de/d33/ASoA_8h_source.html

// Copyright 2019-2020 CERN and copyright holders of ALICE O2.

// See https://alice-o2.web.cern.ch/copyright for details of the copyright holders.

// All rights not expressly granted are reserved.

//

// This software is distributed under the terms of the GNU General Public

// License v3 (GPL Version 3), copied verbatim in the file "COPYING".

//

// In applying this license CERN does not waive the privileges and immunities

// granted to it by virtue of its status as an Intergovernmental Organization

// or submit itself to any jurisdiction.


#ifndef O2_FRAMEWORK_ASOA_H_

#define O2_FRAMEWORK_ASOA_H_


#include "Framework/Pack.h"                   // IWYU pragma: export

#include "Framework/FunctionalHelpers.h"      // IWYU pragma: export

#include "Headers/DataHeader.h"               // IWYU pragma: export

#include "Headers/DataHeaderHelpers.h"        // IWYU pragma: export

#include "Framework/CompilerBuiltins.h"       // IWYU pragma: export

#include "Framework/Traits.h"                 // IWYU pragma: export

#include "Framework/Expressions.h"            // IWYU pragma: export

#include "Framework/ArrowTypes.h"             // IWYU pragma: export

#include "Framework/ArrowTableSlicingCache.h" // IWYU pragma: export

#include "Framework/SliceCache.h"             // IWYU pragma: export

#include "Framework/VariantHelpers.h"         // IWYU pragma: export

#include <arrow/table.h>                      // IWYU pragma: export

#include <arrow/array.h>                      // IWYU pragma: export

#include <arrow/util/config.h>                // IWYU pragma: export

#include <gandiva/selection_vector.h>         // IWYU pragma: export

#include <array>                              // IWYU pragma: export

#include <cassert>

#include <fmt/format.h>

#include <concepts>

#include <cstring>

#include <gsl/span> // IWYU pragma: export

#include <limits>

#include <ranges>


namespace o2::framework

{

using ListVector = std::vector<std::vector<int64_t>>;


std::string cutString(std::string&& str);

std::string strToUpper(std::string&& str);

} // namespace o2::framework


namespace o2::soa

{

void accessingInvalidIndexFor(const char* getter);

void dereferenceWithWrongType(const char* getter, const char* target);

void missingFilterDeclaration(int hash, int ai);

void notBoundTable(const char* tableName);

} // namespace o2::soa


namespace o2::soa

{


struct TableRef {


  consteval TableRef()

    : label_hash{0},

      desc_hash{0},

      origin_hash{0},

      version{0}

  {

  }


  consteval TableRef(uint32_t _label, uint32_t _desc, uint32_t _origin, uint32_t _version)

    : label_hash{_label},

      desc_hash{_desc},

      origin_hash{_origin},

      version{_version}

  {

  }


  uint32_t label_hash;

  uint32_t desc_hash;

  uint32_t origin_hash;

  uint32_t version;


  constexpr bool operator==(TableRef const& other) const noexcept

  {

    return (this->label_hash == other.label_hash) &&

           (this->desc_hash == other.desc_hash) &&

           (this->origin_hash == other.origin_hash) &&

           (this->version == other.version);

  }


  constexpr bool descriptionCompatible(TableRef const& other) const noexcept

  {

    return this->desc_hash == other.desc_hash;

  }


  constexpr bool descriptionCompatible(uint32_t _desc_hash) const noexcept

  {

    return this->desc_hash == _desc_hash;

  }


  constexpr TableRef(TableRef const&) = default;

  constexpr TableRef& operator=(TableRef const&) = default;

  constexpr TableRef(TableRef&&) = default;

  constexpr TableRef& operator=(TableRef&&) = default;

};


template <size_t N1, size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2>


consteval auto merge()

{

  constexpr const int duplicates = std::ranges::count_if(ar2.begin(), ar2.end(), [&](TableRef const& a) { return std::any_of(ar1.begin(), ar1.end(), [&](TableRef const& e) { return e == a; }); });

  std::array<TableRef, N1 + N2 - duplicates> out;


  auto pos = std::copy(ar1.begin(), ar1.end(), out.begin());

  std::copy_if(ar2.begin(), ar2.end(), pos, [&](TableRef const& a) { return std::none_of(ar1.begin(), ar1.end(), [&](TableRef const& e) { return e == a; }); });

  return out;

}


template <size_t N1, size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2, typename L>


consteval auto merge_if(L l)

{

  constexpr const int to_remove = std::ranges::count_if(ar1.begin(), ar1.end(), [&](TableRef const& a) { return !l(a); });

  constexpr const int duplicates = std::ranges::count_if(ar2.begin(), ar2.end(), [&](TableRef const& a) { return std::any_of(ar1.begin(), ar1.end(), [&](TableRef const& e) { return e == a; }) || !l(a); });

  std::array<TableRef, N1 + N2 - duplicates - to_remove> out;


  auto pos = std::copy_if(ar1.begin(), ar1.end(), out.begin(), [&](TableRef const& a) { return l(a); });

  std::copy_if(ar2.begin(), ar2.end(), pos, [&](TableRef const& a) { return std::none_of(ar1.begin(), ar1.end(), [&](TableRef const& e) { return e == a; }) && l(a); });

  return out;

}


template <size_t N, std::array<TableRef, N> ar, typename L>


consteval auto remove_if(L l)

{

  constexpr const int to_remove = std::ranges::count_if(ar.begin(), ar.end(), [&l](TableRef const& e) { return l(e); });

  std::array<TableRef, N - to_remove> out;

  std::copy_if(ar.begin(), ar.end(), out.begin(), [&l](TableRef const& e) { return !l(e); });

  return out;

}


template <size_t N1, size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2>


consteval auto intersect()

{

  constexpr const int duplicates = std::ranges::count_if(ar2.begin(), ar2.end(), [&](TableRef const& a) { return std::any_of(ar1.begin(), ar1.end(), [&](TableRef const& e) { return e == a; }); });

  std::array<TableRef, duplicates> out;

  std::copy_if(ar1.begin(), ar1.end(), out.begin(), [](TableRef const& a) { return std::find(ar2.begin(), ar2.end(), a) != ar2.end(); });

  return out;

}


template <typename T, typename... Ts>


consteval auto mergeOriginals()

  requires(sizeof...(Ts) == 1)

{

  using T1 = framework::pack_head_t<framework::pack<Ts...>>;

  return merge<T::originals.size(), T1::originals.size(), T::originals, T1::originals>();

}


template <typename T, typename... Ts>


consteval auto mergeOriginals()

  requires(sizeof...(Ts) > 1)

{

  constexpr auto tail = mergeOriginals<Ts...>();

  return merge<T::originals.size(), tail.size(), T::originals, tail>();

}


template <typename T, typename... Ts>

  requires(sizeof...(Ts) == 1)


consteval auto intersectOriginals()

{

  using T1 = framework::pack_head_t<framework::pack<Ts...>>;

  return intersect<T::originals.size(), T1::originals.size(), T::originals, T1::originals>();

}


template <typename T, typename... Ts>

  requires(sizeof...(Ts) > 1)


consteval auto intersectOriginals()

{

  constexpr auto tail = intersectOriginals<Ts...>();

  return intersect<T::originals.size(), tail.size(), T::originals, tail>();

}


} // namespace o2::soa


namespace o2::soa

{

struct Binding;


template <typename T>

concept not_void = requires { !std::same_as<T, void>; };


template <typename C>

concept is_persistent_column = requires(C c) { c.mColumnIterator; };


template <typename C>

constexpr bool is_persistent_v = is_persistent_column<C>;


template <typename C>

using is_persistent_column_t = std::conditional_t<is_persistent_column<C>, std::true_type, std::false_type>;


template <typename C>

concept is_self_index_column = not_void<typename C::self_index_t> && std::same_as<typename C::self_index_t, std::true_type>;


template <typename C>


concept is_index_column = !is_self_index_column<C> && requires(C c, o2::soa::Binding b) {

  { c.setCurrentRaw(b) } -> std::same_as<bool>;

  requires std::same_as<decltype(c.mBinding), o2::soa::Binding>;

};


template <typename C>

using is_external_index_t = typename std::conditional_t<is_index_column<C>, std::true_type, std::false_type>;


template <typename C>

using is_self_index_t = typename std::conditional_t<is_self_index_column<C>, std::true_type, std::false_type>;

} // namespace o2::soa


namespace o2::aod

{

template <typename D, typename... Cs>


struct TableMetadata {

  using columns = framework::pack<Cs...>;

  using persistent_columns_t = framework::selected_pack<soa::is_persistent_column_t, Cs...>;

  using external_index_columns_t = framework::selected_pack<soa::is_external_index_t, Cs...>;

  using internal_index_columns_t = framework::selected_pack<soa::is_self_index_t, Cs...>;


  template <typename Key, typename... PCs>


  static consteval std::array<bool, sizeof...(PCs)> getMap(framework::pack<PCs...>)

  {

    return std::array<bool, sizeof...(PCs)>{[]() {

      if constexpr (requires { PCs::index_targets.size(); }) {

        return Key::template isIndexTargetOf<PCs::index_targets.size(), PCs::index_targets>();

      } else {

        return false;

      }

    }()...};

  }


  template <typename Key>


  static consteval int getIndexPosToKey()

  {

    return getIndexPosToKey_impl<Key, framework::pack_size(persistent_columns_t{}), getMap<Key>(persistent_columns_t{})>();

  }


  template <typename Key, size_t N, std::array<bool, N> map>


  static consteval int getIndexPosToKey_impl()

  {

    constexpr const auto pos = std::find(map.begin(), map.end(), true);

    if constexpr (pos != map.end()) {

      return std::distance(map.begin(), pos);

    } else {

      return -1;

    }

  }


};


template <typename D>


struct MetadataTrait {

  using metadata = void;

};


template <uint32_t H>


struct Hash {

  static constexpr uint32_t hash = H;

  static constexpr char const* const str{""};

};


template <size_t N, std::array<soa::TableRef, N> ar, typename Key>


consteval auto filterForKey()

{

  constexpr std::array<bool, N> test = []<size_t... Is>(std::index_sequence<Is...>) {

    return std::array<bool, N>{(Key::template hasOriginal<ar[Is]>() || (o2::aod::MetadataTrait<o2::aod::Hash<ar[Is].desc_hash>>::metadata::template getIndexPosToKey<Key>() >= 0))...};

  }(std::make_index_sequence<N>());

  constexpr int correct = std::ranges::count(test.begin(), test.end(), true);

  std::array<soa::TableRef, correct> out;

  std::ranges::copy_if(ar.begin(), ar.end(), out.begin(), [&test](soa::TableRef const& r) { return test[std::distance(ar.begin(), std::find(ar.begin(), ar.end(), r))]; });

  return out;

}


#define O2HASH(_Str_)                              \

  template <>                                      \

  struct Hash<_Str_ ""_h> {                        \

    static constexpr uint32_t hash = _Str_ ""_h;   \

    static constexpr char const* const str{_Str_}; \

  };


#define O2ORIGIN(_Str_)                                \

  template <>                                          \

  struct Hash<_Str_ ""_h> {                            \

    static constexpr header::DataOrigin origin{_Str_}; \

    static constexpr uint32_t hash = _Str_ ""_h;       \

    static constexpr char const* const str{_Str_};     \

  };


static inline constexpr uint32_t version(const char* const str)

{

  if (str[0] == '\0') {

    return 0;

  }

  size_t len = 0;

  uint32_t res = 0;

  while (str[len] != '/' && str[len] != '\0') {

    ++len;

  }

  if (str[len - 1] == '\0') {

    return -1;

  }

  for (auto i = len + 1; str[i] != '\0'; ++i) {

    res = res * 10 + (int)(str[i] - '0');

  }

  return res;

}


static inline constexpr std::string_view description_str(const char* const str)

{

  size_t len = 0;

  while (len < 15 && str[len] != '/') {

    ++len;

  }

  return std::string_view{str, len};

}


static inline constexpr header::DataDescription description(const char* const str)

{

  size_t len = 0;

  while (len < 15 && str[len] != '/') {

    ++len;

  }

  char out[16];

  for (auto i = 0; i < 16; ++i) {

    out[i] = 0;

  }

  std::memcpy(out, str, len);

  return {out};

}


// Helpers to get strings from TableRef

template <soa::TableRef R>


consteval const char* label()

{

  return o2::aod::Hash<R.label_hash>::str;

}


template <soa::TableRef R>


consteval const char* origin_str()

{

  return o2::aod::Hash<R.origin_hash>::str;

}


template <soa::TableRef R>


consteval header::DataOrigin origin()

{

  return o2::aod::Hash<R.origin_hash>::origin;

}


template <soa::TableRef R>


consteval const char* signature()

{

  return o2::aod::Hash<R.desc_hash>::str;

}


template <typename T>

concept is_aod_hash = requires(T t) { t.hash; t.str; };


template <typename T>

concept is_origin_hash = is_aod_hash<T> && requires(T t) { t.origin; };


template <soa::TableRef R>

static constexpr auto sourceSpec()

{

  return fmt::format("{}/{}/{}/{}", label<R>(), origin_str<R>(), description_str(signature<R>()), R.version);

}

} // namespace o2::aod


namespace o2::soa

{

template <aod::is_aod_hash L, aod::is_aod_hash D, aod::is_origin_hash O, typename... Ts>

class Table;


struct Binding {

  void const* ptr = nullptr;

  size_t hash = 0;

  std::span<TableRef const> refs;


  template <typename T>


  void bind(T const* table)

  {

    ptr = table;

    hash = o2::framework::TypeIdHelpers::uniqueId<T>();

    refs = std::span{T::originals};

  }


  template <typename T>


  T const* get() const

  {

    if (hash == o2::framework::TypeIdHelpers::uniqueId<T>()) {

      return static_cast<T const*>(ptr);

    }

    return nullptr;

  }


};


template <typename... C>


auto createFieldsFromColumns(framework::pack<C...>)

{

  return std::vector<std::shared_ptr<arrow::Field>>{C::asArrowField()...};

}


using SelectionVector = std::vector<int64_t>;


template <typename T>

concept has_parent_t = not_void<typename T::parent_t>;


template <typename T>

concept is_metadata = framework::base_of_template<aod::TableMetadata, T>;


template <typename T>

concept is_metadata_trait = framework::specialization_of_template<aod::MetadataTrait, T>;


template <typename T>

concept has_metadata = is_metadata_trait<T> && not_void<typename T::metadata>;


template <typename T>

concept has_extension = is_metadata<T> && not_void<typename T::extension_table_t>;


template <typename T>

concept has_configurable_extension = has_extension<T> && requires(T t) { typename T::configurable_t; requires std::same_as<std::true_type, typename T::configurable_t>; };


template <typename T>

concept is_spawnable_column = std::same_as<typename T::spawnable_t, std::true_type>;


template <typename B, typename E>


struct EquivalentIndex {

  constexpr static bool value = false;

};


template <aod::is_aod_hash A, aod::is_aod_hash B>


struct EquivalentIndexNG {

  constexpr static bool value = false;

};


template <typename B, typename E>

constexpr bool is_index_equivalent_v = EquivalentIndex<B, E>::value || EquivalentIndex<E, B>::value;


template <aod::is_aod_hash A, aod::is_aod_hash B>

constexpr bool is_ng_index_equivalent_v = EquivalentIndexNG<A, B>::value || EquivalentIndexNG<B, A>::value;


struct Chunked {

  constexpr static bool chunked = true;

};


struct Flat {

  constexpr static bool chunked = false;

};


template <typename T>


struct unwrap {

  using type = T;

};


template <typename T>


struct unwrap<std::vector<T>> {

  using type = T;

};


template <>


struct unwrap<bool> {

  using type = char;

};


template <typename T>

using unwrap_t = typename unwrap<T>::type;


template <typename T, typename ChunkingPolicy = Chunked>


class ColumnIterator : ChunkingPolicy

{

  static constexpr char SCALE_FACTOR = std::same_as<std::decay_t<T>, bool> ? 3 : 0;


 public:


  ColumnIterator(arrow::ChunkedArray const* column)

    : mColumn{column},

      mCurrent{nullptr},

      mCurrentPos{nullptr},

      mLast{nullptr},

      mFirstIndex{0},

      mCurrentChunk{0},

      mOffset{0}

  {

    auto array = getCurrentArray();

    mCurrent = reinterpret_cast<unwrap_t<T> const*>(array->values()->data()) + (mOffset >> SCALE_FACTOR);

    mLast = mCurrent + array->length();

  }


  ColumnIterator() = default;

  ColumnIterator(ColumnIterator<T, ChunkingPolicy> const&) = default;

  ColumnIterator<T, ChunkingPolicy>& operator=(ColumnIterator<T, ChunkingPolicy> const&) = default;


  ColumnIterator(ColumnIterator<T, ChunkingPolicy>&&) = default;

  ColumnIterator<T, ChunkingPolicy>& operator=(ColumnIterator<T, ChunkingPolicy>&&) = default;


  void nextChunk() const

  {

    auto previousArray = getCurrentArray();

    mFirstIndex += previousArray->length();


    mCurrentChunk++;

    auto array = getCurrentArray();

    mCurrent = reinterpret_cast<unwrap_t<T> const*>(array->values()->data()) + (mOffset >> SCALE_FACTOR) - (mFirstIndex >> SCALE_FACTOR);

    mLast = mCurrent + array->length() + (mFirstIndex >> SCALE_FACTOR);

  }


  void prevChunk() const

  {

    auto previousArray = getCurrentArray();

    mFirstIndex -= previousArray->length();


    mCurrentChunk--;

    auto array = getCurrentArray();

    mCurrent = reinterpret_cast<unwrap_t<T> const*>(array->values()->data()) + (mOffset >> SCALE_FACTOR) - (mFirstIndex >> SCALE_FACTOR);

    mLast = mCurrent + array->length() + (mFirstIndex >> SCALE_FACTOR);

  }


  void moveToChunk(int chunk)

  {

    if (mCurrentChunk < chunk) {

      while (mCurrentChunk != chunk) {

        nextChunk();

      }

    } else {

      while (mCurrentChunk != chunk) {

        prevChunk();

      }

    }

  }


  void moveToEnd()

  {

    mCurrentChunk = mColumn->num_chunks() - 1;

    auto array = getCurrentArray();

    mFirstIndex = mColumn->length() - array->length();

    mCurrent = reinterpret_cast<unwrap_t<T> const*>(array->values()->data()) + (mOffset >> SCALE_FACTOR) - (mFirstIndex >> SCALE_FACTOR);

    mLast = mCurrent + array->length() + (mFirstIndex >> SCALE_FACTOR);

  }


  decltype(auto) operator*() const

    requires std::same_as<bool, std::decay_t<T>>

  {

    checkSkipChunk();

    return (*(mCurrent - (mOffset >> SCALE_FACTOR) + ((*mCurrentPos + mOffset) >> SCALE_FACTOR)) & (1 << ((*mCurrentPos + mOffset) & 0x7))) != 0;

  }


  decltype(auto) operator*() const

    requires((!std::same_as<bool, std::decay_t<T>>) && std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    checkSkipChunk();

    auto list = std::static_pointer_cast<arrow::ListArray>(mColumn->chunk(mCurrentChunk));

    auto offset = list->value_offset(*mCurrentPos - mFirstIndex);

    auto length = list->value_length(*mCurrentPos - mFirstIndex);

    return gsl::span{mCurrent + mFirstIndex + offset, mCurrent + mFirstIndex + (offset + length)};

  }


  decltype(auto) operator*() const

    requires((!std::same_as<bool, std::decay_t<T>>) && !std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    checkSkipChunk();

    return *(mCurrent + (*mCurrentPos >> SCALE_FACTOR));

  }


  // Move to the chunk which containts element pos


  ColumnIterator<T>& moveToPos()

  {

    checkSkipChunk();

    return *this;

  }


  mutable unwrap_t<T> const* mCurrent;

  int64_t const* mCurrentPos;

  mutable unwrap_t<T> const* mLast;

  arrow::ChunkedArray const* mColumn;

  mutable int mFirstIndex;

  mutable int mCurrentChunk;

  mutable int mOffset;


 private:

  void checkSkipChunk() const

    requires((ChunkingPolicy::chunked == true) && std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    auto list = std::static_pointer_cast<arrow::ListArray>(mColumn->chunk(mCurrentChunk));

    if (O2_BUILTIN_UNLIKELY(*mCurrentPos - mFirstIndex >= list->length())) {

      nextChunk();

    }

  }


  void checkSkipChunk() const

    requires((ChunkingPolicy::chunked == true) && !std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    if (O2_BUILTIN_UNLIKELY(((mCurrent + (*mCurrentPos >> SCALE_FACTOR)) >= mLast))) {

      nextChunk();

    }

  }


  void checkSkipChunk() const

    requires(ChunkingPolicy::chunked == false)

  {

  }

  auto getCurrentArray() const

    requires(std::same_as<arrow_array_for_t<T>, arrow::FixedSizeListArray>)

  {

    std::shared_ptr<arrow::Array> chunkToUse = mColumn->chunk(mCurrentChunk);

    mOffset = chunkToUse->offset();

    chunkToUse = std::dynamic_pointer_cast<arrow::FixedSizeListArray>(chunkToUse)->values();

    return std::static_pointer_cast<arrow_array_for_t<value_for_t<T>>>(chunkToUse);

  }


  auto getCurrentArray() const

    requires(std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    std::shared_ptr<arrow::Array> chunkToUse = mColumn->chunk(mCurrentChunk);

    mOffset = chunkToUse->offset();

    chunkToUse = std::dynamic_pointer_cast<arrow::ListArray>(chunkToUse)->values();

    mOffset = chunkToUse->offset();

    return std::static_pointer_cast<arrow_array_for_t<value_for_t<T>>>(chunkToUse);

  }


  auto getCurrentArray() const

    requires(!std::same_as<arrow_array_for_t<T>, arrow::FixedSizeListArray> && !std::same_as<arrow_array_for_t<T>, arrow::ListArray>)

  {

    std::shared_ptr<arrow::Array> chunkToUse = mColumn->chunk(mCurrentChunk);

    mOffset = chunkToUse->offset();

    return std::static_pointer_cast<arrow_array_for_t<T>>(chunkToUse);

  }

};


template <typename T, typename INHERIT>


struct Column {

  using inherited_t = INHERIT;


  Column(ColumnIterator<T> const& it)

    : mColumnIterator{it}

  {

  }


  Column() = default;

  Column(Column const&) = default;

  Column& operator=(Column const&) = default;


  Column(Column&&) = default;

  Column& operator=(Column&&) = default;


  using type = T;

  static constexpr const char* const& columnLabel() { return INHERIT::mLabel; }


  ColumnIterator<T> const& getIterator() const

  {

    return mColumnIterator;

  }


  static auto asArrowField()

  {

    return std::make_shared<arrow::Field>(inherited_t::mLabel, framework::expressions::concreteArrowType(framework::expressions::selectArrowType<type>()));

  }


  ColumnIterator<T> mColumnIterator;

};


template <typename F, typename INHERIT>


struct DynamicColumn {

  using inherited_t = INHERIT;


  static constexpr const char* const& columnLabel() { return INHERIT::mLabel; }

};


template <typename INHERIT>


struct IndexColumn {

  using inherited_t = INHERIT;

  static constexpr const uint32_t hash = 0;


  static constexpr const char* const& columnLabel() { return INHERIT::mLabel; }

};


template <typename INHERIT>


struct MarkerColumn {

  using inherited_t = INHERIT;

  static constexpr const uint32_t hash = 0;


  static constexpr const char* const& columnLabel() { return INHERIT::mLabel; }

};


template <size_t M = 0>


struct Marker : o2::soa::MarkerColumn<Marker<M>> {

  using type = size_t;

  using base = o2::soa::MarkerColumn<Marker<M>>;

  constexpr inline static auto value = M;


  Marker() = default;

  Marker(Marker const&) = default;

  Marker(Marker&&) = default;


  Marker& operator=(Marker const&) = default;

  Marker& operator=(Marker&&) = default;


  Marker(arrow::ChunkedArray const*) {}


  constexpr inline auto mark()

  {

    return value;

  }


  static constexpr const char* mLabel = "Marker";

};


template <int64_t START = 0, int64_t END = -1>


struct Index : o2::soa::IndexColumn<Index<START, END>> {

  using base = o2::soa::IndexColumn<Index<START, END>>;

  constexpr inline static int64_t start = START;

  constexpr inline static int64_t end = END;


  Index() = default;

  Index(Index const&) = default;

  Index(Index&&) = default;


  Index& operator=(Index const&) = default;

  Index& operator=(Index&&) = default;


  Index(arrow::ChunkedArray const*)

  {

  }


  constexpr inline int64_t rangeStart()

  {

    return START;

  }


  constexpr inline int64_t rangeEnd()

  {

    return END;

  }


  [[nodiscard]] int64_t index() const

  {

    return index<0>();

  }


  [[nodiscard]] int64_t filteredIndex() const

  {

    return index<1>();

  }


  [[nodiscard]] int64_t globalIndex() const

  {

    return index<0>() + offsets<0>();

  }


  template <int N = 0>


  [[nodiscard]] int64_t index() const

  {

    return *std::get<N>(rowIndices);

  }


  template <int N = 0>


  [[nodiscard]] int64_t offsets() const

  {

    return *std::get<N>(rowOffsets);

  }


  void setIndices(std::tuple<int64_t const*, int64_t const*> indices)

  {

    rowIndices = indices;

  }


  void setOffsets(std::tuple<uint64_t const*> offsets)

  {

    rowOffsets = offsets;

  }


  static constexpr const char* mLabel = "Index";

  using type = int64_t;


  std::tuple<int64_t const*, int64_t const*> rowIndices;

  std::tuple<uint64_t const*> rowOffsets;

};


template <typename C>


concept is_indexing_column = requires(C& c) {

  c.rowIndices;

  c.rowOffsets;

};


template <typename C>


concept is_dynamic_column = requires(C& c) {

  c.boundIterators;

};


template <typename C>

concept is_marker_column = requires { &C::mark; };


template <typename T>

using is_dynamic_t = std::conditional_t<is_dynamic_column<T>, std::true_type, std::false_type>;


template <typename T>

concept is_column = is_persistent_column<T> || is_dynamic_column<T> || is_indexing_column<T> || is_marker_column<T>;


template <typename T>

using is_indexing_t = std::conditional_t<is_indexing_column<T>, std::true_type, std::false_type>;


struct IndexPolicyBase {

  int64_t mRowIndex = 0;

  uint64_t mOffset = 0;

};


struct RowViewSentinel {

  int64_t const index;

};


struct FilteredIndexPolicy : IndexPolicyBase {

  // We use -1 in the IndexPolicyBase to indicate that the index is

  // invalid. What will validate the index is the this->setCursor()

  // which happens below which will properly setup the first index

  // by remapping the filtered index 0 to whatever unfiltered index

  // it belongs to.


