doc/v634/RNTupleDescriptorFmt_8cxx_source.html

/// \file RNTupleDescriptorFmt.cxx

/// \ingroup NTuple ROOT7

/// \author Jakob Blomer <jblomer@cern.ch>

/// \date 2019-08-25

/// \warning This is part of the ROOT 7 prototype! It will change without notice. It might trigger earthquakes. Feedback

/// is welcome!


/*************************************************************************

 * Copyright (C) 1995-2019, Rene Brun and Fons Rademakers.               *

 * All rights reserved.                                                  *

 *                                                                       *

 * For the licensing terms see $ROOTSYS/LICENSE.                         *

 * For the list of contributors see $ROOTSYS/README/CREDITS.             *

 *************************************************************************/


#include <ROOT/RColumnElementBase.hxx>

#include <ROOT/RNTupleDescriptor.hxx>

#include <ROOT/RNTupleUtil.hxx>


#include <algorithm>

#include <iomanip>

#include <ostream>

#include <unordered_map>

#include <vector>


namespace {


struct ClusterInfo {

   std::uint64_t fFirstEntry = 0;

   std::uint32_t fNPages = 0;

   std::uint32_t fNEntries = 0;

   std::uint32_t fBytesOnStorage = 0;

   std::uint32_t fBytesInMemory = 0;


   bool operator==(const ClusterInfo &other) const { return fFirstEntry == other.fFirstEntry; }


   bool operator<(const ClusterInfo &other) const { return fFirstEntry < other.fFirstEntry; }

};


struct ColumnInfo {

   ROOT::Experimental::DescriptorId_t fPhysicalColumnId = 0;

   ROOT::Experimental::DescriptorId_t fLogicalColumnId = 0;

   ROOT::Experimental::DescriptorId_t fFieldId = 0;

   std::uint64_t fNElements = 0;

   std::uint64_t fNPages = 0;

   std::uint64_t fBytesOnStorage = 0;

   std::uint32_t fElementSize = 0;

   std::uint32_t fColumnIndex = 0;

   std::uint16_t fRepresentationIndex = 0;

   ROOT::Experimental::EColumnType fType;

   std::string fFieldName;

   std::string fFieldDescription;


   bool operator<(const ColumnInfo &other) const

   {

      if (fFieldName == other.fFieldName) {

         if (fRepresentationIndex == other.fRepresentationIndex)

            return fColumnIndex < other.fColumnIndex;

         return fRepresentationIndex < other.fRepresentationIndex;

      }

      return fFieldName < other.fFieldName;

   }

};


std::string

GetFieldName(ROOT::Experimental::DescriptorId_t fieldId, const ROOT::Experimental::RNTupleDescriptor &ntupleDesc)

{

   const auto &fieldDesc = ntupleDesc.GetFieldDescriptor(fieldId);

   if (fieldDesc.GetParentId() == ROOT::Experimental::kInvalidDescriptorId)

      return fieldDesc.GetFieldName();

   return GetFieldName(fieldDesc.GetParentId(), ntupleDesc) + "." + fieldDesc.GetFieldName();

}


std::string GetFieldDescription(ROOT::Experimental::DescriptorId_t fFieldId,

                                const ROOT::Experimental::RNTupleDescriptor &ntupleDesc)

{

   const auto &fieldDesc = ntupleDesc.GetFieldDescriptor(fFieldId);

   return fieldDesc.GetFieldDescription();

}


} // anonymous namespace


void ROOT::Experimental::RNTupleDescriptor::PrintInfo(std::ostream &output) const

{

   std::vector<ColumnInfo> columns;

   std::vector<ClusterInfo> clusters;

   std::unordered_map<DescriptorId_t, unsigned int> cluster2Idx;

   clusters.reserve(fClusterDescriptors.size());

   for (const auto &cluster : fClusterDescriptors) {

      ClusterInfo info;

      info.fFirstEntry = cluster.second.GetFirstEntryIndex();

      info.fNEntries = cluster.second.GetNEntries();

      cluster2Idx[cluster.first] = clusters.size();

      clusters.emplace_back(info);

   }


   std::uint64_t bytesOnStorage = 0;

   std::uint64_t bytesInMemory = 0;

   std::uint64_t nPages = 0;

   int compression = -1;

   for (const auto &column : fColumnDescriptors) {

      // Alias columns (columns of projected fields) don't contribute to the storage consumption. Count them

      // but don't add the the page sizes to the overall volume.

      if (column.second.IsAliasColumn())

         continue;


      // We generate the default memory representation for the given column type in order

      // to report the size _in memory_ of column elements

      auto elementSize = Internal::RColumnElementBase::Generate(column.second.GetType())->GetSize();


