12#ifndef O2_FRAMEWORK_ASOA_H_
13#define O2_FRAMEWORK_ASOA_H_
26#include <arrow/table.h>
27#include <arrow/array.h>
28#include <arrow/util/config.h>
29#include <gandiva/selection_vector.h>
32#include <fmt/format.h>
41using ListVector = std::vector<std::vector<int64_t>>;
66 consteval TableRef(uint32_t _label, uint32_t _desc, uint32_t _origin, uint32_t _version)
80 return (this->label_hash ==
other.label_hash) &&
81 (this->desc_hash ==
other.desc_hash) &&
82 (this->origin_hash ==
other.origin_hash) &&
83 (this->version ==
other.version);
88 return this->desc_hash ==
other.desc_hash;
93 return this->desc_hash == _desc_hash;
103template <
size_t N1,
size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2>
106 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; }); });
107 std::array<TableRef, N1 + N2 - duplicates> out;
109 auto pos = std::copy(ar1.begin(), ar1.end(), out.begin());
110 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; }); });
114template <
size_t N1,
size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2,
typename L>
117 constexpr const int to_remove = std::ranges::count_if(ar1.begin(), ar1.end(), [&](
TableRef const&
a) { return !l(a); });
118 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); });
119 std::array<TableRef, N1 + N2 - duplicates - to_remove> out;
121 auto pos = std::copy_if(ar1.begin(), ar1.end(), out.begin(), [&](TableRef
const&
a) { return l(a); });
122 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); });
126template <
size_t N, std::array<TableRef, N> ar,
typename L>
129 constexpr const int to_remove = std::ranges::count_if(ar.begin(), ar.end(), [&l](
TableRef const& e) { return l(e); });
130 std::array<
TableRef, N - to_remove> out;
131 std::copy_if(ar.begin(), ar.end(), out.begin(), [&l](
TableRef const& e) { return !l(e); });
135template <
size_t N1,
size_t N2, std::array<TableRef, N1> ar1, std::array<TableRef, N2> ar2>
136consteval auto intersect()
138 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; }); });
139 std::array<TableRef, duplicates> out;
140 std::copy_if(ar1.begin(), ar1.end(), out.begin(), [](TableRef
const&
a) { return std::find(ar2.begin(), ar2.end(), a) != ar2.end(); });
144template <
typename T,
typename... Ts>
146 requires(
sizeof...(Ts) == 1)
149 return merge<T::originals.size(), T1::originals.size(), T::originals, T1::originals>();
152template <
typename T,
typename...
Ts>
154 requires(
sizeof...(Ts) > 1)
157 return merge<T::originals.size(), tail.size(), T::originals, tail>();
160template <
typename T,
typename...
Ts>
161 requires(
sizeof...(Ts) == 1)
162consteval auto intersectOriginals()
165 return intersect<T::originals.size(), T1::originals.size(), T::originals, T1::originals>();
168template <
typename T,
typename...