  FilteredIndexPolicy(gsl::span<int64_t const> selection, int64_t rows, uint64_t offset = 0)

    : IndexPolicyBase{-1, offset},

      mSelectedRows(selection),

      mMaxSelection(selection.size()),

      nRows{rows}

  {

    this->setCursor(0);

  }


  void resetSelection(gsl::span<int64_t const> selection)

  {

    mSelectedRows = selection;

    mMaxSelection = selection.size();

    this->setCursor(0);

  }


  FilteredIndexPolicy() = default;

  FilteredIndexPolicy(FilteredIndexPolicy&&) = default;

  FilteredIndexPolicy(FilteredIndexPolicy const&) = default;

  FilteredIndexPolicy& operator=(FilteredIndexPolicy const&) = default;

  FilteredIndexPolicy& operator=(FilteredIndexPolicy&&) = default;


  [[nodiscard]] std::tuple<int64_t const*, int64_t const*>


    getIndices() const

  {

    return std::make_tuple(&mRowIndex, &mSelectionRow);

  }


  [[nodiscard]] std::tuple<uint64_t const*>


    getOffsets() const

  {

    return std::make_tuple(&mOffset);

  }


  void limitRange(int64_t start, int64_t end)

  {

    this->setCursor(start);

    if (end >= 0) {

      mMaxSelection = std::min(end, mMaxSelection);

    }

  }


  void setCursor(int64_t i)

  {

    mSelectionRow = i;

    updateRow();

  }


  void moveByIndex(int64_t i)

  {

    mSelectionRow += i;

    updateRow();

  }


  friend bool operator==(FilteredIndexPolicy const& lh, FilteredIndexPolicy const& rh)

  {

    return lh.mSelectionRow == rh.mSelectionRow;

  }


  bool operator==(RowViewSentinel const& sentinel) const

  {

    return O2_BUILTIN_UNLIKELY(mSelectionRow == sentinel.index);

  }


  void moveToEnd()

  {

    this->mSelectionRow = this->mMaxSelection;

    this->mRowIndex = -1;

  }


  [[nodiscard]] auto getSelectionRow() const

  {

    return mSelectionRow;

  }


  [[nodiscard]] auto size() const

  {

    return mMaxSelection;

  }


  [[nodiscard]] auto raw_size() const

  {

    return nRows;

  }


 private:

  inline void updateRow()

  {

    this->mRowIndex = O2_BUILTIN_LIKELY(mSelectionRow < mMaxSelection) ? mSelectedRows[mSelectionRow] : -1;

  }

  gsl::span<int64_t const> mSelectedRows;

  int64_t mSelectionRow = 0;

  int64_t mMaxSelection = 0;

  int64_t nRows = 0;

};


struct DefaultIndexPolicy : IndexPolicyBase {

  DefaultIndexPolicy() = default;

  DefaultIndexPolicy(DefaultIndexPolicy&&) = default;

  DefaultIndexPolicy(DefaultIndexPolicy const&) = default;

  DefaultIndexPolicy& operator=(DefaultIndexPolicy const&) = default;

  DefaultIndexPolicy& operator=(DefaultIndexPolicy&&) = default;


  DefaultIndexPolicy(int64_t nRows, uint64_t offset)

    : IndexPolicyBase{0, offset},

      mMaxRow(nRows)

  {

  }


  DefaultIndexPolicy(FilteredIndexPolicy const& other)

    : IndexPolicyBase{0, other.mOffset},

      mMaxRow(other.raw_size())

  {

  }


  void limitRange(int64_t start, int64_t end)

  {

    this->setCursor(start);

    if (end >= 0) {

      mMaxRow = std::min(end, mMaxRow);

    }

  }


  [[nodiscard]] std::tuple<int64_t const*, int64_t const*>


    getIndices() const

  {

    return std::make_tuple(&mRowIndex, &mRowIndex);

  }


  [[nodiscard]] std::tuple<uint64_t const*>


    getOffsets() const

  {

    return std::make_tuple(&mOffset);

  }


  void setCursor(int64_t i)

  {

    this->mRowIndex = i;

  }


  void moveByIndex(int64_t i)

  {

    this->mRowIndex += i;

  }


  void moveToEnd()

  {

    this->setCursor(mMaxRow);

  }


  friend bool operator==(DefaultIndexPolicy const& lh, DefaultIndexPolicy const& rh)

  {

    return lh.mRowIndex == rh.mRowIndex;

  }


  bool operator==(RowViewSentinel const& sentinel) const

  {

    return O2_BUILTIN_UNLIKELY(this->mRowIndex == sentinel.index);

  }


  [[nodiscard]] auto size() const

  {

    return mMaxRow;

  }


  int64_t mMaxRow = 0;

};


// template <OriginEnc ORIGIN, typename... C>

// class Table;


template <aod::is_aod_hash L, aod::is_aod_hash D, aod::is_origin_hash O, typename... T>

class Table;


template <typename T>

concept is_table = framework::specialization_of_template<soa::Table, T> || framework::base_of_template<soa::Table, T>;


template <typename C>


struct ColumnDataHolder {

  C* first;

  arrow::ChunkedArray* second;

};


template <typename T, typename B>


concept can_bind = requires(T&& t) {

  { t.B::mColumnIterator };

};


template <typename... C>

concept has_index = (is_indexing_column<C> || ...);


template <typename D, typename O, typename IP, typename... C>


struct TableIterator : IP, C... {

 public:

  using self_t = TableIterator<D, O, IP, C...>;

  using policy_t = IP;

  using all_columns = framework::pack<C...>;

  using persistent_columns_t = framework::selected_pack<soa::is_persistent_column_t, C...>;

  using external_index_columns_t = framework::selected_pack<soa::is_external_index_t, C...>;

  using internal_index_columns_t = framework::selected_pack<soa::is_self_index_t, C...>;

  using bindings_pack_t = decltype([]<typename... Cs>(framework::pack<Cs...>) -> framework::pack<typename Cs::binding_t...> {}(external_index_columns_t{})); // decltype(extractBindings(external_index_columns_t{}));


  TableIterator(arrow::ChunkedArray* columnData[sizeof...(C)], IP&& policy)

    : IP{policy},

      C(columnData[framework::has_type_at_v<C>(all_columns{})])...

  {

    bind();

  }


  TableIterator(arrow::ChunkedArray* columnData[sizeof...(C)], IP&& policy)

    requires(has_index<C...>)

    : IP{policy},

      C(columnData[framework::has_type_at_v<C>(all_columns{})])...

  {

    bind();

    // In case we have an index column might need to constrain the actual

    // number of rows in the view to the range provided by the index.

    // FIXME: we should really understand what happens to an index when we

    // have a RowViewFiltered.

    this->limitRange(this->rangeStart(), this->rangeEnd());

  }


  TableIterator() = default;


  TableIterator(self_t const& other)

    : IP{static_cast<IP const&>(other)},

      C(static_cast<C const&>(other))...

  {

    bind();

  }


  TableIterator& operator=(TableIterator other)

  {

    IP::operator=(static_cast<IP const&>(other));

    (void(static_cast<C&>(*this) = static_cast<C>(other)), ...);

    bind();

    return *this;

  }


  TableIterator(TableIterator<D, O, FilteredIndexPolicy, C...> const& other)

    requires std::same_as<IP, DefaultIndexPolicy>

    : IP{static_cast<IP const&>(other)},

      C(static_cast<C const&>(other))...

  {

    bind();

  }


  TableIterator& operator++()

  {

    this->moveByIndex(1);

    return *this;

  }


  TableIterator operator++(int)

  {

    self_t copy = *this;

    this->operator++();

    return copy;

  }


  TableIterator& operator--()

  {

    this->moveByIndex(-1);

    return *this;

  }


  TableIterator operator--(int)

  {

    self_t copy = *this;

    this->operator--();

    return copy;

  }


  TableIterator operator+(int64_t inc) const

  {

    TableIterator copy = *this;

    copy.moveByIndex(inc);

    return copy;

  }


  TableIterator operator-(int64_t dec) const

  {

    return operator+(-dec);

  }


  TableIterator const& operator*() const

  {

    return *this;

  }


  template <typename... CL, typename TA>


  void doSetCurrentIndex(framework::pack<CL...>, TA* current)

  {

    (CL::setCurrent(current), ...);

  }


  template <typename CL>


  auto getCurrent() const

  {

    return CL::getCurrentRaw();

  }


  template <typename... Cs>


  auto getIndexBindingsImpl(framework::pack<Cs...>) const

  {

    return std::vector<o2::soa::Binding>{static_cast<Cs const&>(*this).getCurrentRaw()...};

  }


  auto getIndexBindings() const

  {

    return getIndexBindingsImpl(external_index_columns_t{});

  }


  template <typename... TA>


  void bindExternalIndices(TA*... current)

  {

    (doSetCurrentIndex(external_index_columns_t{}, current), ...);

  }


  template <typename... Cs>


  void doSetCurrentIndexRaw(framework::pack<Cs...> p, std::vector<o2::soa::Binding>&& ptrs)

  {

    (Cs::setCurrentRaw(ptrs[framework::has_type_at_v<Cs>(p)]), ...);

  }


  template <typename... Cs, typename I>


  void doSetCurrentInternal(framework::pack<Cs...>, I const* ptr)

  {

    o2::soa::Binding b;

    b.bind(ptr);

    (Cs::setCurrentRaw(b), ...);

  }


  void bindExternalIndicesRaw(std::vector<o2::soa::Binding>&& ptrs)

  {

    doSetCurrentIndexRaw(external_index_columns_t{}, std::forward<std::vector<o2::soa::Binding>>(ptrs));

  }


  template <typename I>


  void bindInternalIndices(I const* table)

  {

    doSetCurrentInternal(internal_index_columns_t{}, table);

  }


 private:

  template <typename... PC>

  void doMoveToEnd(framework::pack<PC...>)

  {

    (PC::mColumnIterator.moveToEnd(), ...);

  }


  void bind()

  {

    using namespace o2::soa;

    auto f = framework::overloaded{

      [this]<soa::is_persistent_column T>(T*) -> void { T::mColumnIterator.mCurrentPos = &this->mRowIndex; },

      [this]<soa::is_dynamic_column T>(T*) -> void { bindDynamicColumn<T>(typename T::bindings_t{}); },

      [this]<typename T>(T*) -> void {},

    };

    (f(static_cast<C*>(nullptr)), ...);

    if constexpr (has_index<C...>) {

      this->setIndices(this->getIndices());

      this->setOffsets(this->getOffsets());

    }

  }


  template <typename DC, typename... B>

  auto bindDynamicColumn(framework::pack<B...>)

  {

    DC::boundIterators = std::make_tuple(getDynamicBinding<B>()...);

  }


  // Sometimes dynamic columns are defined for tables in

  // the hope that it will be joined / extended with another one which provides

  // the full set of bindings. This is to avoid a compilation

  // error if constructor for the table or any other thing involving a missing

  // binding is preinstanciated.

  template <typename B>

    requires(can_bind<self_t, B>)

  decltype(auto) getDynamicBinding()

  {

    static_assert(std::same_as<decltype(&(static_cast<B*>(this)->mColumnIterator)), std::decay_t<decltype(B::mColumnIterator)>*>, "foo");

    return &(static_cast<B*>(this)->mColumnIterator);

    // return static_cast<std::decay_t<decltype(B::mColumnIterator)>*>(nullptr);

  }


  template <typename B>

  decltype(auto) getDynamicBinding()

  {

    return static_cast<std::decay_t<decltype(B::mColumnIterator)>*>(nullptr);

  }

};


struct ArrowHelpers {

  static std::shared_ptr<arrow::Table> joinTables(std::vector<std::shared_ptr<arrow::Table>>&& tables, std::span<const char* const> labels);

  static std::shared_ptr<arrow::Table> concatTables(std::vector<std::shared_ptr<arrow::Table>>&& tables);

};


template <typename T>

concept is_iterator = framework::base_of_template<TableIterator, T> || framework::specialization_of_template<TableIterator, T>;


template <typename T>


concept with_originals = requires {

  T::originals.size();

};


template <typename T>


concept with_sources = requires {

  T::sources.size();

};


template <typename T>

concept with_base_table = not_void<typename aod::MetadataTrait<o2::aod::Hash<T::ref.desc_hash>>::metadata::base_table_t>;


template <size_t N1, std::array<TableRef, N1> os1, size_t N2, std::array<TableRef, N2> os2>


consteval bool is_compatible()

{

  return []<size_t... Is>(std::index_sequence<Is...>) {

    return ([]<size_t... Ks>(std::index_sequence<Ks...>) {

      constexpr auto h = os1[Is].desc_hash;

      using H = o2::aod::Hash<h>;

      return (((h == os2[Ks].desc_hash) || is_ng_index_equivalent_v<H, o2::aod::Hash<os2[Ks].desc_hash>>) || ...);

    }(std::make_index_sequence<N2>()) ||

            ...);

  }(std::make_index_sequence<N1>());

}


template <with_originals T, with_originals B>


consteval bool is_binding_compatible_v()

{

  return is_compatible<T::originals.size(), T::originals, B::originals.size(), B::originals>();

}


template <typename T, typename B>

using is_binding_compatible = std::conditional_t<is_binding_compatible_v<T, typename B::binding_t>(), std::true_type, std::false_type>;


template <typename L, typename D, typename O, typename Key, typename H, typename... Ts>

struct IndexTable;


template <typename T>

concept is_index_table = framework::specialization_of_template<o2::soa::IndexTable, T>;


template <soa::is_table T>

static constexpr std::string getLabelForTable()

{

  return std::string{aod::label<std::decay_t<T>::originals[0]>()};

}


template <soa::is_table T>

  requires(!(soa::is_index_table<T> || soa::with_base_table<T>))

static constexpr std::string getLabelFromType()

{

  return getLabelForTable<T>();

}


template <soa::is_iterator T>

static constexpr std::string getLabelFromType()

{

  return getLabelForTable<typename std::decay_t<T>::parent_t>();

}


template <soa::is_index_table T>

static constexpr std::string getLabelFromType()

{

  return getLabelForTable<typename std::decay_t<T>::first_t>();

}

template <soa::with_base_table T>

static constexpr std::string getLabelFromType()

{

  return getLabelForTable<typename aod::MetadataTrait<o2::aod::Hash<T::ref.desc_hash>>::metadata::base_table_t>();

}


template <typename... C>

static constexpr auto hasColumnForKey(framework::pack<C...>, std::string const& key)

{

  return ((C::inherited_t::mLabel == key) || ...);

}


template <TableRef ref>

static constexpr std::pair<bool, std::string> hasKey(std::string const& key)

{

  return {hasColumnForKey(typename aod::MetadataTrait<o2::aod::Hash<ref.desc_hash>>::metadata::columns{}, key), aod::label<ref>()};

}


template <typename... C>

static constexpr auto haveKey(framework::pack<C...>, std::string const& key)

{

  return std::vector{hasKey<C>(key)...};

}


void notFoundColumn(const char* label, const char* key);

void missingOptionalPreslice(const char* label, const char* key);


template <with_originals T, bool OPT = false>

static constexpr std::string getLabelFromTypeForKey(std::string const& key)

{

  if constexpr (T::originals.size() == 1) {

    auto locate = hasKey<T::originals[0]>(key);

    if (locate.first) {

      return locate.second;

    }

  } else {

    auto locate = [&]<size_t... Is>(std::index_sequence<Is...>) {

      return std::vector{hasKey<T::originals[Is]>(key)...};

    }(std::make_index_sequence<T::originals.size()>{});

    auto it = std::find_if(locate.begin(), locate.end(), [](auto const& x) { return x.first; });

    if (it != locate.end()) {

      return it->second;

    }

  }

  if constexpr (!OPT) {

    notFoundColumn(getLabelFromType<std::decay_t<T>>().data(), key.data());

  } else {

    return "[MISSING]";

  }

  O2_BUILTIN_UNREACHABLE();

}


template <typename B, typename... C>

consteval static bool hasIndexTo(framework::pack<C...>&&)

{

  return (o2::soa::is_binding_compatible_v<B, typename C::binding_t>() || ...);

}


template <typename B, typename... C>

consteval static bool hasSortedIndexTo(framework::pack<C...>&&)

{

  return ((C::sorted && o2::soa::is_binding_compatible_v<B, typename C::binding_t>()) || ...);

}


template <typename B, typename Z>

consteval static bool relatedByIndex()

{

  return hasIndexTo<B>(typename Z::table_t::external_index_columns_t{});

}


template <typename B, typename Z>

consteval static bool relatedBySortedIndex()

{

  return hasSortedIndexTo<B>(typename Z::table_t::external_index_columns_t{});

}

} // namespace o2::soa


namespace o2::framework

{


struct PreslicePolicyBase {

  const std::string binding;

  Entry bindingKey;


  bool isMissing() const;

  Entry const& getBindingKey() const;

};


struct PreslicePolicySorted : public PreslicePolicyBase {

  void updateSliceInfo(SliceInfoPtr&& si);


  SliceInfoPtr sliceInfo;

  std::shared_ptr<arrow::Table> getSliceFor(int value, std::shared_ptr<arrow::Table> const& input, uint64_t& offset) const;

};


struct PreslicePolicyGeneral : public PreslicePolicyBase {

  void updateSliceInfo(SliceInfoUnsortedPtr&& si);


  SliceInfoUnsortedPtr sliceInfo;

  gsl::span<const int64_t> getSliceFor(int value) const;

};


template <typename T, typename Policy, bool OPT = false>


struct PresliceBase : public Policy {

  constexpr static bool optional = OPT;

  using target_t = T;

  using policy_t = Policy;

  const std::string binding;


  PresliceBase(expressions::BindingNode index_)

    : Policy{PreslicePolicyBase{{o2::soa::getLabelFromTypeForKey<T, OPT>(std::string{index_.name})}, Entry(o2::soa::getLabelFromTypeForKey<T, OPT>(std::string{index_.name}), std::string{index_.name})}, {}}

  {

  }


  std::shared_ptr<arrow::Table> getSliceFor(int value, std::shared_ptr<arrow::Table> const& input, uint64_t& offset) const

  {

    if constexpr (OPT) {

      if (Policy::isMissing()) {

        return nullptr;

      }

    }

    return Policy::getSliceFor(value, input, offset);

  }


  gsl::span<const int64_t> getSliceFor(int value) const

  {

    if constexpr (OPT) {

      if (Policy::isMissing()) {

        return {};

      }

    }

    return Policy::getSliceFor(value);

  }


};


template <typename T>

using PresliceUnsorted = PresliceBase<T, PreslicePolicyGeneral, false>;

template <typename T>

using PresliceUnsortedOptional = PresliceBase<T, PreslicePolicyGeneral, true>;

template <typename T>

using Preslice = PresliceBase<T, PreslicePolicySorted, false>;

template <typename T>

using PresliceOptional = PresliceBase<T, PreslicePolicySorted, true>;


template <typename T>

concept is_preslice = std::derived_from<T, PreslicePolicyBase>;


} // namespace o2::framework


namespace o2::soa

{

template <soa::is_table T>

class FilteredBase;

template <typename T>

class Filtered;


template <typename T>

concept has_filtered_policy = not_void<typename T::policy_t> && std::same_as<typename T::policy_t, soa::FilteredIndexPolicy>;


template <typename T>

concept is_filtered_iterator = is_iterator<T> && has_filtered_policy<T>;


template <typename T>

concept is_filtered_table = framework::base_of_template<soa::FilteredBase, T>;


// FIXME: compatbility declaration to be removed

template <typename T>

constexpr bool is_soa_filtered_v = is_filtered_table<T>;


template <typename T>

concept is_filtered = is_filtered_table<T> || is_filtered_iterator<T>;


template <typename T>

concept is_not_filtered_table = is_table<T> && !is_filtered_table<T>;


template <typename... Is>

static consteval auto extractBindings(framework::pack<Is...>)

{

  return framework::pack<typename Is::binding_t...>{};

}


SelectionVector selectionToVector(gandiva::Selection const& sel);


template <typename T, typename C, typename Policy, bool OPT>

  requires std::same_as<Policy, framework::PreslicePolicySorted> && (o2::soa::is_binding_compatible_v<C, T>())


auto doSliceBy(T const* table, o2::framework::PresliceBase<C, Policy, OPT> const& container, int value)

{

  if constexpr (OPT) {

    if (container.isMissing()) {

      missingOptionalPreslice(getLabelFromType<std::decay_t<T>>().data(), container.bindingKey.key.c_str());

    }

  }

  uint64_t offset = 0;

  auto out = container.getSliceFor(value, table->asArrowTable(), offset);

  auto t = typename T::self_t({out}, offset);

  table->copyIndexBindings(t);

  t.bindInternalIndicesTo(table);

  return t;

}


template <soa::is_filtered_table T>


auto doSliceByHelper(T const* table, gsl::span<const int64_t> const& selection)

{

  auto t = soa::Filtered<typename T::base_t>({table->asArrowTable()}, selection);

  table->copyIndexBindings(t);

  t.bindInternalIndicesTo(table);

  t.intersectWithSelection(table->getSelectedRows()); // intersect filters

  return t;

}


template <soa::is_table T>

  requires(!soa::is_filtered_table<T>)


auto doSliceByHelper(T const* table, gsl::span<const int64_t> const& selection)

{

  auto t = soa::Filtered<T>({table->asArrowTable()}, selection);

  table->copyIndexBindings(t);

  t.bindInternalIndicesTo(table);

  return t;

}


template <typename T, typename C, typename Policy, bool OPT>

  requires std::same_as<Policy, framework::PreslicePolicyGeneral> && (o2::soa::is_binding_compatible_v<C, T>())


auto doSliceBy(T const* table, o2::framework::PresliceBase<C, Policy, OPT> const& container, int value)

{

  if constexpr (OPT) {

    if (container.isMissing()) {

      missingOptionalPreslice(getLabelFromType<std::decay_t<T>>().data(), container.bindingKey.key.c_str());

    }

  }

  auto selection = container.getSliceFor(value);

  return doSliceByHelper(table, selection);

}


SelectionVector sliceSelection(gsl::span<int64_t const> const& mSelectedRows, int64_t nrows, uint64_t offset);


template <soa::is_filtered_table T>


auto prepareFilteredSlice(T const* table, std::shared_ptr<arrow::Table> slice, uint64_t offset)

{

  if (offset >= static_cast<uint64_t>(table->tableSize())) {

    Filtered<typename T::base_t> fresult{{{slice}}, SelectionVector{}, 0};

    table->copyIndexBindings(fresult);

    return fresult;

  }

  auto slicedSelection = sliceSelection(table->getSelectedRows(), slice->num_rows(), offset);

  Filtered<typename T::base_t> fresult{{{slice}}, std::move(slicedSelection), offset};

  table->copyIndexBindings(fresult);

  return fresult;

}


template <soa::is_filtered_table T, typename C, bool OPT>

  requires(o2::soa::is_binding_compatible_v<C, T>())


auto doFilteredSliceBy(T const* table, o2::framework::PresliceBase<C, framework::PreslicePolicySorted, OPT> const& container, int value)

{

  if constexpr (OPT) {

    if (container.isMissing()) {

      missingOptionalPreslice(getLabelFromType<T>().data(), container.bindingKey.key.c_str());

    }

  }

  uint64_t offset = 0;

  auto slice = container.getSliceFor(value, table->asArrowTable(), offset);

  return prepareFilteredSlice(table, slice, offset);

}


template <typename T>


auto doSliceByCached(T const* table, framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache)

{

  auto localCache = cache.ptr->getCacheFor({o2::soa::getLabelFromTypeForKey<T>(node.name), node.name});

  auto [offset, count] = localCache.getSliceFor(value);

  auto t = typename T::self_t({table->asArrowTable()->Slice(static_cast<uint64_t>(offset), count)}, static_cast<uint64_t>(offset));

  table->copyIndexBindings(t);

  return t;

}


template <typename T>


auto doFilteredSliceByCached(T const* table, framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache)

{

  auto localCache = cache.ptr->getCacheFor({o2::soa::getLabelFromTypeForKey<T>(node.name), node.name});

  auto [offset, count] = localCache.getSliceFor(value);

  auto slice = table->asArrowTable()->Slice(static_cast<uint64_t>(offset), count);

  return prepareFilteredSlice(table, slice, offset);

}


template <typename T>


auto doSliceByCachedUnsorted(T const* table, framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache)

{

  auto localCache = cache.ptr->getCacheUnsortedFor({o2::soa::getLabelFromTypeForKey<T>(node.name), node.name});

  if constexpr (soa::is_filtered_table<T>) {

    auto t = typename T::self_t({table->asArrowTable()}, localCache.getSliceFor(value));

    t.intersectWithSelection(table->getSelectedRows());

    table->copyIndexBindings(t);

    return t;

  } else {

    auto t = Filtered<T>({table->asArrowTable()}, localCache.getSliceFor(value));

    table->copyIndexBindings(t);

    return t;

  }

}


template <with_originals T>


auto select(T const& t, framework::expressions::Filter const& f)

{

  return Filtered<T>({t.asArrowTable()}, selectionToVector(framework::expressions::createSelection(t.asArrowTable(), f)));

}


arrow::ChunkedArray* getIndexFromLabel(arrow::Table* table, std::string_view label);


template <typename D, typename O, typename IP, typename... C>


consteval auto base_iter(framework::pack<C...>&&) -> TableIterator<D, O, IP, C...>