      ColumnInfo info;

      info.fPhysicalColumnId = column.second.GetPhysicalId();

      info.fLogicalColumnId = column.second.GetLogicalId();

      info.fFieldId = column.second.GetFieldId();

      info.fColumnIndex = column.second.GetIndex();

      info.fElementSize = elementSize;

      info.fType = column.second.GetType();

      info.fRepresentationIndex = column.second.GetRepresentationIndex();


      for (const auto &cluster : fClusterDescriptors) {

         auto columnRange = cluster.second.GetColumnRange(column.second.GetPhysicalId());

         if (columnRange.fIsSuppressed)

            continue;


         info.fNElements += columnRange.fNElements;

         if (compression == -1) {

            compression = columnRange.fCompressionSettings;

         }

         const auto &pageRange = cluster.second.GetPageRange(column.second.GetPhysicalId());

         auto idx = cluster2Idx[cluster.first];

         for (const auto &page : pageRange.fPageInfos) {

            bytesOnStorage += page.fLocator.fBytesOnStorage;

            bytesInMemory += page.fNElements * elementSize;

            clusters[idx].fBytesOnStorage += page.fLocator.fBytesOnStorage;

            clusters[idx].fBytesInMemory += page.fNElements * elementSize;

            ++clusters[idx].fNPages;

            info.fBytesOnStorage += page.fLocator.fBytesOnStorage;

            ++info.fNPages;

            ++nPages;

         }

      }

      columns.emplace_back(info);

   }

   auto headerSize = GetOnDiskHeaderSize();

   auto footerSize = GetOnDiskFooterSize();

   output << "============================================================\n";

   output << "NTUPLE:      " << GetName() << "\n";

   output << "Compression: " << compression << "\n";

   output << "------------------------------------------------------------\n";

   output << "  # Entries:        " << GetNEntries() << "\n";

   output << "  # Fields:         " << GetNFields() << "\n";

   output << "  # Columns:        " << GetNPhysicalColumns() << "\n";

   output << "  # Alias Columns:  " << GetNLogicalColumns() - GetNPhysicalColumns() << "\n";

   output << "  # Pages:          " << nPages << "\n";

   output << "  # Clusters:       " << GetNClusters() << "\n";

   output << "  Size on storage:  " << bytesOnStorage << " B"

          << "\n";

   output << "  Compression rate: " << std::fixed << std::setprecision(2)

          << float(bytesInMemory) / float(bytesOnStorage) << "\n";

   output << "  Header size:      " << headerSize << " B"

          << "\n";

   output << "  Footer size:      " << footerSize << " B"

          << "\n";

   output << "  Meta-data / data: " << std::fixed << std::setprecision(3)

          << float(headerSize + footerSize) / float(bytesOnStorage) << "\n";

   output << "------------------------------------------------------------\n";

   output << "CLUSTER DETAILS\n";

   output << "------------------------------------------------------------" << std::endl;


   std::sort(clusters.begin(), clusters.end());

   for (unsigned int i = 0; i < clusters.size(); ++i) {

      output << "  # " << std::setw(5) << i << "   Entry range:     [" << clusters[i].fFirstEntry << ".."

             << clusters[i].fFirstEntry + clusters[i].fNEntries - 1 << "]  --  " << clusters[i].fNEntries << "\n";

      output << "         "

             << "   # Pages:         " << clusters[i].fNPages << "\n";

      output << "         "

             << "   Size on storage: " << clusters[i].fBytesOnStorage << " B\n";

      output << "         "

             << "   Compression:     " << std::fixed << std::setprecision(2)

             << float(clusters[i].fBytesInMemory) / float(float(clusters[i].fBytesOnStorage)) << std::endl;

   }


   output << "------------------------------------------------------------\n";

   output << "COLUMN DETAILS\n";

   output << "------------------------------------------------------------\n";

   for (auto &col : columns) {

      col.fFieldName = GetFieldName(col.fFieldId, *this).substr(1);

      col.fFieldDescription = GetFieldDescription(col.fFieldId, *this);

   }

   std::sort(columns.begin(), columns.end());

   for (const auto &col : columns) {

      auto avgPageSize = (col.fNPages == 0) ? 0 : (col.fBytesOnStorage / col.fNPages);

      auto avgElementsPerPage = (col.fNPages == 0) ? 0 : (col.fNElements / col.fNPages);

      std::string nameAndType = std::string("  ") + col.fFieldName + " [#" + std::to_string(col.fColumnIndex);

      if (col.fRepresentationIndex > 0)

         nameAndType += " / R." + std::to_string(col.fRepresentationIndex);

      nameAndType += "]  --  " + std::string{Internal::RColumnElementBase::GetColumnTypeName(col.fType)};

      std::string id = std::string("{id:") + std::to_string(col.fLogicalColumnId) + "}";