Ts>
169 requires(
sizeof...(Ts) > 1)
170consteval auto intersectOriginals()
173 return intersect<T::originals.size(), tail.size(), T::originals, tail>();
182concept not_void =
requires { !std::same_as<T, void>; };
199 {
c.setCurrentRaw(
b) } -> std::same_as<bool>;
204using is_external_index_t =
typename std::conditional_t<is_index_column<C>, std::true_type, std::false_type>;
207using is_self_index_t =
typename std::conditional_t<is_self_index_column<C>, std::true_type, std::false_type>;
213template <
typename D,
typename... Cs>
220 template <
typename Key,
typename... PCs>
223 return std::array<bool,
sizeof...(PCs)>{[]() {
224 if constexpr (
requires { PCs::index_targets.size(); }) {
225 return Key::template isIndexTargetOf<PCs::index_targets.size(), PCs::index_targets>();
232 template <
typename Key>
238 template <
typename Key,
size_t N, std::array<
bool, N> map>
241 constexpr const auto pos = std::find(map.begin(), map.end(),
true);
242 if constexpr (
pos != map.end()) {
243 return std::distance(map.begin(),
pos);
259 static constexpr uint32_t
hash = H;
260 static constexpr char const*
const str{
""};
264template <
size_t N, std::array<soa::TableRef, N> ar,
typename Key>
267 constexpr std::array<bool, N>
test = []<
size_t... Is>(std::index_sequence<Is...>) {
268 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))...};
269 }(std::make_index_sequence<N>());
270 constexpr int correct = std::ranges::count(
test.begin(),
test.end(),
true);
271 std::array<soa::TableRef, correct> out;
272 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))]; });
277#define O2HASH(_Str_) \
279 struct Hash<_Str_ ""_h> { \
280 static constexpr uint32_t hash = _Str_ ""_h; \
281 static constexpr char const* const str{_Str_}; \
285#define O2ORIGIN(_Str_) \
287 struct Hash<_Str_ ""_h> { \
288 static constexpr header::DataOrigin origin{_Str_}; \
289 static constexpr uint32_t hash = _Str_ ""_h; \
290 static constexpr char const* const str{_Str_}; \
294static inline constexpr uint32_t
version(
const char*
const str)
296 if (
str[0] ==
'\0') {
304 if (
str[
len - 1] ==
'\0') {
307 for (
auto i =
len + 1;
str[
i] !=
'\0'; ++
i) {
314static inline constexpr std::string_view description_str(
const char*
const str)
320 return std::string_view{
str,
len};
330 for (
auto i = 0;
i < 16; ++
i) {
333 std::memcpy(out,
str,
len);
338template <soa::TableRef R>
344template <soa::TableRef R>
350template <soa::TableRef R>
356template <soa::TableRef R>
370template <soa::TableRef R>
371static constexpr auto sourceSpec()
373 return fmt::format(
"{}/{}/{}/{}",
label<R>(), origin_str<R>(), description_str(signature<R>()),
R.version);
379template <aod::is_aod_hash L, aod::is_aod_hash D, aod::is_origin_hash O,
typename... Ts>
384 void const*
ptr =
nullptr;
386 std::span<TableRef const>
refs;
388 template <
typename T>
392 hash = o2::framework::TypeIdHelpers::uniqueId<T>();
393 refs = std::span{T::originals};
396 template <
typename T>
399 if (
hash == o2::framework::TypeIdHelpers::uniqueId<T>()) {
400 return static_cast<T const*
>(
ptr);
406template <
typename... C>
409 return std::vector<std::shared_ptr<arrow::Field>>{C::asArrowField()...};
435template <
typename B,
typename E>
437 constexpr static bool value =
false;
440template <aod::is_aod_hash A, aod::is_aod_hash B>
442 constexpr static bool value =
false;
445template <
typename B,
typename E>
448template <aod::is_aod_hash A, aod::is_aod_hash B>
487template <
typename T,
typename ChunkingPolicy = Chunked>
490 static constexpr char SCALE_FACTOR = std::same_as<std::decay_t<T>,
bool> ? 3 : 0;
506 auto array = getCurrentArray();
521 auto previousArray = getCurrentArray();
525 auto array = getCurrentArray();
532 auto previousArray = getCurrentArray();
536 auto array = getCurrentArray();
558 auto array = getCurrentArray();
564 decltype(
auto)
operator*()
const
565 requires std::same_as<bool, std::decay_t<T>>
571 decltype(
auto)
operator*()
const
572 requires((!std::same_as<bool, std::decay_t<T>>) && std::same_as<
arrow_array_for_t<T>, arrow::ListArray>)
581 decltype(
auto)