{

}


template <TableRef ref, typename... Ts>

  requires((sizeof...(Ts) > 0) && (soa::is_column<Ts> && ...))


consteval auto getColumns()

{

  return framework::pack<Ts...>{};

}


template <TableRef ref, typename... Ts>

  requires((sizeof...(Ts) > 0) && !(soa::is_column<Ts> || ...) && (ref.origin_hash == "CONC"_h))


consteval auto getColumns()

{

  return framework::full_intersected_pack_t<typename Ts::columns_t...>{};

}


template <TableRef ref, typename... Ts>

  requires((sizeof...(Ts) > 0) && !(soa::is_column<Ts> || ...) && (ref.origin_hash != "CONC"_h))


consteval auto getColumns()

{

  return framework::concatenated_pack_unique_t<typename Ts::columns_t...>{};

}


template <TableRef ref, typename... Ts>

  requires(sizeof...(Ts) == 0 && soa::has_metadata<aod::MetadataTrait<o2::aod::Hash<ref.desc_hash>>>)


consteval auto getColumns()

{

  return typename aod::MetadataTrait<o2::aod::Hash<ref.desc_hash>>::metadata::columns{};

}


template <TableRef ref, typename... Ts>

  requires((sizeof...(Ts) == 0) || (o2::soa::is_column<Ts> && ...))


consteval auto computeOriginals()

{

  return std::array<TableRef, 1>{ref};

}


template <TableRef ref, typename... Ts>

  requires((sizeof...(Ts) > 0) && (!o2::soa::is_column<Ts> || ...))


consteval auto computeOriginals()

{

  return o2::soa::mergeOriginals<Ts...>();

}


template <aod::is_aod_hash L, aod::is_aod_hash D, aod::is_origin_hash O, typename... Ts>


class Table

{

 public:

  static constexpr const auto ref = TableRef{L::hash, D::hash, O::hash, o2::aod::version(D::str)};

  using self_t = Table<L, D, O, Ts...>;

  using table_t = self_t;


  static constexpr const auto originals = computeOriginals<ref, Ts...>();

  static constexpr const auto originalLabels = []<size_t N, std::array<TableRef, N> refs, size_t... Is>(std::index_sequence<Is...>) { return std::array<const char*, N>{o2::aod::label<refs[Is]>()...}; }.template operator()<originals.size(), originals>(std::make_index_sequence<originals.size()>());


  template <size_t N, std::array<TableRef, N> bindings>

    requires(ref.origin_hash == "CONC"_h)


  static consteval auto isIndexTargetOf()

  {

    return false;

  }


  template <size_t N, std::array<TableRef, N> bindings>

    requires(ref.origin_hash == "JOIN"_h)


  static consteval auto isIndexTargetOf()

  {

    return std::find_if(self_t::originals.begin(), self_t::originals.end(),

                        [](TableRef const& r) {

                          return std::find(bindings.begin(), bindings.end(), r) != bindings.end();

                        }) != self_t::originals.end();

  }


  template <size_t N, std::array<TableRef, N> bindings>

    requires(!(ref.origin_hash == "CONC"_h || ref.origin_hash == "JOIN"_h))


  static consteval auto isIndexTargetOf()

  {

    return std::find(bindings.begin(), bindings.end(), self_t::ref) != bindings.end();

  }


  template <TableRef r>


  static consteval bool hasOriginal()

  {

    return std::find_if(originals.begin(), originals.end(), [](TableRef const& o) { return o.desc_hash == r.desc_hash; }) != originals.end();

  }


  using columns_t = decltype(getColumns<ref, Ts...>());


  using persistent_columns_t = decltype([]<typename... C>(framework::pack<C...>&&) -> framework::selected_pack<soa::is_persistent_column_t, C...> {}(columns_t{}));

  using column_types = decltype([]<typename... C>(framework::pack<C...>) -> framework::pack<typename C::type...> {}(persistent_columns_t{}));


  using external_index_columns_t = decltype([]<typename... C>(framework::pack<C...>&&) -> framework::selected_pack<soa::is_external_index_t, C...> {}(columns_t{}));

  using internal_index_columns_t = decltype([]<typename... C>(framework::pack<C...>&&) -> framework::selected_pack<soa::is_self_index_t, C...> {}(columns_t{}));

  template <typename IP>

  using base_iterator = decltype(base_iter<D, O, IP>(columns_t{}));


  template <typename IP, typename Parent, typename... T>


  struct TableIteratorBase : base_iterator<IP> {

    using columns_t = typename Parent::columns_t;

    using external_index_columns_t = typename Parent::external_index_columns_t;

    using bindings_pack_t = decltype([]<typename... C>(framework::pack<C...>) -> framework::pack<typename C::binding_t...> {}(external_index_columns_t{}));

    // static constexpr const std::array<TableRef, sizeof...(T)> originals{T::ref...};

    static constexpr auto originals = Parent::originals;

    using policy_t = IP;

    using parent_t = Parent;


    TableIteratorBase() = default;


    TableIteratorBase(arrow::ChunkedArray* columnData[framework::pack_size(columns_t{})], IP&& policy)

      : base_iterator<IP>(columnData, std::forward<decltype(policy)>(policy))

    {

    }


    template <typename P, typename... Os>


    TableIteratorBase& operator=(TableIteratorBase<IP, P, Os...> other)

      requires(P::ref.desc_hash == Parent::ref.desc_hash)

    {

      static_cast<base_iterator<IP>&>(*this) = static_cast<base_iterator<IP>>(other);

      return *this;

    }


    template <typename P>


    TableIteratorBase& operator=(TableIteratorBase<IP, P, T...> other)

    {

      static_cast<base_iterator<IP>&>(*this) = static_cast<base_iterator<IP>>(other);

      return *this;

    }


    template <typename P>


    TableIteratorBase& operator=(TableIteratorBase<FilteredIndexPolicy, P, T...> other)

      requires std::same_as<IP, DefaultIndexPolicy>

    {

      static_cast<base_iterator<IP>&>(*this) = static_cast<base_iterator<FilteredIndexPolicy>>(other);

      return *this;

    }


    template <typename P, typename O1, typename... Os>


    TableIteratorBase(TableIteratorBase<IP, P, O1, Os...> const& other)

      requires(P::ref.desc_hash == Parent::ref.desc_hash)

    {

      *this = other;

    }


    template <typename P, typename O1, typename... Os>


    TableIteratorBase(TableIteratorBase<IP, P, O1, Os...>&& other) noexcept

      requires(P::ref.desc_hash == Parent::ref.desc_hash)

    {

      *this = other;

    }


    template <typename P>


    TableIteratorBase(TableIteratorBase<IP, P, T...> const& other)

    {

      *this = other;

    }


    template <typename P>


    TableIteratorBase(TableIteratorBase<IP, P, T...>&& other) noexcept

    {

      *this = other;

    }


    template <typename P>


    TableIteratorBase(TableIteratorBase<FilteredIndexPolicy, P, T...> other)

      requires std::same_as<IP, DefaultIndexPolicy>

    {

      *this = other;

    }


    TableIteratorBase& operator=(RowViewSentinel const& other)

    {

      this->mRowIndex = other.index;

      return *this;

    }


    template <typename P>


    void matchTo(TableIteratorBase<IP, P, T...> const& other)

    {

      this->mRowIndex = other.mRowIndex;

    }


    template <typename P, typename... Os>


    void matchTo(TableIteratorBase<IP, P, Os...> const& other)

      requires std::same_as<typename P::table_t, typename Parent::table_t>

    {

      this->mRowIndex = other.mRowIndex;

    }


    template <typename TI>


    auto getId() const

    {

      using decayed = std::decay_t<TI>;

      if constexpr (framework::has_type<decayed>(bindings_pack_t{})) { // index to another table

        constexpr auto idx = framework::has_type_at_v<decayed>(bindings_pack_t{});

        return framework::pack_element_t<idx, external_index_columns_t>::getId();

      } else if constexpr (std::same_as<decayed, Parent>) { // self index

        return this->globalIndex();

      } else if constexpr (is_indexing_column<decayed>) { // soa::Index<>

        return this->globalIndex();

      } else {

        return static_cast<int32_t>(-1);

      }

    }


    template <typename CD, typename... CDArgs>


    auto getDynamicColumn() const

    {

      using decayed = std::decay_t<CD>;

      static_assert(is_dynamic_t<decayed>(), "Requested column is not a dynamic column");

      return static_cast<decayed>(*this).template getDynamicValue<CDArgs...>();

    }


    template <typename B, typename CC>


    auto getValue() const

    {

      using COL = std::decay_t<CC>;

      static_assert(is_dynamic_t<COL>() || soa::is_persistent_column<COL>, "Should be persistent or dynamic column with no argument that has a return type convertable to float");

      return static_cast<B>(static_cast<COL>(*this).get());

    }


    template <typename B, typename... CCs>


    std::array<B, sizeof...(CCs)> getValues() const

    {

      static_assert(std::same_as<B, float> || std::same_as<B, double>, "The common return type should be float or double");

      return {getValue<B, CCs>()...};

    }


    using IP::size;


    using base_iterator<IP>::operator++;


    TableIteratorBase operator+(int64_t inc) const

    {

      TableIteratorBase copy = *this;

      copy.moveByIndex(inc);

      return copy;

    }


    TableIteratorBase operator-(int64_t dec) const

    {

      return operator+(-dec);

    }


    TableIteratorBase const& operator*() const

    {

      return *this;

    }


  };


  template <typename IP, typename Parent, typename... T>

  using iterator_template = TableIteratorBase<IP, Parent, T...>;


  template <typename IP, typename Parent>


  static consteval auto full_iter()

  {

    if constexpr (sizeof...(Ts) == 0) {

      return iterator_template<IP, Parent>{};

    } else {

      if constexpr ((o2::soa::is_column<Ts> && ...)) {

        return iterator_template<IP, Parent>{};

      } else {

        return iterator_template<IP, Parent, Ts...>{};

      }

    }

  }


  template <typename IP, typename Parent>

  using iterator_template_o = decltype(full_iter<IP, Parent>());


  using iterator = iterator_template_o<DefaultIndexPolicy, table_t>;

  using filtered_iterator = iterator_template_o<FilteredIndexPolicy, table_t>;


  using unfiltered_iterator = iterator;

  using const_iterator = iterator;

  using unfiltered_const_iterator = unfiltered_iterator;


  static constexpr auto hashes()

  {

    return []<typename... C>(framework::pack<C...>) { return std::set{{C::hash...}}; }(columns_t{});

  }


  Table(std::shared_ptr<arrow::Table> table, uint64_t offset = 0)

    : mTable(table),

      mEnd{table->num_rows()},

      mOffset(offset)

  {

    if (mTable->num_rows() == 0) {

      for (size_t ci = 0; ci < framework::pack_size(columns_t{}); ++ci) {

        mColumnChunks[ci] = nullptr;

      }

      mBegin = mEnd;

    } else {

      auto lookups = [this]<typename... C>(framework::pack<C...>) -> std::array<arrow::ChunkedArray*, framework::pack_size(columns_t{})> { return {lookupColumn<C>()...}; }(columns_t{});

      for (size_t ci = 0; ci < framework::pack_size(columns_t{}); ++ci) {

        mColumnChunks[ci] = lookups[ci];

      }

      mBegin = unfiltered_iterator{mColumnChunks, {table->num_rows(), offset}};

      mBegin.bindInternalIndices(this);

    }

  }


  Table(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t offset = 0)

    requires(ref.origin_hash != "CONC"_h)

    : Table(ArrowHelpers::joinTables(std::move(tables), std::span{originalLabels}), offset)

  {

  }


  Table(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t offset = 0)

    requires(ref.origin_hash == "CONC"_h)

    : Table(ArrowHelpers::concatTables(std::move(tables)), offset)

  {

  }


  template <typename Key>


  inline arrow::ChunkedArray* getIndexToKey()

  {

    constexpr auto map = []<typename... Cs>(framework::pack<Cs...>) {

      return std::array<bool, sizeof...(Cs)>{[]() {

        if constexpr (requires { Cs::index_targets.size(); }) {

          return Key::template isIndexTargetOf<Cs::index_targets.size(), Cs::index_targets>();

        } else {

          return false;

        }

      }()...};

    }(persistent_columns_t{});

    constexpr auto pos = std::find(map.begin(), map.end(), true);

    if constexpr (pos != map.end()) {

      return mColumnChunks[std::distance(map.begin(), pos)];

    } else {

      static_assert(framework::always_static_assert_v<Key>, "This table does not have an index to given Key");

    }

  }


  auto& cached_begin()

  {

    return mBegin;

  }


  auto const& cached_begin() const

  {

    return mBegin;

  }


  unfiltered_iterator begin()

  {

    return unfiltered_iterator(mBegin);

  }


  RowViewSentinel end()

  {

    return RowViewSentinel{mEnd};

  }


  filtered_iterator filtered_begin(gsl::span<int64_t const> selection)

  {

    // Note that the FilteredIndexPolicy will never outlive the selection which

    // is held by the table, so we are safe passing the bare pointer. If it does it

    // means that the iterator on a table is outliving the table itself, which is

    // a bad idea.

    return filtered_iterator(mColumnChunks, {selection, mTable->num_rows(), mOffset});

  }


  iterator iteratorAt(uint64_t i) const

  {

    return rawIteratorAt(i);

  }


  unfiltered_iterator rawIteratorAt(uint64_t i) const

  {

    auto it = mBegin;

    it.setCursor(i);

    return it;

  }


  unfiltered_const_iterator begin() const

  {

    return unfiltered_const_iterator(mBegin);

  }


  [[nodiscard]] RowViewSentinel end() const

  {

    return RowViewSentinel{mEnd};

  }


  [[nodiscard]] std::shared_ptr<arrow::Table> asArrowTable() const

  {

    return mTable;

  }


  auto offset() const

  {

    return mOffset;

  }


  [[nodiscard]] int64_t size() const

  {

    return mTable->num_rows();

  }


  [[nodiscard]] int64_t tableSize() const

  {

    return size();

  }


  template <typename... TA>


  void bindExternalIndices(TA*... current)

  {

    mBegin.bindExternalIndices(current...);

  }


  template <typename I>


  void bindInternalIndicesTo(I const* ptr)

  {

    mBegin.bindInternalIndices(ptr);

  }


  void bindInternalIndicesExplicit(o2::soa::Binding binding)

  {

    doBindInternalIndicesExplicit(internal_index_columns_t{}, binding);

  }


  template <typename... Cs>


  void doBindInternalIndicesExplicit(framework::pack<Cs...>, o2::soa::Binding binding)

  {

    (static_cast<Cs>(mBegin).setCurrentRaw(binding), ...);

  }


  void bindExternalIndicesRaw(std::vector<o2::soa::Binding>&& ptrs)

  {

    mBegin.bindExternalIndicesRaw(std::forward<std::vector<o2::soa::Binding>>(ptrs));

  }


  template <typename T, typename... Cs>


  void doCopyIndexBindings(framework::pack<Cs...>, T& dest) const

  {

    dest.bindExternalIndicesRaw(mBegin.getIndexBindings());

  }


  template <typename T>


  void copyIndexBindings(T& dest) const

  {

    doCopyIndexBindings(external_index_columns_t{}, dest);

  }


  auto select(framework::expressions::Filter const& f) const

  {

    auto t = o2::soa::select(*this, f);

    copyIndexBindings(t);

    return t;

  }


  auto sliceByCached(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCached(this, node, value, cache);

  }


  auto sliceByCachedUnsorted(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCachedUnsorted(this, node, value, cache);

  }


  template <typename T1, typename Policy, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, Policy, OPT> const& container, int value) const

  {

    return doSliceBy(this, container, value);

  }


  auto rawSlice(uint64_t start, uint64_t end) const

  {

    return self_t{mTable->Slice(start, end - start + 1), start};

  }


  auto emptySlice() const

  {

    return self_t{mTable->Slice(0, 0), 0};

  }


 private:

  template <typename T>

  arrow::ChunkedArray* lookupColumn()

  {

    if constexpr (soa::is_persistent_column<T>) {

      auto label = T::columnLabel();

      return getIndexFromLabel(mTable.get(), label);

    } else {

      return nullptr;

    }

  }

  std::shared_ptr<arrow::Table> mTable = nullptr;

  uint64_t mOffset = 0;

  // Cached pointers to the ChunkedArray associated to a column

  arrow::ChunkedArray* mColumnChunks[framework::pack_size(columns_t{})];

  RowViewSentinel mEnd;

  iterator mBegin;

};


template <uint32_t D, soa::is_column... C>

using InPlaceTable = Table<o2::aod::Hash<"TEST"_h>, o2::aod::Hash<D>, o2::aod::Hash<"TEST"_h>, C...>;


void getterNotFound(const char* targetColumnLabel);

void emptyColumnLabel();


namespace row_helpers

{

template <soa::is_persistent_column... Cs>


std::array<arrow::ChunkedArray*, sizeof...(Cs)> getArrowColumns(arrow::Table* table, framework::pack<Cs...>)

{

  return std::array<arrow::ChunkedArray*, sizeof...(Cs)>{o2::soa::getIndexFromLabel(table, Cs::columnLabel())...};

}


template <soa::is_persistent_column... Cs>


std::array<std::shared_ptr<arrow::Array>, sizeof...(Cs)> getChunks(arrow::Table* table, framework::pack<Cs...>, uint64_t ci)

{

  return std::array<std::shared_ptr<arrow::Array>, sizeof...(Cs)>{o2::soa::getIndexFromLabel(table, Cs::columnLabel())->chunk(ci)...};

}


template <typename T, soa::is_persistent_column C>


typename C::type getSingleRowData(arrow::Table* table, T& rowIterator, uint64_t ci = std::numeric_limits<uint64_t>::max(), uint64_t ai = std::numeric_limits<uint64_t>::max(), uint64_t globalIndex = std::numeric_limits<uint64_t>::max())

{

  if (ci == std::numeric_limits<uint64_t>::max() || ai == std::numeric_limits<uint64_t>::max()) {

    auto colIterator = static_cast<C>(rowIterator).getIterator();

    ci = colIterator.mCurrentChunk;

    ai = *(colIterator.mCurrentPos) - colIterator.mFirstIndex;

  }

  return std::static_pointer_cast<o2::soa::arrow_array_for_t<typename C::type>>(o2::soa::getIndexFromLabel(table, C::columnLabel())->chunk(ci))->raw_values()[ai];

}


template <typename T, soa::is_dynamic_column C>

typename C::type getSingleRowData(arrow::Table*, T& rowIterator, uint64_t ci = std::numeric_limits<uint64_t>::max(), uint64_t ai = std::numeric_limits<uint64_t>::max(), uint64_t globalIndex = std::numeric_limits<uint64_t>::max())

{

  if (globalIndex != std::numeric_limits<uint64_t>::max() && globalIndex != *std::get<0>(rowIterator.getIndices())) {

    rowIterator.setCursor(globalIndex);

  }

  return rowIterator.template getDynamicColumn<C>();

}


template <typename T, soa::is_index_column C>

typename C::type getSingleRowData(arrow::Table*, T& rowIterator, uint64_t ci = std::numeric_limits<uint64_t>::max(), uint64_t ai = std::numeric_limits<uint64_t>::max(), uint64_t globalIndex = std::numeric_limits<uint64_t>::max())

{

  if (globalIndex != std::numeric_limits<uint64_t>::max() && globalIndex != *std::get<0>(rowIterator.getIndices())) {

    rowIterator.setCursor(globalIndex);

  }

  return rowIterator.template getId<C>();

}


template <typename T, typename... Cs>


std::tuple<typename Cs::type...> getRowData(arrow::Table* table, T rowIterator, uint64_t ci = std::numeric_limits<uint64_t>::max(), uint64_t ai = std::numeric_limits<uint64_t>::max(), uint64_t globalIndex = std::numeric_limits<uint64_t>::max())

{

  return std::make_tuple(getSingleRowData<T, Cs>(table, rowIterator, ci, ai, globalIndex)...);

}


namespace

{

template <typename R, typename T, typename C>

R getColumnValue(const T& rowIterator)

{

  return static_cast<R>(static_cast<C>(rowIterator).get());

}


template <typename R, typename T>

using ColumnGetterFunction = R (*)(const T&);


template <typename T, typename R>


concept dynamic_with_common_getter = is_dynamic_column<T> &&

                                     // lambda is callable without additional free args

                                     framework::pack_size(typename T::bindings_t{}) == framework::pack_size(typename T::callable_t::args{}) &&

                                     requires(T t) {

                                       { t.get() } -> std::convertible_to<R>;

                                     };


template <typename T, typename R>


concept persistent_with_common_getter = is_persistent_v<T> && requires(T t) {

  { t.get() } -> std::convertible_to<R>;

};


template <typename R, typename T, persistent_with_common_getter<R> C>

ColumnGetterFunction<R, T> createGetterPtr(const std::string_view& targetColumnLabel)

{

  return targetColumnLabel == C::columnLabel() ? &getColumnValue<R, T, C> : nullptr;

}


template <typename R, typename T, dynamic_with_common_getter<R> C>

ColumnGetterFunction<R, T> createGetterPtr(const std::string_view& targetColumnLabel)

{

  std::string_view columnLabel(C::columnLabel());


  // allows user to use consistent formatting (with prefix) of all column labels

  // by default there isn't 'f' prefix for dynamic column labels

  if (targetColumnLabel.starts_with("f") && targetColumnLabel.substr(1) == columnLabel) {

    return &getColumnValue<R, T, C>;

  }


  // check also exact match if user is aware of prefix missing

  if (targetColumnLabel == columnLabel) {

    return &getColumnValue<R, T, C>;

  }


  return nullptr;

}


template <typename R, typename T, typename... Cs>

ColumnGetterFunction<R, T> getColumnGetterByLabel(o2::framework::pack<Cs...>, const std::string_view& targetColumnLabel)

{

  ColumnGetterFunction<R, T> func;


  (void)((func = createGetterPtr<R, T, Cs>(targetColumnLabel), func) || ...);


  if (!func) {

    getterNotFound(targetColumnLabel.data());

  }


  return func;

}


template <typename T, typename R>

using with_common_getter_t = typename std::conditional<persistent_with_common_getter<T, R> || dynamic_with_common_getter<T, R>, std::true_type, std::false_type>::type;

} // namespace


template <typename R, typename T>


ColumnGetterFunction<R, typename T::iterator> getColumnGetterByLabel(const std::string_view& targetColumnLabel)

{

  using TypesWithCommonGetter = o2::framework::selected_pack_multicondition<with_common_getter_t, framework::pack<R>, typename T::columns_t>;


  if (targetColumnLabel.size() == 0) {

    emptyColumnLabel();

  }


  return getColumnGetterByLabel<R, typename T::iterator>(TypesWithCommonGetter{}, targetColumnLabel);

}


} // namespace row_helpers


} // namespace o2::soa


namespace o2::aod

{

O2ORIGIN("AOD");

O2ORIGIN("AOD1");

O2ORIGIN("AOD2");

O2ORIGIN("DYN");

O2ORIGIN("IDX");

O2ORIGIN("JOIN");

O2HASH("JOIN/0");

O2ORIGIN("CONC");

O2HASH("CONC/0");

O2ORIGIN("TEST");

O2HASH("TEST/0");

} // namespace o2::aod


namespace

{

template <typename T>

consteval static std::string_view namespace_prefix()

{

  constexpr auto name = o2::framework::type_name<T>();

  const auto pos = name.rfind(std::string_view{":"});

  return name.substr(0, pos - 1);

}

} // namespace


#define DECLARE_EQUIVALENT_FOR_INDEX(_Base_, _Equiv_)                                                     \

  template <>                                                                                             \

  struct EquivalentIndexNG<o2::aod::Hash<_Base_::ref.desc_hash>, o2::aod::Hash<_Equiv_::ref.desc_hash>> { \

    constexpr static bool value = true;                                                                   \

  }


#define DECLARE_EQUIVALENT_FOR_INDEX_NG(_Base_, _Equiv_)                              \

  template <>                                                                         \

  struct EquivalentIndexNG<o2::aod::Hash<_Base_ ""_h>, o2::aod::Hash<_Equiv_ ""_h>> { \

    constexpr static bool value = true;                                               \

  }


#define DECLARE_SOA_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_)                                                                                                                \

  struct _Name_ : o2::soa::Column<_Type_, _Name_> {                                                                                                                               \

    static constexpr const char* mLabel = _Label_;                                                                                                                                \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_});                                                                        \

    static_assert(!((*(mLabel + 1) == 'I' && *(mLabel + 2) == 'n' && *(mLabel + 3) == 'd' && *(mLabel + 4) == 'e' && *(mLabel + 5) == 'x')), "Index is not a valid column name"); \

    using base = o2::soa::Column<_Type_, _Name_>;                                                                                                                                 \

    using type = _Type_;                                                                                                                                                          \

    using column_t = _Name_;                                                                                                                                                      \

    _Name_(arrow::ChunkedArray const* column)                                                                                                                                     \

      : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column))                                                                                                    \

    {                                                                                                                                                                             \

    }                                                                                                                                                                             \

                                                                                                                                                                                  \

    _Name_() = default;                                                                                                                                                           \

    _Name_(_Name_ const& other) = default;                                                                                                                                        \

    _Name_& operator=(_Name_ const& other) = default;                                                                                                                             \

                                                                                                                                                                                  \

    decltype(auto) _Getter_() const                                                                                                                                               \

    {                                                                                                                                                                             \

      return *mColumnIterator;                                                                                                                                                    \

    }                                                                                                                                                                             \

                                                                                                                                                                                  \

    decltype(auto) get() const                                                                                                                                                    \

    {                                                                                                                                                                             \

      return _Getter_();                                                                                                                                                          \

    }                                                                                                                                                                             \

  };                                                                                                                                                                              \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }


#define DECLARE_SOA_COLUMN(_Name_, _Getter_, _Type_) \

  DECLARE_SOA_COLUMN_FULL(_Name_, _Getter_, _Type_, "f" #_Name_)