      if (col.fLogicalColumnId != col.fPhysicalColumnId)

         id += " --alias--> " + std::to_string(col.fPhysicalColumnId);

      output << nameAndType << std::setw(60 - nameAndType.length()) << id << "\n";

      if (!col.fFieldDescription.empty())

         output << "    Description:         " << col.fFieldDescription << "\n";

      output << "    # Elements:          " << col.fNElements << "\n";

      output << "    # Pages:             " << col.fNPages << "\n";

      output << "    Avg elements / page: " << avgElementsPerPage << "\n";

      output << "    Avg page size:       " << avgPageSize << " B\n";

      output << "    Size on storage:     " << col.fBytesOnStorage << " B\n";

      output << "    Compression:         " << std::fixed << std::setprecision(2)

             << float(col.fElementSize * col.fNElements) / float(col.fBytesOnStorage) << "\n";

      output << "............................................................" << std::endl;

   }

}


RColumnElementBase.hxx

RNTupleDescriptor.hxx

RNTupleUtil.hxx

TRangeDynCast
ROOT::Detail::TRangeCast< T, true > TRangeDynCast
TRangeDynCast is an adapter class that allows the typed iteration through a TCollection.
Definition TCollection.h:358

operator<
Bool_t operator<(const TDatime &d1, const TDatime &d2)
Definition TDatime.h:106

operator==
Bool_t operator==(const TDatime &d1, const TDatime &d2)
Definition TDatime.h:102

ROOT::Detail::TRangeCast
Definition TCollection.h:311

EColumnType
The available trivial, native content types of a column.

ROOT::Experimental::Internal::RColumnElementBase::GetColumnTypeName
static const char * GetColumnTypeName(EColumnType type)
Definition RColumnElement.cxx:70

ROOT::Experimental::Internal::RColumnElementBase::Generate
static std::unique_ptr< RColumnElementBase > Generate(EColumnType type)
If CppT == void, use the default C++ type for the given column type.
Definition RColumnElementBase.hxx:144

ROOT::Experimental::RNTupleDescriptor
The on-storage meta-data of an ntuple.
Definition RNTupleDescriptor.hxx:529

ROOT::Experimental::RNTupleDescriptor::fClusterDescriptors
std::unordered_map< DescriptorId_t, RClusterDescriptor > fClusterDescriptors
May contain only a subset of all the available clusters, e.g.
Definition RNTupleDescriptor.hxx:566

ROOT::Experimental::RNTupleDescriptor::GetNLogicalColumns
std::size_t GetNLogicalColumns() const
Definition RNTupleDescriptor.hxx:648

ROOT::Experimental::RNTupleDescriptor::GetName
const std::string & GetName() const
Definition RNTupleDescriptor.hxx:644

ROOT::Experimental::RNTupleDescriptor::GetOnDiskHeaderSize
std::uint64_t GetOnDiskHeaderSize() const
Definition RNTupleDescriptor.hxx:604

ROOT::Experimental::RNTupleDescriptor::GetNClusters
std::size_t GetNClusters() const
Definition RNTupleDescriptor.hxx:651

ROOT::Experimental::RNTupleDescriptor::fColumnDescriptors
std::unordered_map< DescriptorId_t, RColumnDescriptor > fColumnDescriptors
Definition RNTupleDescriptor.hxx:562

ROOT::Experimental::RNTupleDescriptor::GetNEntries
NTupleSize_t GetNEntries() const
We know the number of entries from adding the cluster summaries.
Definition RNTupleDescriptor.hxx:656

ROOT::Experimental::RNTupleDescriptor::GetNFields
std::size_t GetNFields() const
Definition RNTupleDescriptor.hxx:647

ROOT::Experimental::RNTupleDescriptor::GetOnDiskFooterSize
std::uint64_t GetOnDiskFooterSize() const
Definition RNTupleDescriptor.hxx:605

ROOT::Experimental::RNTupleDescriptor::GetNPhysicalColumns
std::size_t GetNPhysicalColumns() const
Definition RNTupleDescriptor.hxx:649

ROOT::Experimental::RNTupleDescriptor::PrintInfo
void PrintInfo(std::ostream &output) const
Definition RNTupleDescriptorFmt.cxx:83

ROOT::RRangeCast::begin
const_iterator begin() const
Definition RRangeCast.hxx:145

ROOT::RRangeCast::end
const_iterator end() const
Definition RRangeCast.hxx:146

ROOT::Experimental::DescriptorId_t
std::uint64_t DescriptorId_t
Distriniguishes elements of the same type within a descriptor, e.g. different fields.
Definition RNTupleUtil.hxx:168

ROOT::Experimental::kInvalidDescriptorId
constexpr DescriptorId_t kInvalidDescriptorId
Definition RNTupleUtil.hxx:169

output
static void output()