disk

   // and closes the attached ROOT file.

}


// For all of the events, histogram only one of the written vectors

void Read()

{

   auto ntuple = RNTupleReader::Open("NTuple", kNTupleFileName);

   // TODO(jblomer): the "inner name" of the vector should become "vpx._0"

   auto viewVpx = ntuple->GetView<float>("vpx._0");


   gStyle->SetOptStat(0);


   TCanvas *c1 = new TCanvas("c2", "Multi-Threaded Filling Example", 200, 10, 1500, 500);

   c1->Divide(2, 1);


   c1->cd(1);

   TH1F h("h", "This is the px distribution", 100, -4, 4);

   h.SetFillColor(48);

   // Iterate through all values of vpx in all events

   for (auto i : viewVpx.GetFieldRange())

      h.Fill(viewVpx(i));

   // Prevent the histogram from disappearing

   h.DrawCopy();


   c1->cd(2);

   auto nEvents = ntuple->GetNEntries();

   auto viewId = ntuple->GetView<std::uint32_t>("id");

   TH2F hFillSequence("","Entry Id vs Thread Id;Entry Sequence Number;Filling Thread",

                      100, 0, nEvents, 100, 0, kNWriterThreads);

   for (auto i : ntuple->GetEntryRange())

      hFillSequence.Fill(i, viewId(i));

   hFillSequence.DrawCopy();

}


void ntpl007_mtFill()

{

   Write();

   Read();

}

RNTupleModel.hxx

h
#define h(i)
Definition RSha256.hxx:106

R__LOAD_LIBRARY
#define R__LOAD_LIBRARY(LIBRARY)
Definition Rtypes.h:491

TCanvas.h

TH1F.h

TRandom.h

gStyle
R__EXTERN TStyle * gStyle
Definition TStyle.h:414

TSystem.h

ROOT::Experimental::REntry
The REntry is a collection of values in an ntuple corresponding to a complete row in the data set.
Definition REntry.hxx:43

ROOT::Experimental::RNTupleModel
The RNTupleModel encapulates the schema of an ntuple.
Definition RNTupleModel.hxx:46

ROOT::Experimental::RNTupleReader
An RNTuple that is used to read data from storage.
Definition RNTuple.hxx:110

ROOT::Experimental::RNTupleWriter
An RNTuple that gets filled with entries (data) and writes them to storage.
Definition RNTuple.hxx:368

TCanvas
The Canvas class.
Definition TCanvas.h:23

TH1F
1-D histogram with a float per channel (see TH1 documentation)}
Definition TH1.h:577

TH2F
2-D histogram with a float per channel (see TH1 documentation)}
Definition TH2.h:257

TStyle::SetOptStat
void SetOptStat(Int_t stat=1)
The type of information printed in the histogram statistics box can be selected via the parameter mod...
Definition TStyle.cxx:1589

c1
return c1
Definition legend1.C:41