#define MAKEINT(_Size_) uint##_Size_##_t


#define DECLARE_SOA_BITMAP_COLUMN_FULL(_Name_, _Getter_, _Size_, _Label_)                                                                                                         \

  struct _Name_ : o2::soa::Column<MAKEINT(_Size_), _Name_> {                                                                                                                      \

    static constexpr const char* mLabel = _Label_;                                                                                                                                \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_});                                                                        \

    static_assert(!((*(mLabel + 1) == 'I' && *(mLabel + 2) == 'n' && *(mLabel + 3) == 'd' && *(mLabel + 4) == 'e' && *(mLabel + 5) == 'x')), "Index is not a valid column name"); \

    using base = o2::soa::Column<MAKEINT(_Size_), _Name_>;                                                                                                                        \

    using type = MAKEINT(_Size_);                                                                                                                                                 \

    _Name_(arrow::ChunkedArray const* column)                                                                                                                                     \

      : o2::soa::Column<type, _Name_>(o2::soa::ColumnIterator<type>(column))                                                                                                      \

    {                                                                                                                                                                             \

    }                                                                                                                                                                             \

                                                                                                                                                                                  \

    _Name_() = default;                                                                                                                                                           \

    _Name_(_Name_ const& other) = default;                                                                                                                                        \

    _Name_& operator=(_Name_ const& other) = default;                                                                                                                             \

                                                                                                                                                                                  \

    decltype(auto) _Getter_##_raw() const                                                                                                                                         \

    {                                                                                                                                                                             \

      return *mColumnIterator;                                                                                                                                                    \

    }                                                                                                                                                                             \

                                                                                                                                                                                  \

    bool _Getter_##_bit(int bit) const                                                                                                                                            \

    {                                                                                                                                                                             \

      return (*mColumnIterator & (static_cast<type>(1) << bit)) >> bit;                                                                                                           \

    }                                                                                                                                                                             \

  };                                                                                                                                                                              \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<MAKEINT(_Size_)>() }


#define DECLARE_SOA_BITMAP_COLUMN(_Name_, _Getter_, _Size_) \

  DECLARE_SOA_BITMAP_COLUMN_FULL(_Name_, _Getter_, _Size_, "f" #_Name_)


#define DECLARE_SOA_EXPRESSION_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_, _Expression_)                \

  struct _Name_ : o2::soa::Column<_Type_, _Name_> {                                                        \

    static constexpr const char* mLabel = _Label_;                                                         \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \

    using base = o2::soa::Column<_Type_, _Name_>;                                                          \

    using type = _Type_;                                                                                   \

    using column_t = _Name_;                                                                               \

    using spawnable_t = std::true_type;                                                                    \

    _Name_(arrow::ChunkedArray const* column)                                                              \

      : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column))                             \

    {                                                                                                      \

    }                                                                                                      \

                                                                                                           \

    _Name_() = default;                                                                                    \

    _Name_(_Name_ const& other) = default;                                                                 \

    _Name_& operator=(_Name_ const& other) = default;                                                      \

                                                                                                           \

    decltype(auto) _Getter_() const                                                                        \

    {                                                                                                      \

      return *mColumnIterator;                                                                             \

    }                                                                                                      \

                                                                                                           \

    decltype(auto) get() const                                                                             \

    {                                                                                                      \

      return _Getter_();                                                                                   \

    }                                                                                                      \

                                                                                                           \

    static o2::framework::expressions::Projector Projector()                                               \

    {                                                                                                      \

      return _Expression_;                                                                                 \

    }                                                                                                      \

  };                                                                                                       \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }


#define DECLARE_SOA_EXPRESSION_COLUMN(_Name_, _Getter_, _Type_, _Expression_) \

  DECLARE_SOA_EXPRESSION_COLUMN_FULL(_Name_, _Getter_, _Type_, "f" #_Name_, _Expression_);


#define DECLARE_SOA_CONFIGURABLE_EXPRESSION_COLUMN(_Name_, _Getter_, _Type_, _Label_)                      \

  struct _Name_ : o2::soa::Column<_Type_, _Name_> {                                                        \

    static constexpr const char* mLabel = _Label_;                                                         \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \

    static constexpr const int32_t mHash = _Label_ ""_h;                                                   \

    using base = o2::soa::Column<_Type_, _Name_>;                                                          \

    using type = _Type_;                                                                                   \

    using column_t = _Name_;                                                                               \

    using spawnable_t = std::true_type;                                                                    \

    _Name_(arrow::ChunkedArray const* column)                                                              \

      : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column))                             \

    {                                                                                                      \

    }                                                                                                      \

                                                                                                           \

    _Name_() = default;                                                                                    \

    _Name_(_Name_ const& other) = default;                                                                 \

    _Name_& operator=(_Name_ const& other) = default;                                                      \

                                                                                                           \

    decltype(auto) _Getter_() const                                                                        \

    {                                                                                                      \

      return *mColumnIterator;                                                                             \

    }                                                                                                      \

                                                                                                           \

    decltype(auto) get() const                                                                             \

    {                                                                                                      \

      return _Getter_();                                                                                   \

    }                                                                                                      \

  };                                                                                                       \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }


template <o2::soa::is_table T>


consteval auto getIndexTargets()

{

  return T::originals;

}


#define DECLARE_SOA_SLICE_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_) \

  struct _Name_##IdSlice : o2::soa::Column<_Type_[2], _Name_##IdSlice> {                                 \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                            \

    static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _");              \

    static constexpr const char* mLabel = "fIndexSlice" _Label_ _Suffix_;                                \

    static constexpr const uint32_t hash = 0;                                                            \

    using base = o2::soa::Column<_Type_[2], _Name_##IdSlice>;                                            \

    using type = _Type_[2];                                                                              \

    using column_t = _Name_##IdSlice;                                                                    \

    using binding_t = _Table_;                                                                           \

    static constexpr auto index_targets = getIndexTargets<_Table_>();                                    \

    _Name_##IdSlice(arrow::ChunkedArray const* column)                                                   \

      : o2::soa::Column<_Type_[2], _Name_##IdSlice>(o2::soa::ColumnIterator<type>(column))               \

    {                                                                                                    \

    }                                                                                                    \

                                                                                                         \

    _Name_##IdSlice() = default;                                                                         \

    _Name_##IdSlice(_Name_##IdSlice const& other) = default;                                             \

    _Name_##IdSlice& operator=(_Name_##IdSlice const& other) = default;                                  \

    std::array<_Type_, 2> inline getIds() const                                                          \

    {                                                                                                    \

      return _Getter_##Ids();                                                                            \

    }                                                                                                    \

                                                                                                         \

    bool has_##_Getter_() const                                                                          \

    {                                                                                                    \

      auto a = *mColumnIterator;                                                                         \

      return a[0] >= 0 && a[1] >= 0;                                                                     \

    }                                                                                                    \

                                                                                                         \

    std::array<_Type_, 2> _Getter_##Ids() const                                                          \

    {                                                                                                    \

      auto a = *mColumnIterator;                                                                         \

      return std::array{a[0], a[1]};                                                                     \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_as() const                                                                           \

    {                                                                                                    \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                \

        o2::soa::notBoundTable(#_Table_);                                                                \

      }                                                                                                  \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                          \

      }                                                                                                  \

      if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) {                                                      \

        return t->emptySlice();                                                                          \

      }                                                                                                  \

      auto a = *mColumnIterator;                                                                         \

      auto r = t->rawSlice(a[0], a[1]);                                                                  \

      t->copyIndexBindings(r);                                                                           \

      r.bindInternalIndicesTo(t);                                                                        \

      return r;                                                                                          \

    }                                                                                                    \

                                                                                                         \

    auto _Getter_() const                                                                                \

    {                                                                                                    \

      return _Getter_##_as<binding_t>();                                                                 \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    bool setCurrent(T const* current)                                                                    \

    {                                                                                                    \

      if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) {                                  \

        assert(current != nullptr);                                                                      \

        this->mBinding.bind(current);                                                                    \

        return true;                                                                                     \

      }                                                                                                  \

      return false;                                                                                      \

    }                                                                                                    \

                                                                                                         \

    bool setCurrentRaw(o2::soa::Binding current)                                                         \

    {                                                                                                    \

      this->mBinding = current;                                                                          \

      return true;                                                                                       \

    }                                                                                                    \

    binding_t const* getCurrent() const { return mBinding.get<binding_t>(); }                            \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                          \

    o2::soa::Binding mBinding;                                                                           \

  };


#define DECLARE_SOA_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Table_, _Suffix_) DECLARE_SOA_SLICE_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, #_Table_, _Suffix_)

#define DECLARE_SOA_SLICE_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")

#define DECLARE_SOA_SLICE_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_SLICE_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")


#define DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_) \

  struct _Name_##Ids : o2::soa::Column<std::vector<_Type_>, _Name_##Ids> {                               \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                            \

    static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _");              \

    static constexpr const char* mLabel = "fIndexArray" _Label_ _Suffix_;                                \

    static constexpr const uint32_t hash = 0;                                                            \

    using base = o2::soa::Column<std::vector<_Type_>, _Name_##Ids>;                                      \

    using type = std::vector<_Type_>;                                                                    \

    using column_t = _Name_##Ids;                                                                        \

    using binding_t = _Table_;                                                                           \

    static constexpr auto index_targets = getIndexTargets<_Table_>();                                    \

    _Name_##Ids(arrow::ChunkedArray const* column)                                                       \

      : o2::soa::Column<std::vector<_Type_>, _Name_##Ids>(o2::soa::ColumnIterator<type>(column))         \

    {                                                                                                    \

    }                                                                                                    \

                                                                                                         \

    _Name_##Ids() = default;                                                                             \

    _Name_##Ids(_Name_##Ids const& other) = default;                                                     \

    _Name_##Ids& operator=(_Name_##Ids const& other) = default;                                          \

                                                                                                         \

    gsl::span<const _Type_> inline getIds() const                                                        \

    {                                                                                                    \

      return _Getter_##Ids();                                                                            \

    }                                                                                                    \

                                                                                                         \

    gsl::span<const _Type_> _Getter_##Ids() const                                                        \

    {                                                                                                    \

      return *mColumnIterator;                                                                           \

    }                                                                                                    \

                                                                                                         \

    bool has_##_Getter_() const                                                                          \

    {                                                                                                    \

      return !(*mColumnIterator).empty();                                                                \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_as() const                                                                           \

    {                                                                                                    \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                \

        o2::soa::notBoundTable(#_Table_);                                                                \

      }                                                                                                  \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                          \

      }                                                                                                  \

      return getIterators<T>();                                                                          \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto filtered_##_Getter_##_as() const                                                                \

    {                                                                                                    \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                \

        o2::soa::notBoundTable(#_Table_);                                                                \

      }                                                                                                  \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                          \

      }                                                                                                  \

      return getFilteredIterators<T>();                                                                  \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto getIterators() const                                                                            \

    {                                                                                                    \

      auto result = std::vector<typename T::unfiltered_iterator>();                                      \

      for (auto& i : *mColumnIterator) {                                                                 \

        result.push_back(mBinding.get<T>()->rawIteratorAt(i));                                           \

      }                                                                                                  \

      return result;                                                                                     \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    std::vector<typename T::iterator> getFilteredIterators() const                                       \

    {                                                                                                    \

      if constexpr (o2::soa::is_filtered_table<T>) {                                                     \

        auto result = std::vector<typename T::iterator>();                                               \

        for (auto const& i : *mColumnIterator) {                                                         \

          auto pos = mBinding.get<T>()->isInSelectedRows(i);                                             \

          if (pos > 0) {                                                                                 \

            result.emplace_back(mBinding.get<T>()->iteratorAt(pos));                                     \

          }                                                                                              \

        }                                                                                                \

        return result;                                                                                   \

      } else {                                                                                           \

        static_assert(o2::framework::always_static_assert_v<T>, "T is not a Filtered type");             \

      }                                                                                                  \

      return {};                                                                                         \

    }                                                                                                    \

                                                                                                         \

    auto _Getter_() const                                                                                \

    {                                                                                                    \

      return _Getter_##_as<binding_t>();                                                                 \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_first_as() const                                                                     \

    {                                                                                                    \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                \

        o2::soa::notBoundTable(#_Table_);                                                                \

      }                                                                                                  \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                          \

      }                                                                                                  \

      return t->rawIteratorAt((*mColumnIterator)[0]);                                                    \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_last_as() const                                                                      \

    {                                                                                                    \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                \

        o2::soa::notBoundTable(#_Table_);                                                                \

      }                                                                                                  \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                          \

      }                                                                                                  \

      return t->rawIteratorAt((*mColumnIterator).back());                                                \

    }                                                                                                    \

                                                                                                         \

    auto _Getter_first() const                                                                           \

    {                                                                                                    \

      return _Getter_##_first_as<binding_t>();                                                           \

    }                                                                                                    \

                                                                                                         \

    auto _Getter_last() const                                                                            \

    {                                                                                                    \

      return _Getter_##_last_as<binding_t>();                                                            \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    bool setCurrent(T const* current)                                                                    \

    {                                                                                                    \

      if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) {                                  \

        assert(current != nullptr);                                                                      \

        this->mBinding.bind(current);                                                                    \

        return true;                                                                                     \

      }                                                                                                  \

      return false;                                                                                      \

    }                                                                                                    \

                                                                                                         \

    bool setCurrentRaw(o2::soa::Binding current)                                                         \

    {                                                                                                    \

      this->mBinding = current;                                                                          \

      return true;                                                                                       \

    }                                                                                                    \

    binding_t const* getCurrent() const { return mBinding.get<binding_t>(); }                            \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                          \

    o2::soa::Binding mBinding;                                                                           \

  };


#define DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Table_, _Suffix_) DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, #_Table_, _Suffix_)

#define DECLARE_SOA_ARRAY_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")

#define DECLARE_SOA_ARRAY_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")


#define DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_)                  \

  struct _Name_##Id : o2::soa::Column<_Type_, _Name_##Id> {                                                         \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                                       \

    static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _");                         \

    static constexpr const char* mLabel = "fIndex" _Label_ _Suffix_;                                                \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_##Id>(), std::string_view{#_Getter_ "Id"}); \

    using base = o2::soa::Column<_Type_, _Name_##Id>;                                                               \

    using type = _Type_;                                                                                            \

    using column_t = _Name_##Id;                                                                                    \

    using binding_t = _Table_;                                                                                      \

    static constexpr auto index_targets = getIndexTargets<_Table_>();                                               \

    _Name_##Id(arrow::ChunkedArray const* column)                                                                   \

      : o2::soa::Column<_Type_, _Name_##Id>(o2::soa::ColumnIterator<type>(column))                                  \

    {                                                                                                               \

    }                                                                                                               \

                                                                                                                    \

    _Name_##Id() = default;                                                                                         \

    _Name_##Id(_Name_##Id const& other) = default;                                                                  \

    _Name_##Id& operator=(_Name_##Id const& other) = default;                                                       \

    type inline getId() const                                                                                       \

    {                                                                                                               \

      return _Getter_##Id();                                                                                        \

    }                                                                                                               \

                                                                                                                    \

    type _Getter_##Id() const                                                                                       \

    {                                                                                                               \

      return *mColumnIterator;                                                                                      \

    }                                                                                                               \

                                                                                                                    \

    bool has_##_Getter_() const                                                                                     \

    {                                                                                                               \

      return *mColumnIterator >= 0;                                                                                 \

    }                                                                                                               \

                                                                                                                    \

    template <typename T>                                                                                           \

    auto _Getter_##_as() const                                                                                      \

    {                                                                                                               \

      if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) {                                                           \

        o2::soa::notBoundTable(#_Table_);                                                                           \

      }                                                                                                             \

      if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) {                                                                 \

        o2::soa::accessingInvalidIndexFor(#_Getter_);                                                               \

      }                                                                                                             \

      auto t = mBinding.get<T>();                                                                                   \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                                      \

        o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_);                                                     \

      }                                                                                                             \

      return t->rawIteratorAt(*mColumnIterator);                                                                    \

    }                                                                                                               \

                                                                                                                    \

    auto _Getter_() const                                                                                           \

    {                                                                                                               \

      return _Getter_##_as<binding_t>();                                                                            \

    }                                                                                                               \

                                                                                                                    \

    template <typename T>                                                                                           \

    bool setCurrent(T* current)                                                                                     \

    {                                                                                                               \

      if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) {                                             \

        assert(current != nullptr);                                                                                 \

        this->mBinding.bind(current);                                                                               \

        return true;                                                                                                \

      }                                                                                                             \

      return false;                                                                                                 \

    }                                                                                                               \

                                                                                                                    \

    bool setCurrentRaw(o2::soa::Binding current)                                                                    \

    {                                                                                                               \

      this->mBinding = current;                                                                                     \

      return true;                                                                                                  \

    }                                                                                                               \

    binding_t const* getCurrent() const { return mBinding.get<binding_t>(); }                                       \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                                     \

    o2::soa::Binding mBinding;                                                                                      \

  };                                                                                                                \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_##Id { "fIndex" #_Table_ _Suffix_, _Name_##Id::hash, o2::framework::expressions::selectArrowType<_Type_>() }


#define DECLARE_SOA_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Table_, _Suffix_) DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, #_Table_, _Suffix_)

#define DECLARE_SOA_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")

#define DECLARE_SOA_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")


#define DECLARE_SOA_SELF_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_)                    \

  struct _Name_##Id : o2::soa::Column<_Type_, _Name_##Id> {                                                         \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                                       \

    static constexpr const char* mLabel = "fIndex" _Label_;                                                         \

    static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_##Id>(), std::string_view{#_Getter_ "Id"}); \

    using base = o2::soa::Column<_Type_, _Name_##Id>;                                                               \

    using type = _Type_;                                                                                            \

    using column_t = _Name_##Id;                                                                                    \

    using self_index_t = std::true_type;                                                                            \

    using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>;            \

    _Name_##Id(arrow::ChunkedArray const* column)                                                                   \

      : o2::soa::Column<_Type_, _Name_##Id>(o2::soa::ColumnIterator<type>(column))                                  \

    {                                                                                                               \

    }                                                                                                               \

                                                                                                                    \

    _Name_##Id() = default;                                                                                         \

    _Name_##Id(_Name_##Id const& other) = default;                                                                  \

    _Name_##Id& operator=(_Name_##Id const& other) = default;                                                       \

    type inline getId() const                                                                                       \

    {                                                                                                               \

      return _Getter_##Id();                                                                                        \

    }                                                                                                               \

                                                                                                                    \

    type _Getter_##Id() const                                                                                       \

    {                                                                                                               \

      return *mColumnIterator;                                                                                      \

    }                                                                                                               \

                                                                                                                    \

    bool has_##_Getter_() const                                                                                     \

    {                                                                                                               \

      return *mColumnIterator >= 0;                                                                                 \

    }                                                                                                               \

                                                                                                                    \

    template <typename T>                                                                                           \

    auto _Getter_##_as() const                                                                                      \

    {                                                                                                               \

      if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) {                                                                 \

        o2::soa::accessingInvalidIndexFor(#_Getter_);                                                               \

      }                                                                                                             \

      auto t = mBinding.get<T>();                                                                                   \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                                      \

        o2::soa::dereferenceWithWrongType(#_Getter_, "self");                                                       \

      }                                                                                                             \

      return t->rawIteratorAt(*mColumnIterator);                                                                    \

    }                                                                                                               \

                                                                                                                    \

    bool setCurrentRaw(o2::soa::Binding current)                                                                    \

    {                                                                                                               \

      this->mBinding = current;                                                                                     \

      return true;                                                                                                  \

    }                                                                                                               \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                                     \

    o2::soa::Binding mBinding;                                                                                      \

  };                                                                                                                \

  [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_##Id { "fIndex" _Label_, _Name_##Id::hash, o2::framework::expressions::selectArrowType<_Type_>() }


#define DECLARE_SOA_SELF_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)

#define DECLARE_SOA_SELF_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, #_Name_)


#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_)   \

  struct _Name_##IdSlice : o2::soa::Column<_Type_[2], _Name_##IdSlice> {                                 \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                            \

    static constexpr const char* mLabel = "fIndexSlice" _Label_;                                         \

    static constexpr const uint32_t hash = 0;                                                            \

    using base = o2::soa::Column<_Type_[2], _Name_##IdSlice>;                                            \

    using type = _Type_[2];                                                                              \

    using column_t = _Name_##IdSlice;                                                                    \

    using self_index_t = std::true_type;                                                                 \

    using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>; \

    _Name_##IdSlice(arrow::ChunkedArray const* column)                                                   \

      : o2::soa::Column<_Type_[2], _Name_##IdSlice>(o2::soa::ColumnIterator<type>(column))               \

    {                                                                                                    \

    }                                                                                                    \

                                                                                                         \

    _Name_##IdSlice() = default;                                                                         \

    _Name_##IdSlice(_Name_##IdSlice const& other) = default;                                             \

    _Name_##IdSlice& operator=(_Name_##IdSlice const& other) = default;                                  \

    std::array<_Type_, 2> inline getIds() const                                                          \

    {                                                                                                    \

      return _Getter_##Ids();                                                                            \

    }                                                                                                    \

                                                                                                         \

    bool has_##_Getter_() const                                                                          \

    {                                                                                                    \

      auto a = *mColumnIterator;                                                                         \

      return a[0] >= 0 && a[1] >= 0;                                                                     \

    }                                                                                                    \

                                                                                                         \

    std::array<_Type_, 2> _Getter_##Ids() const                                                          \

    {                                                                                                    \

      auto a = *mColumnIterator;                                                                         \

      return std::array{a[0], a[1]};                                                                     \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_as() const                                                                           \

    {                                                                                                    \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, "self");                                            \

      }                                                                                                  \

      if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) {                                                      \

        return t->emptySlice();                                                                          \

      }                                                                                                  \

      auto a = *mColumnIterator;                                                                         \

      auto r = t->rawSlice(a[0], a[1]);                                                                  \

      t->copyIndexBindings(r);                                                                           \

      r.bindInternalIndicesTo(t);                                                                        \

      return r;                                                                                          \

    }                                                                                                    \

                                                                                                         \

    bool setCurrentRaw(o2::soa::Binding current)                                                         \

    {                                                                                                    \

      this->mBinding = current;                                                                          \

      return true;                                                                                       \

    }                                                                                                    \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                          \

    o2::soa::Binding mBinding;                                                                           \

  };


#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)

#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, "_" #_Name_)


#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_)   \

  struct _Name_##Ids : o2::soa::Column<std::vector<_Type_>, _Name_##Ids> {                               \

    static_assert(std::is_integral_v<_Type_>, "Index type must be integral");                            \

    static constexpr const char* mLabel = "fIndexArray" _Label_;                                         \

    static constexpr const uint32_t hash = 0;                                                            \

    using base = o2::soa::Column<std::vector<_Type_>, _Name_##Ids>;                                      \

    using type = std::vector<_Type_>;                                                                    \

    using column_t = _Name_##Ids;                                                                        \

    using self_index_t = std::true_type;                                                                 \

    using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>; \

    _Name_##Ids(arrow::ChunkedArray const* column)                                                       \

      : o2::soa::Column<std::vector<_Type_>, _Name_##Ids>(o2::soa::ColumnIterator<type>(column))         \

    {                                                                                                    \

    }                                                                                                    \

                                                                                                         \

    _Name_##Ids() = default;                                                                             \

    _Name_##Ids(_Name_##Ids const& other) = default;                                                     \

    _Name_##Ids& operator=(_Name_##Ids const& other) = default;                                          \

    gsl::span<const _Type_> inline getIds() const                                                        \

    {                                                                                                    \

      return _Getter_##Ids();                                                                            \

    }                                                                                                    \

                                                                                                         \

    gsl::span<const _Type_> _Getter_##Ids() const                                                        \

    {                                                                                                    \

      return *mColumnIterator;                                                                           \

    }                                                                                                    \

                                                                                                         \

    bool has_##_Getter_() const                                                                          \

    {                                                                                                    \

      return !(*mColumnIterator).empty();                                                                \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_as() const                                                                           \

    {                                                                                                    \

      auto t = mBinding.get<T>();                                                                        \

      if (O2_BUILTIN_UNLIKELY(t == nullptr)) {                                                           \

        o2::soa::dereferenceWithWrongType(#_Getter_, "self");                                            \

      }                                                                                                  \

      return getIterators<T>();                                                                          \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto getIterators() const                                                                            \

    {                                                                                                    \

      auto result = std::vector<typename T::unfiltered_iterator>();                                      \

      for (auto& i : *mColumnIterator) {                                                                 \

        result.push_back(mBinding.get<T>()->rawIteratorAt(i));                                           \

      }                                                                                                  \

      return result;                                                                                     \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_first_as() const                                                                     \

    {                                                                                                    \

      return mBinding.get<T>()->rawIteratorAt((*mColumnIterator)[0]);                                    \

    }                                                                                                    \

                                                                                                         \

    template <typename T>                                                                                \

    auto _Getter_##_last_as() const                                                                      \

    {                                                                                                    \

      return mBinding.get<T>()->rawIteratorAt((*mColumnIterator).back());                                \

    }                                                                                                    \

                                                                                                         \

    bool setCurrentRaw(o2::soa::Binding current)                                                         \

    {                                                                                                    \

      this->mBinding = current;                                                                          \

      return true;                                                                                       \

    }                                                                                                    \

    o2::soa::Binding getCurrentRaw() const { return mBinding; }                                          \

    o2::soa::Binding mBinding;                                                                           \

  };


#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)

#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, "_" #_Name_)


#define DECLARE_SOA_DYNAMIC_COLUMN(_Name_, _Getter_, ...)                                                                  \

  struct _Name_##Callback {                                                                                                \

    static inline constexpr auto getLambda() { return __VA_ARGS__; }                                                       \

  };                                                                                                                       \

                                                                                                                           \

  struct _Name_##Helper {                                                                                                  \

    using callable_t = decltype(o2::framework::FunctionMetadata(std::declval<decltype(_Name_##Callback::getLambda())>())); \

    using return_type = typename callable_t::return_type;                                                                  \

  };                                                                                                                       \

  template <typename... Bindings>                                                                                          \

  struct _Name_ : o2::soa::DynamicColumn<typename _Name_##Helper::callable_t::type, _Name_<Bindings...>> {                 \

    using base = o2::soa::DynamicColumn<typename _Name_##Helper::callable_t::type, _Name_<Bindings...>>;                   \

    using helper = _Name_##Helper;                                                                                         \

    using callback_holder_t = _Name_##Callback;                                                                            \

    using callable_t = helper::callable_t;                                                                                 \

    using callback_t = callable_t::type;                                                                                   \

    static constexpr const uint32_t hash = 0;                                                                              \

                                                                                                                           \

    _Name_(arrow::ChunkedArray const*)                                                                                     \

    {                                                                                                                      \

    }                                                                                                                      \

    _Name_() = default;                                                                                                    \

    _Name_(_Name_ const& other) = default;                                                                                 \

    _Name_& operator=(_Name_ const& other) = default;                                                                      \

    static constexpr const char* mLabel = #_Name_;                                                                         \

    using type = typename callable_t::return_type;                                                                         \

                                                                                                                           \

    template <typename... FreeArgs>                                                                                        \

    type _Getter_(FreeArgs... freeArgs) const                                                                              \

    {                                                                                                                      \

      return boundGetter(std::make_index_sequence<std::tuple_size_v<decltype(boundIterators)>>{}, freeArgs...);            \

    }                                                                                                                      \

    template <typename... FreeArgs>                                                                                        \

    type getDynamicValue(FreeArgs... freeArgs) const                                                                       \

    {                                                                                                                      \

      return boundGetter(std::make_index_sequence<std::tuple_size_v<decltype(boundIterators)>>{}, freeArgs...);            \

    }                                                                                                                      \

                                                                                                                           \

    type get() const                                                                                                       \

    {                                                                                                                      \

      return _Getter_();                                                                                                   \

    }                                                                                                                      \

                                                                                                                           \

    template <size_t... Is, typename... FreeArgs>                                                                          \

    type boundGetter(std::integer_sequence<size_t, Is...>&&, FreeArgs... freeArgs) const                                   \

    {                                                                                                                      \

      return __VA_ARGS__((**std::get<Is>(boundIterators))..., freeArgs...);                                                \

    }                                                                                                                      \

                                                                                                                           \

    using bindings_t = typename o2::framework::pack<Bindings...>;                                                          \

    std::tuple<o2::soa::ColumnIterator<typename Bindings::type> const*...> boundIterators;                                 \

  }


#define DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, ...) \

  using _Name_##Metadata = TableMetadata<Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__>;


#define DECLARE_SOA_TABLE_METADATA_TRAIT(_Name_, _Desc_, _Version_) \

  template <>                                                       \

  struct MetadataTrait<Hash<_Desc_ "/" #_Version_ ""_h>> {          \

    using metadata = _Name_##Metadata;                              \

  };


#define DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, _Version_)         \

  O2HASH(_Desc_ "/" #_Version_);                                                                \

  template <typename O>                                                                         \

  using _Name_##From = o2::soa::Table<Hash<_Label_ ""_h>, Hash<_Desc_ "/" #_Version_ ""_h>, O>; \

  using _Name_ = _Name_##From<Hash<_Origin_ ""_h>>;                                             \

  template <>                                                                                   \

  struct MetadataTrait<Hash<_Desc_ "/" #_Version_ ""_h>> {                                      \

    using metadata = _Name_##Metadata;                                                          \

  };


#define DECLARE_SOA_STAGE(_Name_, _Origin_, _Desc_, _Version_)                                  \

  template <typename O>                                                                         \

  using _Name_##From = o2::soa::Table<Hash<#_Name_ ""_h>, Hash<_Desc_ "/" #_Version_ ""_h>, O>; \

  using _Name_ = _Name_##From<Hash<_Origin_ ""_h>>;


#define DECLARE_SOA_TABLE_FULL_VERSIONED(_Name_, _Label_, _Origin_, _Desc_, _Version_, ...) \

  DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, __VA_ARGS__);                       \

  DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, _Version_);


#define DECLARE_SOA_TABLE_FULL(_Name_, _Label_, _Origin_, _Desc_, ...) \

  O2HASH(_Label_);                                                     \

  DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, 0, __VA_ARGS__);          \

  DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, 0)


#define DECLARE_SOA_TABLE(_Name_, _Origin_, _Desc_, ...) \

  DECLARE_SOA_TABLE_FULL(_Name_, #_Name_, _Origin_, _Desc_, __VA_ARGS__)


#define DECLARE_SOA_TABLE_VERSIONED(_Name_, _Origin_, _Desc_, _Version_, ...) \

  O2HASH(#_Name_);                                                            \

  DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, __VA_ARGS__);         \

  DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, #_Name_, _Origin_, _Desc_, _Version_)


#define DECLARE_SOA_TABLE_STAGED_VERSIONED(_BaseName_, _Desc_, _Version_, ...) \

  O2HASH(_Desc_ "/" #_Version_);                                               \

  O2HASH(#_BaseName_);                                                         \

  O2HASH("Stored" #_BaseName_);                                                \

  DECLARE_SOA_TABLE_METADATA(_BaseName_, _Desc_, _Version_, __VA_ARGS__);      \

  using Stored##_BaseName_##Metadata = _BaseName_##Metadata;                   \

  DECLARE_SOA_TABLE_METADATA_TRAIT(_BaseName_, _Desc_, _Version_);             \

  DECLARE_SOA_STAGE(_BaseName_, "AOD", _Desc_, _Version_);                     \

  DECLARE_SOA_STAGE(Stored##_BaseName_, "AOD1", _Desc_, _Version_);


#define DECLARE_SOA_TABLE_STAGED(_BaseName_, _Desc_, ...) \

  DECLARE_SOA_TABLE_STAGED_VERSIONED(_BaseName_, _Desc_, 0, __VA_ARGS__);


#define DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, _Label_, _OriginalTable_, _Origin_, _Desc_, _Version_, ...)                     \

  O2HASH(_Desc_ "/" #_Version_);                                                                                                \

  template <typename O>                                                                                                         \

  using _Name_##ExtensionFrom = soa::Table<o2::aod::Hash<_Label_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O>;          \

  using _Name_##Extension = _Name_##ExtensionFrom<o2::aod::Hash<_Origin_ ""_h>>;                                                \

  template <typename O = o2::aod::Hash<_Origin_ ""_h>>                                                                          \

  struct _Name_##ExtensionMetadataFrom : TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__> {                \

    using base_table_t = _OriginalTable_;                                                                                       \

    using extension_table_t = _Name_##ExtensionFrom<O>;                                                                         \

    using expression_pack_t = framework::pack<__VA_ARGS__>;                                                                     \

    static constexpr auto sources = _OriginalTable_::originals;                                                                 \

  };                                                                                                                            \

  using _Name_##ExtensionMetadata = _Name_##ExtensionMetadataFrom<o2::aod::Hash<_Origin_ ""_h>>;                                \

  template <>                                                                                                                   \

  struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> {                                                             \

    using metadata = _Name_##ExtensionMetadata;                                                                                 \

  };                                                                                                                            \

  template <typename O>                                                                                                         \

  using _Name_##From = o2::soa::JoinFull<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, _OriginalTable_, _Name_##ExtensionFrom<O>>; \

  using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>;


#define DECLARE_SOA_EXTENDED_TABLE(_Name_, _Table_, _Description_, _Version_, ...) \

  O2HASH(#_Name_ "Extension");                                                     \

  DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, #_Name_ "Extension", _Table_, "DYN", _Description_, _Version_, __VA_ARGS__)


#define DECLARE_SOA_EXTENDED_TABLE_USER(_Name_, _Table_, _Description_, ...) \

  O2HASH(#_Name_ "Extension");                                               \

  DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, #_Name_ "Extension", _Table_, "AOD", "EX" _Description_, 0, __VA_ARGS__)


#define DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE_FULL(_Name_, _Label_, _OriginalTable_, _Origin_, _Desc_, _Version_, ...)           \

  O2HASH(_Desc_ "/" #_Version_);                                                                                                   \

  template <typename O>                                                                                                            \

  using _Name_##CfgExtensionFrom = soa::Table<o2::aod::Hash<_Label_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O>;          \

  using _Name_##CfgExtension = _Name_##CfgExtensionFrom<o2::aod::Hash<_Origin_ ""_h>>;                                             \

  template <typename O = o2::aod::Hash<_Origin_ ""_h>>                                                                             \

  struct _Name_##CfgExtensionMetadataFrom : TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__> {                \

    using base_table_t = _OriginalTable_;                                                                                          \

    using extension_table_t = _Name_##CfgExtensionFrom<O>;                                                                         \

    using placeholders_pack_t = framework::pack<__VA_ARGS__>;                                                                      \

    using configurable_t = std::true_type;                                                                                         \

    static constexpr auto sources = _OriginalTable_::originals;                                                                    \

  };                                                                                                                               \

  using _Name_##CfgExtensionMetadata = _Name_##CfgExtensionMetadataFrom<o2::aod::Hash<_Origin_ ""_h>>;                             \

  template <>                                                                                                                      \

  struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> {                                                                \

    using metadata = _Name_##CfgExtensionMetadata;                                                                                 \

  };                                                                                                                               \

  template <typename O>                                                                                                            \

  using _Name_##From = o2::soa::JoinFull<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, _OriginalTable_, _Name_##CfgExtensionFrom<O>>; \

  using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>;


#define DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE(_Name_, _Table_, _Description_, ...) \

  O2HASH(#_Name_ "CfgExtension");                                                    \

  DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE_FULL(_Name_, #_Name_ "CfgExtension", _Table_, "AOD", "EX" _Description_, 0, __VA_ARGS__)


#define DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, _Origin_, _Version_, _Desc_, _Exclusive_, ...)                                         \

  O2HASH(#_Name_);                                                                                                                         \

  O2HASH(_Desc_ "/" #_Version_);                                                                                                           \

  template <typename O = o2::aod::Hash<_Origin_ ""_h>>                                                                                     \

  struct _Name_##MetadataFrom : o2::aod::TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, soa::Index<>, __VA_ARGS__> {             \

    static constexpr bool exclusive = _Exclusive_;                                                                                         \

    using Key = _Key_;                                                                                                                     \

    using index_pack_t = framework::pack<__VA_ARGS__>;                                                                                     \

    static constexpr const auto sources = []<typename... Cs>(framework::pack<Cs...>) {                                                     \

      constexpr auto a = o2::soa::mergeOriginals<typename Cs::binding_t...>();                                                             \

      return o2::aod::filterForKey<a.size(), a, Key>();                                                                                    \

    }(framework::pack<__VA_ARGS__>{});                                                                                                     \

  };                                                                                                                                       \

  using _Name_##Metadata = _Name_##MetadataFrom<o2::aod::Hash<_Origin_ ""_h>>;                                                             \

                                                                                                                                           \

  template <typename O = o2::aod::Hash<_Origin_ ""_h>>                                                                                     \

  using _Name_##From = o2::soa::IndexTable<o2::aod::Hash<#_Name_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O, _Key_, __VA_ARGS__>; \

  using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>;                                                                               \

                                                                                                                                           \

  template <>                                                                                                                              \

  struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> {                                                                        \

    using metadata = _Name_##Metadata;                                                                                                     \

  };


#define DECLARE_SOA_INDEX_TABLE(_Name_, _Key_, _Description_, ...) \

  DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "IDX", 0, _Description_, false, __VA_ARGS__)


#define DECLARE_SOA_INDEX_TABLE_EXCLUSIVE(_Name_, _Key_, _Description_, ...) \

  DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "IDX", 0, _Description_, true, __VA_ARGS__)


#define DECLARE_SOA_INDEX_TABLE_USER(_Name_, _Key_, _Description_, ...) \

  DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "AOD", 0, _Description_, false, __VA_ARGS__)


#define DECLARE_SOA_INDEX_TABLE_EXCLUSIVE_USER(_Name_, _Key_, _Description_, ...) \

  DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "AOD", 0, _Description_, true, __VA_ARGS__)


namespace o2::soa

{

template <typename D, typename... Ts>


struct JoinFull : Table<o2::aod::Hash<"JOIN"_h>, D, o2::aod::Hash<"JOIN"_h>, Ts...> {

  using base = Table<o2::aod::Hash<"JOIN"_h>, D, o2::aod::Hash<"JOIN"_h>, Ts...>;


  JoinFull(std::shared_ptr<arrow::Table>&& table, uint64_t offset = 0)

    : base{std::move(table), offset}

  {

    bindInternalIndicesTo(this);

  }


  JoinFull(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t offset = 0)

    : base{ArrowHelpers::joinTables(std::move(tables), std::span{base::originalLabels}), offset}

  {

    bindInternalIndicesTo(this);

  }


  using base::bindExternalIndices;

  using base::bindInternalIndicesTo;


  using self_t = JoinFull<D, Ts...>;

  using table_t = base;

  static constexpr const auto originals = base::originals;

  static constexpr const auto originalLabels = base::originalLabels;

  using columns_t = typename table_t::columns_t;

  using persistent_columns_t = typename table_t::persistent_columns_t;

  using iterator = table_t::template iterator_template<DefaultIndexPolicy, self_t, Ts...>;

  using const_iterator = iterator;

  using unfiltered_iterator = iterator;

  using unfiltered_const_iterator = const_iterator;

  using filtered_iterator = table_t::template iterator_template<FilteredIndexPolicy, self_t, Ts...>;

  using filtered_const_iterator = filtered_iterator;


  iterator begin()

  {

    return iterator{this->cached_begin()};

  }


  const_iterator begin() const

  {

    return const_iterator{this->cached_begin()};

  }


  auto sliceByCached(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCached(this, node, value, cache);

  }


  auto sliceByCachedUnsorted(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCachedUnsorted(this, node, value, cache);

  }


  template <typename T1, typename Policy, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, Policy, OPT> const& container, int value) const

  {

    return doSliceBy(this, container, value);

  }


  iterator rawIteratorAt(uint64_t i) const

  {

    auto it = iterator{this->cached_begin()};

    it.setCursor(i);

    return it;

  }


  iterator iteratorAt(uint64_t i) const

  {

    return rawIteratorAt(i);

  }


  auto rawSlice(uint64_t start, uint64_t end) const

  {

    return self_t{{this->asArrowTable()->Slice(start, end - start + 1)}, start};

  }


  auto emptySlice() const

  {

    return self_t{{this->asArrowTable()->Slice(0, 0)}, 0};

  }


  template <typename T>


  static consteval bool contains()

  {

    return std::find_if(originals.begin(), originals.end(), [](TableRef const& ref) { return ref.desc_hash == T::ref.desc_hash; }) != originals.end();

  }


};


template <typename... Ts>

using Join = JoinFull<o2::aod::Hash<"JOIN/0"_h>, Ts...>;


template <typename... Ts>


constexpr auto join(Ts const&... t)

{

  return Join<Ts...>(ArrowHelpers::joinTables({t.asArrowTable()...}, std::span{Join<Ts...>::base::originalLabels}));

}


template <typename T>

concept is_join = framework::specialization_of_template<JoinFull, T>;


template <typename T>

constexpr bool is_soa_join_v = is_join<T>;


template <typename... Ts>


struct Concat : Table<o2::aod::Hash<"CONC"_h>, o2::aod::Hash<"CONC/0"_h>, o2::aod::Hash<"CONC"_h>, Ts...> {

  using base = Table<o2::aod::Hash<"CONC"_h>, o2::aod::Hash<"CONC/0"_h>, o2::aod::Hash<"CONC"_h>, Ts...>;

  using self_t = Concat<Ts...>;


  Concat(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t offset = 0)

    : base{ArrowHelpers::concatTables(std::move(tables)), offset}

  {

    bindInternalIndicesTo(this);

  }


  Concat(Ts const&... t, uint64_t offset = 0)

    : base{ArrowHelpers::concatTables({t.asArrowTable()...}), offset}

  {

    bindInternalIndicesTo(this);

  }


  using base::originals;


  using base::bindExternalIndices;

  using base::bindInternalIndicesTo;


  using table_t = base;

  using columns_t = typename table_t::columns_t;

  using persistent_columns_t = typename table_t::persistent_columns_t;


  using iterator = table_t::template iterator_template<DefaultIndexPolicy, self_t, Ts...>;

  using const_iterator = iterator;

  using unfiltered_iterator = iterator;

  using unfiltered_const_iterator = const_iterator;

  using filtered_iterator = table_t::template iterator_template<FilteredIndexPolicy, self_t, Ts...>;

  using filtered_const_iterator = filtered_iterator;

};


template <typename... Ts>


constexpr auto concat(Ts const&... t)

{

  return Concat<Ts...>{t...};

}


template <soa::is_table T>


class FilteredBase : public T

{

 public:

  using self_t = FilteredBase<T>;

  using table_t = typename T::table_t;

  using T::originals;

  using columns_t = typename T::columns_t;

  using persistent_columns_t = typename T::persistent_columns_t;

  using external_index_columns_t = typename T::external_index_columns_t;


  using iterator = T::template iterator_template_o<FilteredIndexPolicy, self_t>;

  using unfiltered_iterator = T::template iterator_template_o<DefaultIndexPolicy, self_t>;

  using const_iterator = iterator;


  FilteredBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gandiva::Selection const& selection, uint64_t offset = 0)

    : T{std::move(tables), offset},

      mSelectedRows{getSpan(selection)}

  {

    if (this->tableSize() != 0) {

      mFilteredBegin = table_t::filtered_begin(mSelectedRows);

    }

    resetRanges();

    mFilteredBegin.bindInternalIndices(this);

  }


  FilteredBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, SelectionVector&& selection, uint64_t offset = 0)

    : T{std::move(tables), offset},

      mSelectedRowsCache{std::move(selection)},

      mCached{true}

  {

    mSelectedRows = gsl::span{mSelectedRowsCache};

    if (this->tableSize() != 0) {

      mFilteredBegin = table_t::filtered_begin(mSelectedRows);

    }

    resetRanges();

    mFilteredBegin.bindInternalIndices(this);

  }


  FilteredBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const> const& selection, uint64_t offset = 0)

    : T{std::move(tables), offset},

      mSelectedRows{selection}

  {

    if (this->tableSize() != 0) {

      mFilteredBegin = table_t::filtered_begin(mSelectedRows);

    }

    resetRanges();

    mFilteredBegin.bindInternalIndices(this);

  }


  iterator begin()

  {

    return iterator(mFilteredBegin);

  }


  const_iterator begin() const

  {

    return const_iterator(mFilteredBegin);

  }


  unfiltered_iterator rawIteratorAt(uint64_t i) const

  {

    auto it = unfiltered_iterator{mFilteredBegin};

    it.setCursor(i);

    return it;

  }


  [[nodiscard]] RowViewSentinel end() const

  {

    return RowViewSentinel{*mFilteredEnd};

  }


  auto& cached_begin()

  {

    return mFilteredBegin;

  }


  auto const& cached_begin() const

  {

    return mFilteredBegin;

  }


  iterator iteratorAt(uint64_t i) const

  {

    return mFilteredBegin + i;

  }


  [[nodiscard]] int64_t size() const

  {

    return mSelectedRows.size();

  }


  [[nodiscard]] int64_t tableSize() const

  {

    return table_t::asArrowTable()->num_rows();

  }


  auto const& getSelectedRows() const

  {

    return mSelectedRows;

  }


  auto rawSlice(uint64_t start, uint64_t end) const

  {

    SelectionVector newSelection;

    newSelection.resize(static_cast<int64_t>(end - start + 1));

    std::iota(newSelection.begin(), newSelection.end(), start);

    return self_t{{this->asArrowTable()}, std::move(newSelection), 0};

  }


  auto emptySlice() const

  {

    return self_t{{this->asArrowTable()}, SelectionVector{}, 0};

  }


  static inline auto getSpan(gandiva::Selection const& sel)

  {

    if (sel == nullptr) {

      return gsl::span<int64_t const>{};

    }

    auto array = std::static_pointer_cast<arrow::Int64Array>(sel->ToArray());

    auto start = array->raw_values();

    auto stop = start + array->length();

    return gsl::span{start, stop};

  }


  template <typename... TA>


  void bindExternalIndices(TA*... current)

  {

    table_t::bindExternalIndices(current...);

    mFilteredBegin.bindExternalIndices(current...);

  }


  void bindExternalIndicesRaw(std::vector<o2::soa::Binding>&& ptrs)

  {

    mFilteredBegin.bindExternalIndicesRaw(std::forward<std::vector<o2::soa::Binding>>(ptrs));

  }


  template <typename I>


  void bindInternalIndicesTo(I const* ptr)

  {

    mFilteredBegin.bindInternalIndices(ptr);

  }


  template <typename T1, typename... Cs>


  void doCopyIndexBindings(framework::pack<Cs...>, T1& dest) const

  {

    dest.bindExternalIndicesRaw(mFilteredBegin.getIndexBindings());

  }


  template <typename T1>


  void copyIndexBindings(T1& dest) const

  {

    doCopyIndexBindings(external_index_columns_t{}, dest);

  }


  template <typename T1>


  auto rawSliceBy(o2::framework::Preslice<T1> const& container, int value) const

  {

    return (table_t)this->sliceBy(container, value);

  }


  auto sliceByCached(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doFilteredSliceByCached(this, node, value, cache);

  }


  auto sliceByCachedUnsorted(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCachedUnsorted(this, node, value, cache);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicySorted, OPT> const& container, int value) const

  {

    return doFilteredSliceBy(this, container, value);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicyGeneral, OPT> const& container, int value) const

  {

    return doSliceBy(this, container, value);

  }


  auto select(framework::expressions::Filter const& f) const

  {

    auto t = o2::soa::select(*this, f);

    copyIndexBindings(t);

    return t;

  }


  int isInSelectedRows(int i) const

  {

    auto locate = std::find(mSelectedRows.begin(), mSelectedRows.end(), i);

    if (locate == mSelectedRows.end()) {

      return -1;

    }

    return static_cast<int>(std::distance(mSelectedRows.begin(), locate));

  }


  void sumWithSelection(SelectionVector const& selection)

  {

    mCached = true;

    SelectionVector rowsUnion;

    std::set_union(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(rowsUnion));

    mSelectedRowsCache.clear();

    mSelectedRowsCache = rowsUnion;

    resetRanges();

  }


  void intersectWithSelection(SelectionVector const& selection)

  {

    mCached = true;

    SelectionVector intersection;

    std::set_intersection(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(intersection));

    mSelectedRowsCache.clear();

    mSelectedRowsCache = intersection;

    resetRanges();

  }


  void sumWithSelection(gsl::span<int64_t const> const& selection)

  {

    mCached = true;

    SelectionVector rowsUnion;

    std::set_union(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(rowsUnion));

    mSelectedRowsCache.clear();

    mSelectedRowsCache = rowsUnion;

    resetRanges();

  }


  void intersectWithSelection(gsl::span<int64_t const> const& selection)

  {

    mCached = true;

    SelectionVector intersection;

    std::set_intersection(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(intersection));

    mSelectedRowsCache.clear();

    mSelectedRowsCache = intersection;

    resetRanges();

  }


  bool isCached() const

  {

    return mCached;

  }


 private:

  void resetRanges()

  {

    if (mCached) {

      mSelectedRows = gsl::span{mSelectedRowsCache};

    }

    mFilteredEnd.reset(new RowViewSentinel{static_cast<int64_t>(mSelectedRows.size())});

    if (tableSize() == 0) {

      mFilteredBegin = *mFilteredEnd;

    } else {

      mFilteredBegin.resetSelection(mSelectedRows);

    }

  }


  gsl::span<int64_t const> mSelectedRows;

  SelectionVector mSelectedRowsCache;

  bool mCached = false;

  iterator mFilteredBegin;

  std::shared_ptr<RowViewSentinel> mFilteredEnd;

};


template <typename T>


class Filtered : public FilteredBase<T>

{

 public:

  using base_t = T;

  using self_t = Filtered<T>;

  using table_t = typename T::table_t;

  using columns_t = typename T::columns_t;


  using iterator = T::template iterator_template_o<FilteredIndexPolicy, self_t>;

  using unfiltered_iterator = T::template iterator_template_o<DefaultIndexPolicy, self_t>;

  using const_iterator = iterator;


  iterator begin()

  {

    return iterator(this->cached_begin());

  }


  const_iterator begin() const

  {

    return const_iterator(this->cached_begin());

  }


  Filtered(std::vector<std::shared_ptr<arrow::Table>>&& tables, gandiva::Selection const& selection, uint64_t offset = 0)

    : FilteredBase<T>(std::move(tables), selection, offset) {}


  Filtered(std::vector<std::shared_ptr<arrow::Table>>&& tables, SelectionVector&& selection, uint64_t offset = 0)

    : FilteredBase<T>(std::move(tables), std::forward<SelectionVector>(selection), offset) {}


  Filtered(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const> const& selection, uint64_t offset = 0)

    : FilteredBase<T>(std::move(tables), selection, offset) {}


  Filtered<T> operator+(SelectionVector const& selection)

  {

    Filtered<T> copy(*this);

    copy.sumWithSelection(selection);

    return copy;

  }


  Filtered<T> operator+(gsl::span<int64_t const> const& selection)

  {

    Filtered<T> copy(*this);

    copy.sumWithSelection(selection);

    return copy;

  }


  Filtered<T> operator+(Filtered<T> const& other)

  {

    return operator+(other.getSelectedRows());

  }


  Filtered<T> operator+=(SelectionVector const& selection)

  {

    this->sumWithSelection(selection);

    return *this;

  }


  Filtered<T> operator+=(gsl::span<int64_t const> const& selection)

  {

    this->sumWithSelection(selection);

    return *this;

  }


  Filtered<T> operator+=(Filtered<T> const& other)

  {

    return operator+=(other.getSelectedRows());

  }


  Filtered<T> operator*(SelectionVector const& selection)

  {

    Filtered<T> copy(*this);

    copy.intersectWithSelection(selection);

    return copy;

  }


  Filtered<T> operator*(gsl::span<int64_t const> const& selection)

  {

    Filtered<T> copy(*this);

    copy.intersectWithSelection(selection);

    return copy;

  }


  Filtered<T> operator*(Filtered<T> const& other)

  {

    return operator*(other.getSelectedRows());

  }


  Filtered<T> operator*=(SelectionVector const& selection)

  {

    this->intersectWithSelection(selection);

    return *this;

  }


  Filtered<T> operator*=(gsl::span<int64_t const> const& selection)

  {

    this->intersectWithSelection(selection);

    return *this;

  }


  Filtered<T> operator*=(Filtered<T> const& other)

  {

    return operator*=(other.getSelectedRows());

  }


  unfiltered_iterator rawIteratorAt(uint64_t i) const

  {

    auto it = unfiltered_iterator{this->cached_begin()};

    it.setCursor(i);

    return it;

  }


  using FilteredBase<T>::getSelectedRows;


  auto rawSlice(uint64_t start, uint64_t end) const

  {

    SelectionVector newSelection;

    newSelection.resize(static_cast<int64_t>(end - start + 1));

    std::iota(newSelection.begin(), newSelection.end(), start);

    return self_t{{this->asArrowTable()}, std::move(newSelection), 0};

  }


  auto emptySlice() const

  {

    return self_t{{this->asArrowTable()}, SelectionVector{}, 0};

  }


  template <typename T1>


  auto rawSliceBy(o2::framework::Preslice<T1> const& container, int value) const

  {

    return (table_t)this->sliceBy(container, value);

  }


  auto sliceByCached(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doFilteredSliceByCached(this, node, value, cache);

  }


  auto sliceByCachedUnsorted(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCachedUnsorted(this, node, value, cache);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicySorted, OPT> const& container, int value) const

  {

    return doFilteredSliceBy(this, container, value);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicyGeneral, OPT> const& container, int value) const

  {

    return doSliceBy(this, container, value);

  }


  auto select(framework::expressions::Filter const& f) const

  {

    auto t = o2::soa::select(*this, f);

    copyIndexBindings(t);

    return t;

  }


};


template <typename T>


class Filtered<Filtered<T>> : public FilteredBase<typename T::table_t>

{

 public:

  using self_t = Filtered<Filtered<T>>;

  using base_t = T;

  using table_t = typename FilteredBase<typename T::table_t>::table_t;

  using columns_t = typename T::columns_t;


  using iterator = typename T::template iterator_template_o<FilteredIndexPolicy, self_t>;

  using unfiltered_iterator = typename T::template iterator_template_o<DefaultIndexPolicy, self_t>;

  using const_iterator = iterator;


  iterator begin()

  {

    return iterator(this->cached_begin());

  }


  const_iterator begin() const

  {

    return const_iterator(this->cached_begin());

  }


  Filtered(std::vector<Filtered<T>>&& tables, gandiva::Selection const& selection, uint64_t offset = 0)

    : FilteredBase<typename T::table_t>(std::move(extractTablesFromFiltered(tables)), selection, offset)

  {

    for (auto& table : tables) {

      *this *= table;

    }

  }


  Filtered(std::vector<Filtered<T>>&& tables, SelectionVector&& selection, uint64_t offset = 0)

    : FilteredBase<typename T::table_t>(std::move(extractTablesFromFiltered(tables)), std::forward<SelectionVector>(selection), offset)

  {

    for (auto& table : tables) {

      *this *= table;

    }

  }


  Filtered(std::vector<Filtered<T>>&& tables, gsl::span<int64_t const> const& selection, uint64_t offset = 0)

    : FilteredBase<typename T::table_t>(std::move(extractTablesFromFiltered(tables)), selection, offset)

  {

    for (auto& table : tables) {

      *this *= table;

    }

  }


  Filtered<Filtered<T>> operator+(SelectionVector const& selection)

  {

    Filtered<Filtered<T>> copy(*this);

    copy.sumWithSelection(selection);

    return copy;

  }


  Filtered<Filtered<T>> operator+(gsl::span<int64_t const> const& selection)

  {

    Filtered<Filtered<T>> copy(*this);

    copy.sumWithSelection(selection);

    return copy;

  }


  Filtered<Filtered<T>> operator+(Filtered<T> const& other)

  {

    return operator+(other.getSelectedRows());

  }


  Filtered<Filtered<T>> operator+=(SelectionVector const& selection)

  {

    this->sumWithSelection(selection);

    return *this;

  }


  Filtered<Filtered<T>> operator+=(gsl::span<int64_t const> const& selection)

  {

    this->sumWithSelection(selection);

    return *this;

  }


  Filtered<Filtered<T>> operator+=(Filtered<T> const& other)

  {

    return operator+=(other.getSelectedRows());

  }


  Filtered<Filtered<T>> operator*(SelectionVector const& selection)

  {

    Filtered<Filtered<T>> copy(*this);

    copy.intersectionWithSelection(selection);

    return copy;

  }


  Filtered<Filtered<T>> operator*(gsl::span<int64_t const> const& selection)

  {

    Filtered<Filtered<T>> copy(*this);

    copy.intersectionWithSelection(selection);

    return copy;

  }


  Filtered<Filtered<T>> operator*(Filtered<T> const& other)

  {

    return operator*(other.getSelectedRows());

  }


  Filtered<Filtered<T>> operator*=(SelectionVector const& selection)

  {

    this->intersectWithSelection(selection);

    return *this;

  }


  Filtered<Filtered<T>> operator*=(gsl::span<int64_t const> const& selection)

  {

    this->intersectWithSelection(selection);

    return *this;

  }


  Filtered<Filtered<T>> operator*=(Filtered<T> const& other)

  {

    return operator*=(other.getSelectedRows());

  }


  unfiltered_iterator rawIteratorAt(uint64_t i) const

  {

    auto it = unfiltered_iterator{this->cached_begin()};

    it.setCursor(i);

    return it;

  }


  auto rawSlice(uint64_t start, uint64_t end) const

  {

    SelectionVector newSelection;

    newSelection.resize(static_cast<int64_t>(end - start + 1));

    std::iota(newSelection.begin(), newSelection.end(), start);

    return self_t{{this->asArrowTable()}, std::move(newSelection), 0};

  }


  auto emptySlice() const

  {

    return self_t{{this->asArrowTable()}, SelectionVector{}, 0};

  }


  auto sliceByCached(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doFilteredSliceByCached(this, node, value, cache);

  }


  auto sliceByCachedUnsorted(framework::expressions::BindingNode const& node, int value, o2::framework::SliceCache& cache) const

  {

    return doSliceByCachedUnsorted(this, node, value, cache);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicySorted, OPT> const& container, int value) const

  {

    return doFilteredSliceBy(this, container, value);

  }


  template <typename T1, bool OPT>


  auto sliceBy(o2::framework::PresliceBase<T1, framework::PreslicePolicyGeneral, OPT> const& container, int value) const

  {

    return doSliceBy(this, container, value);

  }


 private:

  std::vector<std::shared_ptr<arrow::Table>> extractTablesFromFiltered(std::vector<Filtered<T>>& tables)

  {

    std::vector<std::shared_ptr<arrow::Table>> outTables;

    for (auto& table : tables) {

      outTables.push_back(table.asArrowTable());

    }

    return outTables;

  }

};


template <typename L, typename D, typename O, typename Key, typename H, typename... Ts>


struct IndexTable : Table<L, D, O> {

  using self_t = IndexTable<L, D, O, Key, H, Ts...>;

  using base_t = Table<L, D, O>;

  using table_t = base_t;

  using safe_base_t = Table<L, D, O>;

  using indexing_t = Key;

  using first_t = typename H::binding_t;

  using rest_t = framework::pack<typename Ts::binding_t...>;


  IndexTable(std::shared_ptr<arrow::Table> table, uint64_t offset = 0)

    : base_t{table, offset}

  {

  }


  IndexTable(std::vector<std::shared_ptr<arrow::Table>> tables, uint64_t offset = 0)

    : base_t{tables[0], offset}

  {

  }


  IndexTable(IndexTable const&) = default;

  IndexTable(IndexTable&&) = default;

  IndexTable& operator=(IndexTable const&) = default;

  IndexTable& operator=(IndexTable&&) = default;


  using iterator = typename base_t::template iterator_template_o<DefaultIndexPolicy, self_t>;

  using const_iterator = iterator;

  using filtered_iterator = typename base_t::template iterator_template_o<FilteredIndexPolicy, self_t>;

  using const_filtered_iterator = filtered_iterator;

};


template <typename T, bool APPLY>


struct SmallGroupsBase : public Filtered<T> {

  static constexpr bool applyFilters = APPLY;


  SmallGroupsBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gandiva::Selection const& selection, uint64_t offset = 0)

    : Filtered<T>(std::move(tables), selection, offset) {}


  SmallGroupsBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, SelectionVector&& selection, uint64_t offset = 0)

    : Filtered<T>(std::move(tables), std::forward<SelectionVector>(selection), offset) {}


  SmallGroupsBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const> const& selection, uint64_t offset = 0)

    : Filtered<T>(std::move(tables), selection, offset) {}


};


template <typename T>

using SmallGroups = SmallGroupsBase<T, true>;


template <typename T>

using SmallGroupsUnfiltered = SmallGroupsBase<T, false>;


template <typename T>


concept is_smallgroups = requires {

  []<typename B, bool A>(SmallGroupsBase<B, A>*) {}(std::declval<T*>());

};


} // namespace o2::soa


#endif // O2_FRAMEWORK_ASOA_H_

O2HASH
#define O2HASH(_Str_)
Pre-declare Hash specialization for a generic string.
Definition ASoA.h:277

O2ORIGIN
#define O2ORIGIN(_Str_)
Pre-declare Hash specialization for an origin string.
Definition ASoA.h:285

getIndexTargets
consteval auto getIndexTargets()
SLICE.
Definition ASoA.h:2468

ArrowTableSlicingCache.h

ArrowTypes.h

Key
o2::monitoring::tags::Key Key
Definition CommonServices.cxx:78

CompilerBuiltins.h

O2_BUILTIN_UNREACHABLE
#define O2_BUILTIN_UNREACHABLE
Definition CompilerBuiltins.h:22

O2_BUILTIN_LIKELY
#define O2_BUILTIN_LIKELY(x)
Definition CompilerBuiltins.h:32

O2_BUILTIN_UNLIKELY
#define O2_BUILTIN_UNLIKELY(x)
Definition CompilerBuiltins.h:33

operator+
Hit operator+(const Hit &lhs, const Hit &rhs)
Definition Hit.cxx:46

DataHeaderHelpers.h

DataHeader.h

Expressions.h

FunctionalHelpers.h

i
int32_t i
Definition GPUCommonAlgorithm.h:436

o
bool o
Definition GPUTPCGMMerger.cxx:1477

Pack.h

pos
uint16_t pos
Definition RawData.h:3

res
uint32_t res
Definition RawData.h:0

c
uint32_t c
Definition RawData.h:2

version
uint32_t version
Definition RawData.h:8

SliceCache.h

ptr
TBranch * ptr
Definition TTreePlugin.cxx:841

Traits.h

merge
void merge(Options const &options)
Definition TreeMergerTool.cxx:162

VariantHelpers.h

key
StringRef key
Definition catch_amalgamated.cxx:4853

A
Definition A.h:16

B
Definition B.h:16

IP

R

h
Class for time synchronization of RawReader instances.

base_iterator

char

int

iterator_template_o< DefaultIndexPolicy, table_t >

o2::framework::Ts

o2::soa::C

o2::soa::ColumnIterator
Definition ASoA.h:489

o2::soa::ColumnIterator::mCurrentPos
int64_t const  * mCurrentPos
Definition ASoA.h:596

o2::soa::ColumnIterator::ColumnIterator
ColumnIterator(arrow::ChunkedArray const *column)
Definition ASoA.h:497

o2::soa::ColumnIterator::ColumnIterator
ColumnIterator(ColumnIterator< T, ChunkingPolicy > const &)=default

o2::soa::ColumnIterator::moveToEnd
void moveToEnd()
Move the iterator to the end of the column.
Definition ASoA.h:555

o2::soa::ColumnIterator::moveToPos
ColumnIterator< T > & moveToPos()
Definition ASoA.h:589

o2::soa::ColumnIterator::mCurrentChunk
int mCurrentChunk
Definition ASoA.h:600

o2::soa::ColumnIterator::ColumnIterator
ColumnIterator()=default

o2::soa::ColumnIterator::operator=
ColumnIterator< T, ChunkingPolicy > & operator=(ColumnIterator< T, ChunkingPolicy > const &)=default

o2::soa::ColumnIterator::mCurrent
unwrap_t< T > const  * mCurrent
Definition ASoA.h:595

o2::soa::ColumnIterator::mLast
unwrap_t< T > const  * mLast
Definition ASoA.h:597

o2::soa::ColumnIterator::ColumnIterator
ColumnIterator(ColumnIterator< T, ChunkingPolicy > &&)=default

o2::soa::ColumnIterator::prevChunk
void prevChunk() const
Definition ASoA.h:530

o2::soa::ColumnIterator::mColumn
arrow::ChunkedArray const  * mColumn
Definition ASoA.h:598

o2::soa::ColumnIterator::mFirstIndex
int mFirstIndex
Definition ASoA.h:599

o2::soa::ColumnIterator::operator=
ColumnIterator< T, ChunkingPolicy > & operator=(ColumnIterator< T, ChunkingPolicy > &&)=default

o2::soa::ColumnIterator::mOffset
int mOffset
Definition ASoA.h:601

o2::soa::ColumnIterator::moveToChunk
void moveToChunk(int chunk)
Definition ASoA.h:541

o2::soa::ColumnIterator::nextChunk
void nextChunk() const
Move the iterator to the next chunk.
Definition ASoA.h:519

o2::soa::FilteredBase
Definition ASoA.h:3366

o2::soa::FilteredBase::isCached
bool isCached() const
Definition ASoA.h:3606

o2::soa::FilteredBase::sliceByCachedUnsorted
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3533

o2::soa::FilteredBase::FilteredBase
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
Definition ASoA.h:3403

o2::soa::FilteredBase::tableSize
int64_t tableSize() const
Definition ASoA.h:3456

o2::soa::FilteredBase::FilteredBase
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
Definition ASoA.h:3379

o2::soa::FilteredBase::cached_begin
auto & cached_begin()
Definition ASoA.h:3436

o2::soa::FilteredBase::external_index_columns_t
typename T::external_index_columns_t external_index_columns_t
Definition ASoA.h:3373

o2::soa::FilteredBase::select
auto select(framework::expressions::Filter const &f) const
Definition ASoA.h:3550

o2::soa::FilteredBase::getSpan
static auto getSpan(gandiva::Selection const &sel)
Definition ASoA.h:3479

o2::soa::FilteredBase::size
int64_t size() const
Definition ASoA.h:3451

o2::soa::FilteredBase::iterator
T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
Definition ASoA.h:3375

o2::soa::FilteredBase::rawSliceBy
auto rawSliceBy(o2::framework::Preslice< T1 > const &container, int value) const
Definition ASoA.h:3523

o2::soa::FilteredBase::unfiltered_iterator
T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
Definition ASoA.h:3376

o2::soa::FilteredBase::copyIndexBindings
void copyIndexBindings(T1 &dest) const
Definition ASoA.h:3517

o2::soa::FilteredBase::getSelectedRows
auto const & getSelectedRows() const
Definition ASoA.h:3461

o2::soa::FilteredBase::columns_t
typename T::columns_t columns_t
Definition ASoA.h:3371

o2::soa::FilteredBase::emptySlice
auto emptySlice() const
Definition ASoA.h:3474

o2::soa::FilteredBase::bindExternalIndices
void bindExternalIndices(TA *... current)
Definition ASoA.h:3493

o2::soa::FilteredBase::sumWithSelection
void sumWithSelection(SelectionVector const &selection)
Definition ASoA.h:3566

o2::soa::FilteredBase::bindInternalIndicesTo
void bindInternalIndicesTo(I const *ptr)
Definition ASoA.h:3505

o2::soa::FilteredBase::intersectWithSelection
void intersectWithSelection(SelectionVector const &selection)
Definition ASoA.h:3576

o2::soa::FilteredBase::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
Definition ASoA.h:3545

o2::soa::FilteredBase::rawSlice
auto rawSlice(uint64_t start, uint64_t end) const
Definition ASoA.h:3466

o2::soa::FilteredBase::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
Definition ASoA.h:3539

o2::soa::FilteredBase::iteratorAt
iterator iteratorAt(uint64_t i) const
Definition ASoA.h:3446

o2::soa::FilteredBase::const_iterator
iterator const_iterator
Definition ASoA.h:3377

o2::soa::FilteredBase::table_t
typename T::table_t table_t
Definition ASoA.h:3369

o2::soa::FilteredBase::persistent_columns_t
typename T::persistent_columns_t persistent_columns_t
Definition ASoA.h:3372

o2::soa::FilteredBase::end
RowViewSentinel end() const
Definition ASoA.h:3431

o2::soa::FilteredBase::intersectWithSelection
void intersectWithSelection(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3596

o2::soa::FilteredBase::FilteredBase
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
Definition ASoA.h:3390

o2::soa::FilteredBase::bindExternalIndicesRaw
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
Definition ASoA.h:3499

o2::soa::FilteredBase::begin
const_iterator begin() const
Definition ASoA.h:3419

o2::soa::FilteredBase::rawIteratorAt
unfiltered_iterator rawIteratorAt(uint64_t i) const
Definition ASoA.h:3424

o2::soa::FilteredBase::isInSelectedRows
int isInSelectedRows(int i) const
Definition ASoA.h:3557

o2::soa::FilteredBase::sliceByCached
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3528

o2::soa::FilteredBase::doCopyIndexBindings
void doCopyIndexBindings(framework::pack< Cs... >, T1 &dest) const
Definition ASoA.h:3511

o2::soa::FilteredBase::sumWithSelection
void sumWithSelection(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3586

o2::soa::FilteredBase::begin
iterator begin()
Definition ASoA.h:3414

o2::soa::FilteredBase::cached_begin
auto const & cached_begin() const
Definition ASoA.h:3441

o2::soa::Filtered< Filtered< T > >
Definition ASoA.h:3796

o2::soa::Filtered< Filtered< T > >::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
Definition ASoA.h:3944

o2::soa::Filtered< Filtered< T > >::base_t
T base_t
Definition ASoA.h:3799

o2::soa::Filtered< Filtered< T > >::table_t
typename FilteredBase< typename T::table_t >::table_t table_t
Definition ASoA.h:3800

o2::soa::Filtered< Filtered< T > >::operator+=
Filtered< Filtered< T > > operator+=(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3866

o2::soa::Filtered< Filtered< T > >::unfiltered_iterator
typename T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
Definition ASoA.h:3804

o2::soa::Filtered< Filtered< T > >::operator+
Filtered< Filtered< T > > operator+(SelectionVector const &selection)
Definition ASoA.h:3841

o2::soa::Filtered< Filtered< T > >::const_iterator
iterator const_iterator
Definition ASoA.h:3805

o2::soa::Filtered< Filtered< T > >::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
Definition ASoA.h:3950

o2::soa::Filtered< Filtered< T > >::operator*
Filtered< Filtered< T > > operator*(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3884

o2::soa::Filtered< Filtered< T > >::iterator
typename T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
Definition ASoA.h:3803

o2::soa::Filtered< Filtered< T > >::columns_t
typename T::columns_t columns_t
Definition ASoA.h:3801

o2::soa::Filtered< Filtered< T > >::emptySlice
auto emptySlice() const
Definition ASoA.h:3928

o2::soa::Filtered< Filtered< T > >::begin
const_iterator begin() const
Definition ASoA.h:3812

o2::soa::Filtered< Filtered< T > >::begin
iterator begin()
Definition ASoA.h:3807

o2::soa::Filtered< Filtered< T > >::Filtered
Filtered(std::vector< Filtered< T > > &&tables, SelectionVector &&selection, uint64_t offset=0)
Definition ASoA.h:3825

o2::soa::Filtered< Filtered< T > >::rawIteratorAt
unfiltered_iterator rawIteratorAt(uint64_t i) const
Definition ASoA.h:3913

o2::soa::Filtered< Filtered< T > >::operator+=
Filtered< Filtered< T > > operator+=(Filtered< T > const &other)
Definition ASoA.h:3872

o2::soa::Filtered< Filtered< T > >::operator+=
Filtered< Filtered< T > > operator+=(SelectionVector const &selection)
Definition ASoA.h:3860

o2::soa::Filtered< Filtered< T > >::operator*=
Filtered< Filtered< T > > operator*=(SelectionVector const &selection)
Definition ASoA.h:3896

o2::soa::Filtered< Filtered< T > >::rawSlice
auto rawSlice(uint64_t start, uint64_t end) const
Definition ASoA.h:3920

o2::soa::Filtered< Filtered< T > >::operator+
Filtered< Filtered< T > > operator+(Filtered< T > const &other)
Definition ASoA.h:3855

o2::soa::Filtered< Filtered< T > >::Filtered
Filtered(std::vector< Filtered< T > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
Definition ASoA.h:3817

o2::soa::Filtered< Filtered< T > >::operator*=
Filtered< Filtered< T > > operator*=(Filtered< T > const &other)
Definition ASoA.h:3908

o2::soa::Filtered< Filtered< T > >::sliceByCached
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3933

o2::soa::Filtered< Filtered< T > >::operator*=
Filtered< Filtered< T > > operator*=(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3902

o2::soa::Filtered< Filtered< T > >::operator*
Filtered< Filtered< T > > operator*(Filtered< T > const &other)
Definition ASoA.h:3891

o2::soa::Filtered< Filtered< T > >::operator+
Filtered< Filtered< T > > operator+(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3848

o2::soa::Filtered< Filtered< T > >::operator*
Filtered< Filtered< T > > operator*(SelectionVector const &selection)
Definition ASoA.h:3877

o2::soa::Filtered< Filtered< T > >::sliceByCachedUnsorted
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3938

o2::soa::Filtered< Filtered< T > >::Filtered
Filtered(std::vector< Filtered< T > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
Definition ASoA.h:3833

o2::soa::Filtered
Definition ASoA.h:3634

o2::soa::Filtered::operator+=
Filtered< T > operator+=(Filtered< T > const &other)
Definition ASoA.h:3695

o2::soa::Filtered::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
Definition ASoA.h:3781

o2::soa::Filtered::Filtered
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
Definition ASoA.h:3658

o2::soa::Filtered::const_iterator
iterator const_iterator
Definition ASoA.h:3643

o2::soa::Filtered::Filtered
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
Definition ASoA.h:3661

o2::soa::Filtered::begin
iterator begin()
Definition ASoA.h:3645

o2::soa::Filtered::sliceByCachedUnsorted
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3769

o2::soa::Filtered::operator+
Filtered< T > operator+(Filtered< T > const &other)
Definition ASoA.h:3678

o2::soa::Filtered::operator*=
Filtered< T > operator*=(SelectionVector const &selection)
Definition ASoA.h:3719

o2::soa::Filtered::emptySlice
auto emptySlice() const
Definition ASoA.h:3753

o2::soa::Filtered::begin
const_iterator begin() const
Definition ASoA.h:3650

o2::soa::Filtered::iterator
T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
Definition ASoA.h:3641

o2::soa::Filtered::sliceByCached
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3764

o2::soa::Filtered::select
auto select(framework::expressions::Filter const &f) const
Definition ASoA.h:3786

o2::soa::Filtered::operator+
Filtered< T > operator+(SelectionVector const &selection)
Definition ASoA.h:3664

o2::soa::Filtered::operator*
Filtered< T > operator*(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3707

o2::soa::Filtered::unfiltered_iterator
T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
Definition ASoA.h:3642

o2::soa::Filtered::rawIteratorAt
unfiltered_iterator rawIteratorAt(uint64_t i) const
Definition ASoA.h:3736

o2::soa::Filtered::operator*
Filtered< T > operator*(SelectionVector const &selection)
Definition ASoA.h:3700

o2::soa::Filtered::operator*=
Filtered< T > operator*=(Filtered< T > const &other)
Definition ASoA.h:3731

o2::soa::Filtered::operator*
Filtered< T > operator*(Filtered< T > const &other)
Definition ASoA.h:3714

o2::soa::Filtered::rawSliceBy
auto rawSliceBy(o2::framework::Preslice< T1 > const &container, int value) const
Definition ASoA.h:3759

o2::soa::Filtered::base_t
T base_t
Definition ASoA.h:3636

o2::soa::Filtered::operator+=
Filtered< T > operator+=(SelectionVector const &selection)
Definition ASoA.h:3683

o2::soa::Filtered::operator*=
Filtered< T > operator*=(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3725

o2::soa::Filtered::operator+
Filtered< T > operator+(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3671

o2::soa::Filtered::operator+=
Filtered< T > operator+=(gsl::span< int64_t const > const &selection)
Definition ASoA.h:3689

o2::soa::Filtered::rawSlice
auto rawSlice(uint64_t start, uint64_t end) const
Definition ASoA.h:3745

o2::soa::Filtered::Filtered
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
Definition ASoA.h:3655

o2::soa::Filtered::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
Definition ASoA.h:3775

o2::soa::Filtered::table_t
typename T::table_t table_t
Definition ASoA.h:3638

o2::soa::Filtered::columns_t
typename T::columns_t columns_t
Definition ASoA.h:3639

o2::soa::Table
Definition ASoA.h:1682

o2::soa::Table::internal_index_columns_t
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_self_index_t, C... > {}(columns_t{})) internal_index_columns_t
Definition ASoA.h:1727

o2::soa::Table::bindInternalIndicesExplicit
void bindInternalIndicesExplicit(o2::soa::Binding binding)
Definition ASoA.h:2054

o2::soa::Table::cached_begin
auto & cached_begin()
Definition ASoA.h:1968

o2::soa::Table::iteratorAt
iterator iteratorAt(uint64_t i) const
Definition ASoA.h:1997

o2::soa::Table::persistent_columns_t
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_persistent_column_t, C... > {}(columns_t{})) persistent_columns_t
Definition ASoA.h:1723

o2::soa::Table::ref
static constexpr const auto ref
Definition ASoA.h:1684

o2::soa::Table::offset
auto offset() const
Return offset.
Definition ASoA.h:2025

o2::soa::Table::hasOriginal
static consteval bool hasOriginal()
Definition ASoA.h:1716

o2::soa::Table::begin
unfiltered_iterator begin()
Definition ASoA.h:1978

o2::soa::Table::tableSize
int64_t tableSize() const
Definition ASoA.h:2035

o2::soa::Table::rawSlice
auto rawSlice(uint64_t start, uint64_t end) const
Definition ASoA.h:2105

o2::soa::Table::bindExternalIndices
void bindExternalIndices(TA *... current)
Definition ASoA.h:2043

o2::soa::Table::select
auto select(framework::expressions::Filter const &f) const
Definition ASoA.h:2082

o2::soa::Table::unfiltered_const_iterator
unfiltered_iterator unfiltered_const_iterator
Definition ASoA.h:1909

o2::soa::Table::full_iter
static consteval auto full_iter()
Definition ASoA.h:1888

o2::soa::Table::cached_begin
auto const & cached_begin() const
Definition ASoA.h:1973

o2::soa::Table::emptySlice
auto emptySlice() const
Definition ASoA.h:2110

o2::soa::Table::sliceByCachedUnsorted
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:2094

o2::soa::Table< o2::aod::Hash<"JOIN"_h >, D, o2::aod::Hash<"JOIN"_h >, Ts... >::iterator_template
TableIteratorBase< IP, Parent, T... > iterator_template
Definition ASoA.h:1885

o2::soa::Table::bindExternalIndicesRaw
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
Definition ASoA.h:2065

o2::soa::Table::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, Policy, OPT > const &container, int value) const
Definition ASoA.h:2100

o2::soa::Table::hashes
static constexpr auto hashes()
Definition ASoA.h:1911

o2::soa::Table::unfiltered_iterator
iterator unfiltered_iterator
Definition ASoA.h:1907

o2::soa::Table::asArrowTable
std::shared_ptr< arrow::Table > asArrowTable() const
Return a type erased arrow table backing store for / the type safe table.
Definition ASoA.h:2020

o2::soa::Table::doCopyIndexBindings
void doCopyIndexBindings(framework::pack< Cs... >, T &dest) const
Definition ASoA.h:2071

o2::soa::Table::size
int64_t size() const
Size of the table, in rows.
Definition ASoA.h:2030

o2::soa::Table::Table
Table(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
Definition ASoA.h:1942

o2::soa::Table::columns_t
decltype(getColumns< ref, Ts... >()) columns_t
Definition ASoA.h:1721

o2::soa::Table::getIndexToKey
arrow::ChunkedArray * getIndexToKey()
Definition ASoA.h:1949

o2::soa::Table::end
RowViewSentinel end()
Definition ASoA.h:1983

o2::soa::Table::column_types
decltype([]< typename... C >(framework::pack< C... >) -> framework::pack< typename C::type... > {}(persistent_columns_t{})) column_types
Definition ASoA.h:1724

o2::soa::Table::isIndexTargetOf
static consteval auto isIndexTargetOf()
Definition ASoA.h:1693

o2::soa::Table::filtered_iterator
iterator_template_o< FilteredIndexPolicy, table_t > filtered_iterator
Definition ASoA.h:1905

o2::soa::Table::begin
unfiltered_const_iterator begin() const
Definition ASoA.h:2009

o2::soa::Table::copyIndexBindings
void copyIndexBindings(T &dest) const
Definition ASoA.h:2077

o2::soa::Table::originalLabels
static constexpr const auto originalLabels
Definition ASoA.h:1689

o2::soa::Table::Table
Table(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
Definition ASoA.h:1936

o2::soa::Table::self_t
Table< L, D, O, Ts... > self_t
Definition ASoA.h:1685

o2::soa::Table::isIndexTargetOf
static consteval auto isIndexTargetOf()
Definition ASoA.h:1700

o2::soa::Table::iterator_template_o
decltype(full_iter< IP, Parent >()) iterator_template_o
Definition ASoA.h:1902

o2::soa::Table::doBindInternalIndicesExplicit
void doBindInternalIndicesExplicit(framework::pack< Cs... >, o2::soa::Binding binding)
Definition ASoA.h:2060

o2::soa::Table::originals
static constexpr const auto originals
Definition ASoA.h:1688

o2::soa::Table::external_index_columns_t
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_external_index_t, C... > {}(columns_t{})) external_index_columns_t
Definition ASoA.h:1726

o2::soa::Table::Table
Table(std::shared_ptr< arrow::Table > table, uint64_t offset=0)
Definition ASoA.h:1916

o2::soa::Table::end
RowViewSentinel end() const
Definition ASoA.h:2014

o2::soa::Table::sliceByCached
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:2089

o2::soa::Table::bindInternalIndicesTo
void bindInternalIndicesTo(I const *ptr)
Definition ASoA.h:2049

o2::soa::Table::rawIteratorAt
unfiltered_iterator rawIteratorAt(uint64_t i) const
Definition ASoA.h:2002

o2::soa::Table::filtered_begin
filtered_iterator filtered_begin(gsl::span< int64_t const > selection)
Definition ASoA.h:1988

o2::soa::Table::iterator
iterator_template_o< DefaultIndexPolicy, table_t > iterator
Definition ASoA.h:1904

o2::aod::is_aod_hash
hash identification concepts
Definition ASoA.h:364

o2::aod::is_origin_hash
Definition ASoA.h:367

o2::framework::base_of_template
Definition Traits.h:53

o2::framework::is_preslice
Definition ASoA.h:1469

o2::framework::specialization_of_template
Definition Traits.h:35

o2::soa::can_bind
Definition ASoA.h:1038

o2::soa::has_configurable_extension
Definition ASoA.h:430

o2::soa::has_extension
Definition ASoA.h:427

o2::soa::has_filtered_policy
Definition ASoA.h:1481

o2::soa::has_index
Definition ASoA.h:1043

o2::soa::has_metadata
Definition ASoA.h:424

o2::soa::has_parent_t
Definition ASoA.h:415

o2::soa::is_column
Definition ASoA.h:824

o2::soa::is_dynamic_column
Definition ASoA.h:813

o2::soa::is_filtered_iterator
Definition ASoA.h:1484

o2::soa::is_filtered_table
Definition ASoA.h:1487

o2::soa::is_filtered
Definition ASoA.h:1494

o2::soa::is_index_column
Definition ASoA.h:198

o2::soa::is_index_table
Definition ASoA.h:1298

o2::soa::is_indexing_column
Definition ASoA.h:807

o2::soa::is_iterator
Helper to check if a type T is an iterator.
Definition ASoA.h:1257

o2::soa::is_join
Definition ASoA.h:3321

o2::soa::is_marker_column
Definition ASoA.h:818

o2::soa::is_metadata_trait
Definition ASoA.h:421

o2::soa::is_metadata
Definition ASoA.h:418

o2::soa::is_not_filtered_table
Definition ASoA.h:1497

o2::soa::is_persistent_column
column identification concepts
Definition ASoA.h:186

o2::soa::is_self_index_column
Definition ASoA.h:195

o2::soa::is_smallgroups
Definition ASoA.h:4022

o2::soa::is_spawnable_column
Definition ASoA.h:433

o2::soa::is_table
Definition ASoA.h:1027

o2::soa::not_void
Definition ASoA.h:182

o2::soa::row_helpers::@4696::dynamic_with_common_getter
Definition ASoA.h:2201

o2::soa::row_helpers::@4696::persistent_with_common_getter
Definition ASoA.h:2209

o2::soa::with_base_table
Definition ASoA.h:1270

o2::soa::with_originals
Definition ASoA.h:1260

o2::soa::with_sources
Definition ASoA.h:1265

x
GLint GLenum GLint x
Definition glcorearb.h:403

func
GLenum func
Definition glcorearb.h:778

count
GLint GLsizei count
Definition glcorearb.h:399

size
GLsizeiptr size
Definition glcorearb.h:659

offsets
GLuint GLsizei const GLuint const GLintptr * offsets
Definition glcorearb.h:2595

end
GLuint GLuint end
Definition glcorearb.h:469

array
GLenum array
Definition glcorearb.h:4274

index
GLuint index
Definition glcorearb.h:781

name
GLuint const GLchar * name
Definition glcorearb.h:781

f
GLdouble f
Definition glcorearb.h:310

b
GLboolean GLboolean GLboolean b
Definition glcorearb.h:1233

value
GLsizei const GLfloat * value
Definition glcorearb.h:819

target
GLenum target
Definition glcorearb.h:1641

type
GLint GLint GLsizei GLint GLenum GLenum type
Definition glcorearb.h:275

data
GLboolean * data
Definition glcorearb.h:298

offset
GLintptr offset
Definition glcorearb.h:660

length
GLuint GLsizei GLsizei * length
Definition glcorearb.h:790

label
GLuint GLsizei const GLchar * label
Definition glcorearb.h:2519

indices
GLsizei GLenum const void * indices
Definition glcorearb.h:400

void
typedef void(APIENTRYP PFNGLCULLFACEPROC)(GLenum mode)

r
GLboolean r
Definition glcorearb.h:1233

start
GLuint start
Definition glcorearb.h:469

len
GLenum GLenum GLsizei len
Definition glcorearb.h:4232

a
GLboolean GLboolean GLboolean GLboolean a
Definition glcorearb.h:1233

ref
GLint ref
Definition glcorearb.h:291

arrow
Definition DataAllocator.h:47

framework
Definition BunchFilling.h:113

gandiva::Selection
std::shared_ptr< gandiva::SelectionVector > Selection
Definition Expressions.h:46

o2::aod
Definition AnalysisDataModel.h:32

o2::aod::origin_str
consteval const char * origin_str()
Definition ASoA.h:345

o2::aod::signature
consteval const char * signature()
Definition ASoA.h:357

o2::aod::filterForKey
consteval auto filterForKey()
Filter TableRef array for compatibility with Key table.
Definition ASoA.h:265

o2::aod::label
consteval const char * label()
Definition ASoA.h:339

o2::aod::origin
consteval header::DataOrigin origin()
Definition ASoA.h:351

o2::framework::expressions::concreteArrowType
std::shared_ptr< arrow::DataType > concreteArrowType(atype::type type)
Definition Expressions.cxx:132

o2::framework::expressions::createSelection
gandiva::Selection createSelection(std::shared_ptr< arrow::Table > const &table, Filter const &expression)
Function for creating gandiva selection from our internal filter tree.
Definition Expressions.cxx:521

o2::framework
Defining PrimaryVertex explicitly as messageable.
Definition TFIDInfo.h:20

o2::framework::selected_pack_multicondition
std::decay_t< decltype(select_pack< Condition >(pack<>{}, Pack{}, CondPack{}))> selected_pack_multicondition
Definition Pack.h:181

o2::framework::selected_pack
std::decay_t< decltype(prune_voids_pack(pack<>{}, with_condition_pack< Condition, Types... >{}))> selected_pack
Definition Pack.h:179

o2::framework::ChannelConfigParserState::END
@ END

o2::framework::full_intersected_pack_t
decltype(intersected_pack(Ps{}...)) full_intersected_pack_t
Definition Pack.h:283

o2::framework::pack_element_t
typename pack_element< I, T >::type pack_element_t
Definition Pack.h:56

o2::framework::has_type_at_v
consteval size_t has_type_at_v(pack< Ts... >)
Definition Pack.h:228

o2::framework::pack_size
constexpr std::size_t pack_size(pack< Ts... > const &)
template function to determine number of types in a pack
Definition Pack.h:28

o2::framework::concatenated_pack_unique_t
decltype(concatenate_pack_unique(Ps{}...)) concatenated_pack_unique_t
Definition Pack.h:319

o2::framework::strToUpper
std::string strToUpper(std::string &&str)
Definition ASoA.cxx:186

o2::framework::pack_head_t
typename pack_element< 0, T >::type pack_head_t
Definition Pack.h:59

o2::framework::cutString
std::string cutString(std::string &&str)
Definition ASoA.cxx:177

o2::framework::ListVector
std::vector< std::vector< int64_t > > ListVector
Definition ArrowTableSlicingCache.h:21

o2::header::DataDescription
Descriptor< gSizeDataDescriptionString > DataDescription
Definition DataHeader.h:551

o2::math_utils::detail::D
D
Definition SMatrixGPU.h:749

o2::math_utils::detail::T
T
Definition SMatrixGPU.h:749

o2::soa::row_helpers::getChunks
std::array< std::shared_ptr< arrow::Array >, sizeof...(Cs)> getChunks(arrow::Table *table, framework::pack< Cs... >, uint64_t ci)
Definition ASoA.h:2149

o2::soa::row_helpers::getColumnGetterByLabel
ColumnGetterFunction< R, typename T::iterator > getColumnGetterByLabel(const std::string_view &targetColumnLabel)
Definition ASoA.h:2257

o2::soa::row_helpers::getArrowColumns
std::array< arrow::ChunkedArray *, sizeof...(Cs)> getArrowColumns(arrow::Table *table, framework::pack< Cs... >)
Definition ASoA.h:2143

o2::soa::row_helpers::getRowData
std::tuple< typename Cs::type... > getRowData(arrow::Table *table, T rowIterator, uint64_t ci=std::numeric_limits< uint64_t >::max(), uint64_t ai=std::numeric_limits< uint64_t >::max(), uint64_t globalIndex=std::numeric_limits< uint64_t >::max())
Definition ASoA.h:2184

o2::soa::row_helpers::getSingleRowData
C::type getSingleRowData(arrow::Table *table, T &rowIterator, uint64_t ci=std::numeric_limits< uint64_t >::max(), uint64_t ai=std::numeric_limits< uint64_t >::max(), uint64_t globalIndex=std::numeric_limits< uint64_t >::max())
Definition ASoA.h:2155

o2::soa
Definition AnalysisDataModel.h:68

o2::soa::computeOriginals
consteval auto computeOriginals()
Definition ASoA.h:1666

o2::soa::createFieldsFromColumns
auto createFieldsFromColumns(framework::pack< C... >)
Definition ASoA.h:407

o2::soa::selectionToVector
SelectionVector selectionToVector(gandiva::Selection const &sel)
Definition ASoA.cxx:43

o2::soa::is_persistent_v
constexpr bool is_persistent_v
Definition ASoA.h:189

o2::soa::is_ng_index_equivalent_v
constexpr bool is_ng_index_equivalent_v
Definition ASoA.h:449

o2::soa::remove_if
consteval auto remove_if(L l)
Definition ASoA.h:127

o2::soa::join
constexpr auto join(Ts const &... t)
Definition ASoA.h:3315

o2::soa::doSliceBy
auto doSliceBy(T const *table, o2::framework::PresliceBase< C, Policy, OPT > const &container, int value)
Definition ASoA.h:1510

o2::soa::sliceSelection
SelectionVector sliceSelection(gsl::span< int64_t const > const &mSelectedRows, int64_t nrows, uint64_t offset)
Definition ASoA.cxx:53

o2::soa::notBoundTable
void notBoundTable(const char *tableName)
Definition ASoA.cxx:158

o2::soa::doFilteredSliceBy
auto doFilteredSliceBy(T const *table, o2::framework::PresliceBase< C, framework::PreslicePolicySorted, OPT > const &container, int value)
Definition ASoA.h:1576

o2::soa::concat
constexpr auto concat(Ts const &... t)
Definition ASoA.h:3359

o2::soa::intersectOriginals
consteval auto intersectOriginals()
Definition ASoA.h:162

o2::soa::getColumns
consteval auto getColumns()
Definition ASoA.h:1638

o2::soa::SelectionVector
std::vector< int64_t > SelectionVector
Definition ASoA.h:412

o2::soa::is_binding_compatible
std::conditional_t< is_binding_compatible_v< T, typename B::binding_t >(), std::true_type, std::false_type > is_binding_compatible
Definition ASoA.h:1292

o2::soa::mergeOriginals
consteval auto mergeOriginals()
Definition ASoA.h:145

o2::soa::is_soa_filtered_v
constexpr bool is_soa_filtered_v
Definition ASoA.h:1491

o2::soa::is_external_index_t
typename std::conditional_t< is_index_column< C >, std::true_type, std::false_type > is_external_index_t
Definition ASoA.h:204

o2::soa::missingFilterDeclaration
void missingFilterDeclaration(int hash, int ai)
Definition ASoA.cxx:28

o2::soa::doSliceByCachedUnsorted
auto doSliceByCachedUnsorted(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
Definition ASoA.h:1608

o2::soa::doSliceByCached
auto doSliceByCached(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
Definition ASoA.h:1589

o2::soa::accessingInvalidIndexFor
void accessingInvalidIndexFor(const char *getter)
Definition ASoA.cxx:20

o2::soa::select
auto select(T const &t, framework::expressions::Filter const &f)
Definition ASoA.h:1624

o2::soa::base_iter
consteval auto base_iter(framework::pack< C... > &&) -> TableIterator< D, O, IP, C... >
Definition ASoA.h:1632

o2::soa::is_index_equivalent_v
constexpr bool is_index_equivalent_v
Definition ASoA.h:446

o2::soa::is_soa_join_v
constexpr bool is_soa_join_v
Definition ASoA.h:3324

o2::soa::dereferenceWithWrongType
void dereferenceWithWrongType(const char *getter, const char *target)
Definition ASoA.cxx:24

o2::soa::is_indexing_t
std::conditional_t< is_indexing_column< T >, std::true_type, std::false_type > is_indexing_t
Definition ASoA.h:827

o2::soa::doSliceByHelper
auto doSliceByHelper(T const *table, gsl::span< const int64_t > const &selection)
Definition ASoA.h:1526

o2::soa::is_binding_compatible_v
consteval bool is_binding_compatible_v()
Definition ASoA.h:1286

o2::soa::prepareFilteredSlice
auto prepareFilteredSlice(T const *table, std::shared_ptr< arrow::Table > slice, uint64_t offset)
Definition ASoA.h:1561

o2::soa::emptyColumnLabel
void emptyColumnLabel()
Definition ASoA.cxx:38

o2::soa::unwrap_t
typename unwrap< T >::type unwrap_t
Definition ASoA.h:481

o2::soa::getterNotFound
void getterNotFound(const char *targetColumnLabel)
Definition ASoA.cxx:33

o2::soa::doFilteredSliceByCached
auto doFilteredSliceByCached(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
Definition ASoA.h:1599

o2::soa::missingOptionalPreslice
void missingOptionalPreslice(const char *label, const char *key)
Definition ASoA.cxx:168

o2::soa::is_compatible
consteval bool is_compatible()
Definition ASoA.h:1273

o2::soa::getIndexFromLabel
arrow::ChunkedArray * getIndexFromLabel(arrow::Table *table, std::string_view label)
Definition ASoA.cxx:137

o2::soa::merge
consteval auto merge()
Helpers to manipulate TableRef arrays.
Definition ASoA.h:104

o2::soa::merge_if
consteval auto merge_if(L l)
Definition ASoA.h:115

o2::soa::is_persistent_column_t
std::conditional_t< is_persistent_column< C >, std::true_type, std::false_type > is_persistent_column_t
Definition ASoA.h:192

o2::soa::arrow_array_for_t
typename arrow_array_for< T >::type arrow_array_for_t
Definition ArrowTypes.h:112

o2::soa::notFoundColumn
void notFoundColumn(const char *label, const char *key)
Definition ASoA.cxx:163

o2::soa::is_dynamic_t
std::conditional_t< is_dynamic_column< T >, std::true_type, std::false_type > is_dynamic_t
Definition ASoA.h:821

o2::soa::is_self_index_t
typename std::conditional_t< is_self_index_column< C >, std::true_type, std::false_type > is_self_index_t
Definition ASoA.h:207

std
Defining DataPointCompositeObject explicitly as copiable.
Definition CcdbObjectInfo.h:121

test
FIXME: do not use data model tables.
Definition benchmark_ASoAHelpers.cxx:26

P
Definition test_Concepts.cxx:27

list
Definition list.h:40

o2::aod::Hash
Definition ASoA.h:258

o2::aod::Hash::hash
static constexpr uint32_t hash
Definition ASoA.h:259

o2::aod::Hash::str
static constexpr char const  *const str
Definition ASoA.h:260

o2::aod::MetadataTrait
Definition ASoA.h:251

o2::aod::MetadataTrait::metadata
void metadata
Definition ASoA.h:252

o2::aod::TableMetadata
Base type for table metadata.
Definition ASoA.h:214

o2::aod::TableMetadata::getIndexPosToKey
static consteval int getIndexPosToKey()
Definition ASoA.h:233

o2::aod::TableMetadata::getIndexPosToKey_impl
static consteval int getIndexPosToKey_impl()
Definition ASoA.h:239

o2::aod::TableMetadata::internal_index_columns_t
framework::selected_pack< soa::is_self_index_t, Cs... > internal_index_columns_t
Definition ASoA.h:218

o2::aod::TableMetadata::persistent_columns_t
framework::selected_pack< soa::is_persistent_column_t, Cs... > persistent_columns_t
Definition ASoA.h:216

o2::aod::TableMetadata::external_index_columns_t
framework::selected_pack< soa::is_external_index_t, Cs... > external_index_columns_t
Definition ASoA.h:217

o2::aod::TableMetadata::getMap
static consteval std::array< bool, sizeof...(PCs)> getMap(framework::pack< PCs... >)
Definition ASoA.h:221

o2::framework::ArrowTableSlicingCache::getCacheUnsortedFor
SliceInfoUnsortedPtr getCacheUnsortedFor(Entry const &bindingKey) const
Definition ArrowTableSlicingCache.cxx:207

o2::framework::ArrowTableSlicingCache::getCacheFor
SliceInfoPtr getCacheFor(Entry const &bindingKey) const
Definition ArrowTableSlicingCache.cxx:194

o2::framework::Entry
Definition ArrowTableSlicingCache.h:37

o2::framework::PresliceBase
Definition ASoA.h:1427

o2::framework::PresliceBase::getSliceFor
std::shared_ptr< arrow::Table > getSliceFor(int value, std::shared_ptr< arrow::Table > const &input, uint64_t &offset) const
Definition ASoA.h:1438

o2::framework::PresliceBase::optional
static constexpr bool optional
Definition ASoA.h:1428

o2::framework::PresliceBase::PresliceBase
PresliceBase(expressions::BindingNode index_)
Definition ASoA.h:1433

o2::framework::PresliceBase::getSliceFor
gsl::span< const int64_t > getSliceFor(int value) const
Definition ASoA.h:1448

o2::framework::PresliceBase::binding
const std::string binding
Definition ASoA.h:1431

o2::framework::PresliceBase::target_t
T target_t
Definition ASoA.h:1429

o2::framework::PresliceBase::policy_t
Policy policy_t
Definition ASoA.h:1430

o2::framework::PreslicePolicyBase
Definition ASoA.h:1404

o2::framework::PreslicePolicyBase::isMissing
bool isMissing() const
Definition ASoA.cxx:192

o2::framework::PreslicePolicyBase::bindingKey
Entry bindingKey
Definition ASoA.h:1406

o2::framework::PreslicePolicyBase::binding
const std::string binding
Definition ASoA.h:1405

o2::framework::PreslicePolicyBase::getBindingKey
Entry const & getBindingKey() const
Definition ASoA.cxx:197

o2::framework::PreslicePolicyGeneral
Definition ASoA.h:1419

o2::framework::PreslicePolicyGeneral::sliceInfo
SliceInfoUnsortedPtr sliceInfo
Definition ASoA.h:1422

o2::framework::PreslicePolicyGeneral::getSliceFor
gsl::span< const int64_t > getSliceFor(int value) const
Definition ASoA.cxx:220

o2::framework::PreslicePolicyGeneral::updateSliceInfo
void updateSliceInfo(SliceInfoUnsortedPtr &&si)
Definition ASoA.cxx:207

o2::framework::PreslicePolicySorted
Definition ASoA.h:1412

o2::framework::PreslicePolicySorted::updateSliceInfo
void updateSliceInfo(SliceInfoPtr &&si)
Definition ASoA.cxx:202

o2::framework::PreslicePolicySorted::sliceInfo
SliceInfoPtr sliceInfo
Definition ASoA.h:1415

o2::framework::PreslicePolicySorted::getSliceFor
std::shared_ptr< arrow::Table > getSliceFor(int value, std::shared_ptr< arrow::Table > const &input, uint64_t &offset) const
Definition ASoA.cxx:212

o2::framework::SliceCache
Definition SliceCache.h:21

o2::framework::SliceCache::ptr
ArrowTableSlicingCache * ptr
Definition SliceCache.h:22

o2::framework::SliceInfoPtr
Definition ArrowTableSlicingCache.h:23

o2::framework::SliceInfoPtr::getSliceFor
std::pair< int64_t, int64_t > getSliceFor(int value) const
Definition ArrowTableSlicingCache.cxx:32

o2::framework::SliceInfoUnsortedPtr
Definition ArrowTableSlicingCache.h:30

o2::framework::expressions::BindingNode
An expression tree node corresponding to a column binding.
Definition Expressions.h:126

o2::framework::expressions::BindingNode::name
const char * name
Definition Expressions.h:130

o2::framework::expressions::Filter
A struct, containing the root of the expression tree.
Definition Expressions.h:566

o2::framework::overloaded
From https://en.cppreference.com/w/cpp/utility/variant/visit.
Definition VariantHelpers.h:20

o2::framework::pack
Definition Pack.h:23

o2::header::Descriptor< gSizeDataOriginString >

o2::soa::ArrowHelpers
Definition ASoA.h:1250

o2::soa::ArrowHelpers::joinTables
static std::shared_ptr< arrow::Table > joinTables(std::vector< std::shared_ptr< arrow::Table > > &&tables, std::span< const char *const > labels)
Definition ASoA.cxx:67

o2::soa::ArrowHelpers::concatTables
static std::shared_ptr< arrow::Table > concatTables(std::vector< std::shared_ptr< arrow::Table > > &&tables)
Definition ASoA.cxx:97

o2::soa::Binding
Type-checking index column binding.
Definition ASoA.h:383

o2::soa::Binding::refs
std::span< TableRef const  > refs
Definition ASoA.h:386

o2::soa::Binding::hash
size_t hash
Definition ASoA.h:385

o2::soa::Binding::ptr
void const  * ptr
Definition ASoA.h:384

o2::soa::Binding::bind
void bind(T const *table)
Definition ASoA.h:389

o2::soa::Binding::get
T const * get() const
Definition ASoA.h:397

o2::soa::Chunked
Definition ASoA.h:454

o2::soa::Chunked::chunked
static constexpr bool chunked
Definition ASoA.h:455

o2::soa::ColumnDataHolder
Definition ASoA.h:1032

o2::soa::ColumnDataHolder::second
arrow::ChunkedArray * second
Definition ASoA.h:1034

o2::soa::ColumnDataHolder::first
C * first
Definition ASoA.h:1033

o2::soa::Column
Definition ASoA.h:655

o2::soa::Column::Column
Column(ColumnIterator< T > const &it)
Definition ASoA.h:657

o2::soa::Column::Column
Column()=default

o2::soa::Column::type
T type
Definition ASoA.h:669

o2::soa::Column::columnLabel
static constexpr const char *const & columnLabel()
Definition ASoA.h:670

o2::soa::Column::getIterator
ColumnIterator< T > const & getIterator() const
Definition ASoA.h:671

o2::soa::Column::operator=
Column & operator=(Column const &)=default

o2::soa::Column::inherited_t
INHERIT inherited_t
Definition ASoA.h:656

o2::soa::Column::Column
Column(Column &&)=default

o2::soa::Column::asArrowField
static auto asArrowField()
Definition ASoA.h:676

o2::soa::Column::operator=
Column & operator=(Column &&)=default

o2::soa::Column::Column
Column(Column const &)=default

o2::soa::Column::mColumnIterator
ColumnIterator< T > mColumnIterator
Definition ASoA.h:683

o2::soa::Concat
Definition ASoA.h:3327

o2::soa::Concat::iterator
table_t::template iterator_template< DefaultIndexPolicy, self_t, Ts... > iterator
Definition ASoA.h:3350

o2::soa::Concat::Concat
Concat(Ts const &... t, uint64_t offset=0)
Definition ASoA.h:3335

o2::soa::Concat::persistent_columns_t
typename table_t::persistent_columns_t persistent_columns_t
Definition ASoA.h:3348

o2::soa::Concat::columns_t
typename table_t::columns_t columns_t
Definition ASoA.h:3347

o2::soa::Concat::const_iterator
iterator const_iterator
Definition ASoA.h:3351

o2::soa::Concat::unfiltered_const_iterator
const_iterator unfiltered_const_iterator
Definition ASoA.h:3353

o2::soa::Concat::unfiltered_iterator
iterator unfiltered_iterator
Definition ASoA.h:3352

o2::soa::Concat::filtered_iterator
table_t::template iterator_template< FilteredIndexPolicy, self_t, Ts... > filtered_iterator
Definition ASoA.h:3354

o2::soa::Concat::Concat
Concat(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
Definition ASoA.h:3330

o2::soa::Concat::filtered_const_iterator
filtered_iterator filtered_const_iterator
Definition ASoA.h:3355

o2::soa::DefaultIndexPolicy
Definition ASoA.h:945

o2::soa::DefaultIndexPolicy::moveToEnd
void moveToEnd()
Definition ASoA.h:997

o2::soa::DefaultIndexPolicy::DefaultIndexPolicy
DefaultIndexPolicy(int64_t nRows, uint64_t offset)
Definition ASoA.h:956

o2::soa::DefaultIndexPolicy::operator==
friend bool operator==(DefaultIndexPolicy const &lh, DefaultIndexPolicy const &rh)
Definition ASoA.h:1002

o2::soa::DefaultIndexPolicy::operator==
bool operator==(RowViewSentinel const &sentinel) const
Definition ASoA.h:1007

o2::soa::DefaultIndexPolicy::mMaxRow
int64_t mMaxRow
Definition ASoA.h:1017

o2::soa::DefaultIndexPolicy::DefaultIndexPolicy
DefaultIndexPolicy(FilteredIndexPolicy const &other)
Definition ASoA.h:962

o2::soa::DefaultIndexPolicy::getOffsets
std::tuple< uint64_t const * > getOffsets() const
Definition ASoA.h:983

o2::soa::DefaultIndexPolicy::operator=
DefaultIndexPolicy & operator=(DefaultIndexPolicy &&)=default

o2::soa::DefaultIndexPolicy::setCursor
void setCursor(int64_t i)
Definition ASoA.h:988

o2::soa::DefaultIndexPolicy::size
auto size() const
Definition ASoA.h:1012

o2::soa::DefaultIndexPolicy::limitRange
void limitRange(int64_t start, int64_t end)
Definition ASoA.h:968

o2::soa::DefaultIndexPolicy::DefaultIndexPolicy
DefaultIndexPolicy(DefaultIndexPolicy &&)=default

o2::soa::DefaultIndexPolicy::DefaultIndexPolicy
DefaultIndexPolicy(DefaultIndexPolicy const &)=default

o2::soa::DefaultIndexPolicy::operator=
DefaultIndexPolicy & operator=(DefaultIndexPolicy const &)=default

o2::soa::DefaultIndexPolicy::getIndices
std::tuple< int64_t const *, int64_t const * > getIndices() const
Definition ASoA.h:977

o2::soa::DefaultIndexPolicy::DefaultIndexPolicy
DefaultIndexPolicy()=default
Needed to be able to copy the policy.

o2::soa::DefaultIndexPolicy::moveByIndex
void moveByIndex(int64_t i)
Definition ASoA.h:992

o2::soa::DynamicColumn
Definition ASoA.h:689

o2::soa::DynamicColumn::columnLabel
static constexpr const char *const & columnLabel()
Definition ASoA.h:692

o2::soa::DynamicColumn::inherited_t
INHERIT inherited_t
Definition ASoA.h:690

o2::soa::EquivalentIndexNG
Definition ASoA.h:441

o2::soa::EquivalentIndex
Definition ASoA.h:436

o2::soa::FilteredIndexPolicy
Definition ASoA.h:840

o2::soa::FilteredIndexPolicy::resetSelection
void resetSelection(gsl::span< int64_t const > selection)
Definition ASoA.h:855

o2::soa::FilteredIndexPolicy::operator=
FilteredIndexPolicy & operator=(FilteredIndexPolicy &&)=default

o2::soa::FilteredIndexPolicy::getIndices
std::tuple< int64_t const *, int64_t const * > getIndices() const
Definition ASoA.h:869

o2::soa::FilteredIndexPolicy::operator=
FilteredIndexPolicy & operator=(FilteredIndexPolicy const &)=default

o2::soa::FilteredIndexPolicy::getSelectionRow
auto getSelectionRow() const
Definition ASoA.h:919

o2::soa::FilteredIndexPolicy::FilteredIndexPolicy
FilteredIndexPolicy()=default

o2::soa::FilteredIndexPolicy::operator==
friend bool operator==(FilteredIndexPolicy const &lh, FilteredIndexPolicy const &rh)
Definition ASoA.h:900

o2::soa::FilteredIndexPolicy::moveToEnd
void moveToEnd()
Definition ASoA.h:913

o2::soa::FilteredIndexPolicy::setCursor
void setCursor(int64_t i)
Definition ASoA.h:888

o2::soa::FilteredIndexPolicy::FilteredIndexPolicy
FilteredIndexPolicy(FilteredIndexPolicy const &)=default

o2::soa::FilteredIndexPolicy::size
auto size() const
Definition ASoA.h:924

o2::soa::FilteredIndexPolicy::raw_size
auto raw_size() const
Definition ASoA.h:929

o2::soa::FilteredIndexPolicy::operator==
bool operator==(RowViewSentinel const &sentinel) const
Definition ASoA.h:905

o2::soa::FilteredIndexPolicy::getOffsets
std::tuple< uint64_t const * > getOffsets() const
Definition ASoA.h:875

o2::soa::FilteredIndexPolicy::limitRange
void limitRange(int64_t start, int64_t end)
Definition ASoA.h:880

o2::soa::FilteredIndexPolicy::FilteredIndexPolicy
FilteredIndexPolicy(gsl::span< int64_t const > selection, int64_t rows, uint64_t offset=0)
Definition ASoA.h:846

o2::soa::FilteredIndexPolicy::FilteredIndexPolicy
FilteredIndexPolicy(FilteredIndexPolicy &&)=default

o2::soa::FilteredIndexPolicy::moveByIndex
void moveByIndex(int64_t i)
Definition ASoA.h:894

o2::soa::Flat
Definition ASoA.h:460

o2::soa::Flat::chunked
static constexpr bool chunked
Definition ASoA.h:461

o2::soa::IndexColumn
Definition ASoA.h:696

o2::soa::IndexColumn::columnLabel
static constexpr const char *const & columnLabel()
Definition ASoA.h:700

o2::soa::IndexColumn::inherited_t
INHERIT inherited_t
Definition ASoA.h:697

o2::soa::IndexColumn::hash
static constexpr const uint32_t hash
Definition ASoA.h:698

o2::soa::IndexPolicyBase
Definition ASoA.h:829

o2::soa::IndexPolicyBase::mOffset
uint64_t mOffset
Offset within a larger table.
Definition ASoA.h:833

o2::soa::IndexPolicyBase::mRowIndex
int64_t mRowIndex
Position inside the current table.
Definition ASoA.h:831

o2::soa::IndexTable
Definition ASoA.h:3972

o2::soa::IndexTable::IndexTable
IndexTable(std::vector< std::shared_ptr< arrow::Table > > tables, uint64_t offset=0)
Definition ASoA.h:3986

o2::soa::IndexTable::IndexTable
IndexTable(std::shared_ptr< arrow::Table > table, uint64_t offset=0)
Definition ASoA.h:3981

o2::soa::IndexTable::iterator
typename base_t::template iterator_template_o< DefaultIndexPolicy, self_t > iterator
Definition ASoA.h:3996

o2::soa::IndexTable::const_filtered_iterator
filtered_iterator const_filtered_iterator
Definition ASoA.h:3999

o2::soa::IndexTable::IndexTable
IndexTable(IndexTable &&)=default

o2::soa::IndexTable::indexing_t
Key indexing_t
Definition ASoA.h:3977

o2::soa::IndexTable::operator=
IndexTable & operator=(IndexTable const &)=default

o2::soa::IndexTable::const_iterator
iterator const_iterator
Definition ASoA.h:3997

o2::soa::IndexTable::operator=
IndexTable & operator=(IndexTable &&)=default

o2::soa::IndexTable::first_t
typename H::binding_t first_t
Definition ASoA.h:3978

o2::soa::IndexTable::filtered_iterator
typename base_t::template iterator_template_o< FilteredIndexPolicy, self_t > filtered_iterator
Definition ASoA.h:3998

o2::soa::IndexTable::IndexTable
IndexTable(IndexTable const &)=default

o2::soa::Index
Definition ASoA.h:734

o2::soa::Index::type
int64_t type
Definition ASoA.h:798

o2::soa::Index::Index
Index(Index const &)=default

o2::soa::Index::setIndices
void setIndices(std::tuple< int64_t const *, int64_t const * > indices)
Definition ASoA.h:787

o2::soa::Index::operator=
Index & operator=(Index &&)=default

o2::soa::Index::index
int64_t index() const
Definition ASoA.h:760

o2::soa::Index::Index
Index()=default

o2::soa::Index::Index
Index(arrow::ChunkedArray const *)
Definition ASoA.h:746

o2::soa::Index::filteredIndex
int64_t filteredIndex() const
Definition ASoA.h:765

o2::soa::Index::rangeEnd
constexpr int64_t rangeEnd()
Definition ASoA.h:755

o2::soa::Index::rangeStart
constexpr int64_t rangeStart()
Definition ASoA.h:750

o2::soa::Index::Index
Index(Index &&)=default

o2::soa::Index::operator=
Index & operator=(Index const &)=default

o2::soa::Index::index
int64_t index() const
Definition ASoA.h:776

o2::soa::Index::globalIndex
int64_t globalIndex() const
Definition ASoA.h:770

o2::soa::Index::rowIndices
std::tuple< int64_t const  *, int64_t const  * > rowIndices
Definition ASoA.h:800

o2::soa::Index::offsets
int64_t offsets() const
Definition ASoA.h:782

o2::soa::Index::setOffsets
void setOffsets(std::tuple< uint64_t const * > offsets)
Definition ASoA.h:792

o2::soa::Index::mLabel
static constexpr const char * mLabel
Definition ASoA.h:797

o2::soa::Index::rowOffsets
std::tuple< uint64_t const  * > rowOffsets
Definition ASoA.h:803

o2::soa::JoinFull
Definition ASoA.h:3227

o2::soa::JoinFull::begin
iterator begin()
Definition ASoA.h:3256

o2::soa::JoinFull::unfiltered_iterator
iterator unfiltered_iterator
Definition ASoA.h:3251

o2::soa::JoinFull::sliceBy
auto sliceBy(o2::framework::PresliceBase< T1, Policy, OPT > const &container, int value) const
Definition ASoA.h:3277

o2::soa::JoinFull::rawSlice
auto rawSlice(uint64_t start, uint64_t end) const
Definition ASoA.h:3294

o2::soa::JoinFull::sliceByCachedUnsorted
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3271

o2::soa::JoinFull::JoinFull
JoinFull(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
Definition ASoA.h:3235

o2::soa::JoinFull::originalLabels
static constexpr const auto originalLabels
Definition ASoA.h:3246

o2::soa::JoinFull::unfiltered_const_iterator
const_iterator unfiltered_const_iterator
Definition ASoA.h:3252

o2::soa::JoinFull::filtered_const_iterator
filtered_iterator filtered_const_iterator
Definition ASoA.h:3254

o2::soa::JoinFull::contains
static consteval bool contains()
Definition ASoA.h:3305

o2::soa::JoinFull::iteratorAt
iterator iteratorAt(uint64_t i) const
Definition ASoA.h:3289

o2::soa::JoinFull::columns_t
typename table_t::columns_t columns_t
Definition ASoA.h:3247

o2::soa::JoinFull::iterator
table_t::template iterator_template< DefaultIndexPolicy, self_t, Ts... > iterator
Definition ASoA.h:3249

o2::soa::JoinFull::filtered_iterator
table_t::template iterator_template< FilteredIndexPolicy, self_t, Ts... > filtered_iterator
Definition ASoA.h:3253

o2::soa::JoinFull::originals
static constexpr const auto originals
Definition ASoA.h:3245

o2::soa::JoinFull::self_t
JoinFull< D, Ts... > self_t
Definition ASoA.h:3243

o2::soa::JoinFull::begin
const_iterator begin() const
Definition ASoA.h:3261

o2::soa::JoinFull::persistent_columns_t
typename table_t::persistent_columns_t persistent_columns_t
Definition ASoA.h:3248

o2::soa::JoinFull::const_iterator
iterator const_iterator
Definition ASoA.h:3250

o2::soa::JoinFull::rawIteratorAt
iterator rawIteratorAt(uint64_t i) const
Definition ASoA.h:3282

o2::soa::JoinFull::base
Table< o2::aod::Hash<"JOIN"_h >, D, o2::aod::Hash<"JOIN"_h >, Ts... > base
Definition ASoA.h:3228

o2::soa::JoinFull::JoinFull
JoinFull(std::shared_ptr< arrow::Table > &&table, uint64_t offset=0)
Definition ASoA.h:3230

o2::soa::JoinFull::emptySlice
auto emptySlice() const
Definition ASoA.h:3299

o2::soa::JoinFull::sliceByCached
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Definition ASoA.h:3266

o2::soa::MarkerColumn
Definition ASoA.h:704

o2::soa::MarkerColumn::hash
static constexpr const uint32_t hash
Definition ASoA.h:706

o2::soa::MarkerColumn::columnLabel
static constexpr const char *const & columnLabel()
Definition ASoA.h:708

o2::soa::MarkerColumn::inherited_t
INHERIT inherited_t
Definition ASoA.h:705

o2::soa::Marker
Definition ASoA.h:712

o2::soa::Marker::mark
constexpr auto mark()
Definition ASoA.h:725

o2::soa::Marker::operator=
Marker & operator=(Marker const &)=default

o2::soa::Marker::type
size_t type
Definition ASoA.h:713

o2::soa::Marker::value
static constexpr auto value
Definition ASoA.h:715

o2::soa::Marker::mLabel
static constexpr const char * mLabel
Definition ASoA.h:730

o2::soa::Marker::Marker
Marker(arrow::ChunkedArray const *)
Definition ASoA.h:724

o2::soa::Marker::Marker
Marker()=default

o2::soa::Marker::Marker
Marker(Marker const &)=default

o2::soa::Marker::operator=
Marker & operator=(Marker &&)=default

o2::soa::Marker::Marker
Marker(Marker &&)=default

o2::soa::RowViewSentinel
Definition ASoA.h:836

o2::soa::RowViewSentinel::index
int64_t const index
Definition ASoA.h:837

o2::soa::SmallGroupsBase
Definition ASoA.h:4003

o2::soa::SmallGroupsBase::SmallGroupsBase
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
Definition ASoA.h:4008

o2::soa::SmallGroupsBase::SmallGroupsBase
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
Definition ASoA.h:4011

o2::soa::SmallGroupsBase::SmallGroupsBase
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
Definition ASoA.h:4005

o2::soa::TableIterator
Definition ASoA.h:1046

o2::soa::TableIterator::persistent_columns_t
framework::selected_pack< soa::is_persistent_column_t, C... > persistent_columns_t
Definition ASoA.h:1051

o2::soa::TableIterator::doSetCurrentIndexRaw
void doSetCurrentIndexRaw(framework::pack< Cs... > p, std::vector< o2::soa::Binding > &&ptrs)
Definition ASoA.h:1174

o2::soa::TableIterator::bindInternalIndices
void bindInternalIndices(I const *table)
Definition ASoA.h:1193

o2::soa::TableIterator::TableIterator
TableIterator(TableIterator< D, O, FilteredIndexPolicy, C... > const &other)
Definition ASoA.h:1092

o2::soa::TableIterator::TableIterator
TableIterator(self_t const &other)
Definition ASoA.h:1077

o2::soa::TableIterator::operator-
TableIterator operator-(int64_t dec) const
Definition ASoA.h:1134

o2::soa::TableIterator::TableIterator
TableIterator(arrow::ChunkedArray *columnData[sizeof...(C)], IP &&policy)
Definition ASoA.h:1063

o2::soa::TableIterator::operator=
TableIterator & operator=(TableIterator other)
Definition ASoA.h:1084

o2::soa::TableIterator::operator++
TableIterator & operator++()
Definition ASoA.h:1100

o2::soa::TableIterator::doSetCurrentInternal
void doSetCurrentInternal(framework::pack< Cs... >, I const *ptr)
Definition ASoA.h:1180

o2::soa::TableIterator::getIndexBindingsImpl
auto getIndexBindingsImpl(framework::pack< Cs... >) const
Definition ASoA.h:1157

o2::soa::TableIterator::operator--
TableIterator operator--(int)
Definition ASoA.h:1119

o2::soa::TableIterator::bindExternalIndicesRaw
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
Definition ASoA.h:1187

o2::soa::TableIterator::TableIterator
TableIterator(arrow::ChunkedArray *columnData[sizeof...(C)], IP &&policy)
Definition ASoA.h:1056

o2::soa::TableIterator::bindings_pack_t
decltype([]< typename... Cs >(framework::pack< Cs... >) -> framework::pack< typename Cs::binding_t... > {}(external_index_columns_t{})) bindings_pack_t
Definition ASoA.h:1054

o2::soa::TableIterator::bindExternalIndices
void bindExternalIndices(TA *... current)
Definition ASoA.h:1168

o2::soa::TableIterator::getCurrent
auto getCurrent() const
Definition ASoA.h:1151

o2::soa::TableIterator::operator--
TableIterator & operator--()
Definition ASoA.h:1113

o2::soa::TableIterator::external_index_columns_t
framework::selected_pack< soa::is_external_index_t, C... > external_index_columns_t
Definition ASoA.h:1052

o2::soa::TableIterator::operator*
TableIterator const & operator*() const
Definition ASoA.h:1139

o2::soa::TableIterator::TableIterator
TableIterator()=default

o2::soa::TableIterator::operator++
TableIterator operator++(int)
Definition ASoA.h:1106

o2::soa::TableIterator::internal_index_columns_t
framework::selected_pack< soa::is_self_index_t, C... > internal_index_columns_t
Definition ASoA.h:1053

o2::soa::TableIterator::getIndexBindings
auto getIndexBindings() const
Definition ASoA.h:1162

o2::soa::TableIterator::doSetCurrentIndex
void doSetCurrentIndex(framework::pack< CL... >, TA *current)
Definition ASoA.h:1145

o2::soa::TableIterator::operator+
TableIterator operator+(int64_t inc) const
Allow incrementing by more than one the iterator.
Definition ASoA.h:1127

o2::soa::TableRef
Generic identifier for a table type.
Definition ASoA.h:58

o2::soa::TableRef::operator=
constexpr TableRef & operator=(TableRef const &)=default

o2::soa::TableRef::TableRef
consteval TableRef()
Definition ASoA.h:59

o2::soa::TableRef::label_hash
uint32_t label_hash
Definition ASoA.h:73

o2::soa::TableRef::descriptionCompatible
constexpr bool descriptionCompatible(uint32_t _desc_hash) const noexcept
Definition ASoA.h:91

o2::soa::TableRef::operator==
constexpr bool operator==(TableRef const &other) const noexcept
Definition ASoA.h:78

o2::soa::TableRef::TableRef
constexpr TableRef(TableRef &&)=default

o2::soa::TableRef::version
uint32_t version
Definition ASoA.h:76

o2::soa::TableRef::TableRef
constexpr TableRef(TableRef const &)=default

o2::soa::TableRef::TableRef
consteval TableRef(uint32_t _label, uint32_t _desc, uint32_t _origin, uint32_t _version)
Definition ASoA.h:66

o2::soa::TableRef::descriptionCompatible
constexpr bool descriptionCompatible(TableRef const &other) const noexcept
Definition ASoA.h:86

o2::soa::TableRef::desc_hash
uint32_t desc_hash
Definition ASoA.h:74

o2::soa::TableRef::origin_hash
uint32_t origin_hash
Definition ASoA.h:75

o2::soa::TableRef::operator=
constexpr TableRef & operator=(TableRef &&)=default

o2::soa::Table::TableIteratorBase
Definition ASoA.h:1732

o2::soa::Table::TableIteratorBase::operator*
TableIteratorBase const & operator*() const
Definition ASoA.h:1878

o2::soa::Table::TableIteratorBase::getId
auto getId() const
Definition ASoA.h:1823

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(TableIteratorBase< IP, P, T... > const &other)
Definition ASoA.h:1786

o2::soa::Table::TableIteratorBase::columns_t
typename Parent::columns_t columns_t
Definition ASoA.h:1733

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(TableIteratorBase< IP, P, O1, Os... > const &other)
Definition ASoA.h:1772

o2::soa::Table::TableIteratorBase::external_index_columns_t
typename Parent::external_index_columns_t external_index_columns_t
Definition ASoA.h:1734

o2::soa::Table::TableIteratorBase::operator-
TableIteratorBase operator-(int64_t dec) const
Definition ASoA.h:1873

o2::soa::Table::TableIteratorBase::matchTo
void matchTo(TableIteratorBase< IP, P, T... > const &other)
Definition ASoA.h:1810

o2::soa::Table::TableIteratorBase::getDynamicColumn
auto getDynamicColumn() const
Definition ASoA.h:1839

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase()=default

o2::soa::Table::TableIteratorBase::matchTo
void matchTo(TableIteratorBase< IP, P, Os... > const &other)
Definition ASoA.h:1816

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(TableIteratorBase< FilteredIndexPolicy, P, T... > other)
Definition ASoA.h:1798

o2::soa::Table::TableIteratorBase::getValues
std::array< B, sizeof...(CCs)> getValues() const
Definition ASoA.h:1855

o2::soa::Table::TableIteratorBase::originals
static constexpr auto originals
Definition ASoA.h:1737

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(TableIteratorBase< IP, P, T... > &&other) noexcept
Definition ASoA.h:1792

o2::soa::Table::TableIteratorBase::bindings_pack_t
decltype([]< typename... C >(framework::pack< C... >) -> framework::pack< typename C::binding_t... > {}(external_index_columns_t{})) bindings_pack_t
Definition ASoA.h:1735

o2::soa::Table::TableIteratorBase::getValue
auto getValue() const
Definition ASoA.h:1847

o2::soa::Table::TableIteratorBase::parent_t
Parent parent_t
Definition ASoA.h:1739

o2::soa::Table::TableIteratorBase::operator=
TableIteratorBase & operator=(TableIteratorBase< IP, P, Os... > other)
Definition ASoA.h:1749

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(TableIteratorBase< IP, P, O1, Os... > &&other) noexcept
Definition ASoA.h:1779

o2::soa::Table::TableIteratorBase::operator=
TableIteratorBase & operator=(RowViewSentinel const &other)
Definition ASoA.h:1804

o2::soa::Table::TableIteratorBase::TableIteratorBase
TableIteratorBase(arrow::ChunkedArray *columnData[framework::pack_size(columns_t{})], IP &&policy)
Definition ASoA.h:1743

o2::soa::Table::TableIteratorBase::operator=
TableIteratorBase & operator=(TableIteratorBase< IP, P, T... > other)
Definition ASoA.h:1757

o2::soa::Table::TableIteratorBase::operator+
TableIteratorBase operator+(int64_t inc) const
Allow incrementing by more than one the iterator.
Definition ASoA.h:1866

o2::soa::Table::TableIteratorBase::operator=
TableIteratorBase & operator=(TableIteratorBase< FilteredIndexPolicy, P, T... > other)
Definition ASoA.h:1764

o2::soa::unwrap< std::vector< T > >::type
T type
Definition ASoA.h:472

o2::soa::unwrap
unwrapper
Definition ASoA.h:466

o2::soa::unwrap::type
T type
Definition ASoA.h:467

other
VectorOfTObjectPtrs other
Definition test_Algorithm.cxx:501

rows
std::vector< ReadoutWindowData > rows
Definition test_ctf_io_tof.cxx:42

str
const std::string str
Definition test_ransEncodeDecode.cxx:37