operator*()
const
582 requires((!std::same_as<bool, std::decay_t<T>>) && !std::same_as<
arrow_array_for_t<T>, arrow::ListArray>)
604 void checkSkipChunk() const
613 void checkSkipChunk() const
621 void checkSkipChunk() const
622 requires(ChunkingPolicy::
chunked == false)
626 auto getCurrentArray() const
630 mOffset = chunkToUse->offset();
631 chunkToUse = std::dynamic_pointer_cast<arrow::FixedSizeListArray>(chunkToUse)->values();
632 return std::static_pointer_cast<arrow_array_for_t<value_for_t<T>>>(chunkToUse);
635 auto getCurrentArray() const
639 mOffset = chunkToUse->offset();
640 chunkToUse = std::dynamic_pointer_cast<arrow::ListArray>(chunkToUse)->values();
641 mOffset = chunkToUse->offset();
642 return std::static_pointer_cast<arrow_array_for_t<value_for_t<T>>>(chunkToUse);
645 auto getCurrentArray() const
649 mOffset = chunkToUse->offset();
650 return std::static_pointer_cast<arrow_array_for_t<T>>(chunkToUse);
654template <
typename T,
typename INHERIT>
670 static constexpr const char*
const&
columnLabel() {
return INHERIT::mLabel; }
688template <
typename F,
typename INHERIT>
692 static constexpr const char*
const&
columnLabel() {
return INHERIT::mLabel; }
695template <
typename INHERIT>
698 static constexpr const uint32_t
hash = 0;
700 static constexpr const char*
const&
columnLabel() {
return INHERIT::mLabel; }
703template <
typename INHERIT>
706 static constexpr const uint32_t
hash = 0;
708 static constexpr const char*
const&
columnLabel() {
return INHERIT::mLabel; }
711template <
size_t M = 0>
715 constexpr inline static auto value = M;
730 static constexpr const char*
mLabel =
"Marker";
733template <int64_t START = 0, int64_t
END = -1>
736 constexpr inline static int64_t
start = START;
737 constexpr inline static int64_t
end =
END;
797 static constexpr const char*
mLabel =
"Index";
821using is_dynamic_t = std::conditional_t<is_dynamic_column<T>, std::true_type, std::false_type>;
827using is_indexing_t = std::conditional_t<is_indexing_column<T>, std::true_type, std::false_type>;
848 mSelectedRows(selection),
849 mMaxSelection(selection.
size()),
857 mSelectedRows = selection;
858 mMaxSelection = selection.size();
868 [[nodiscard]] std::tuple<int64_t const*, int64_t const*>
871 return std::make_tuple(&
mRowIndex, &mSelectionRow);
874 [[nodiscard]] std::tuple<uint64_t const*>
877 return std::make_tuple(&
mOffset);
884 mMaxSelection = std::min(
end, mMaxSelection);
902 return lh.mSelectionRow == rh.mSelectionRow;
915 this->mSelectionRow = this->mMaxSelection;
921 return mSelectionRow;
924 [[nodiscard]]
auto size()
const
926 return mMaxSelection;
935 inline void updateRow()
939 gsl::span<int64_t const> mSelectedRows;
940 int64_t mSelectionRow = 0;
941 int64_t mMaxSelection = 0;
976 [[nodiscard]] std::tuple<int64_t const*, int64_t const*>
982 [[nodiscard]] std::tuple<uint64_t const*>
985 return std::make_tuple(&
mOffset);
1026template <
typename T>
1031template <
typename C>
1037template <
typename T,
typename B>
1039 { t.B::mColumnIterator };
1042template <
typename...
C>
1045template <
typename D,
typename O,
typename IP,
typename... C>
1073 this->limitRange(this->rangeStart(), this->rangeEnd());
1079 C(static_cast<
C const&>(
other))...
1086 IP::operator=(
static_cast<IP const&
>(
other));
1087 (
void(
static_cast<C&
>(*
this) =
static_cast<C>(
other)), ...);
1093 requires std::same_as<IP, DefaultIndexPolicy>
1095 C(
static_cast<C const&
>(
other))...
1102 this->moveByIndex(1);
1115 this->moveByIndex(-1);
1130 copy.moveByIndex(inc);
1144 template <
typename... CL,
typename TA>
1147 (CL::setCurrent(current), ...);
1150 template <
typename CL>
1153 return CL::getCurrentRaw();
1156 template <
typename... Cs>
1159 return std::vector<o2::soa::Binding>{
static_cast<Cs const&
>(*this).getCurrentRaw()...};
1167 template <
typename... TA>
1173 template <
typename... Cs>
1176 (Cs::setCurrentRaw(ptrs[framework::has_type_at_v<Cs>(p)]), ...);
1179 template <
typename... Cs,
typename I>
1184 (Cs::setCurrentRaw(
b), ...);
1192 template <
typename I>
1200 template <
typename... PC>
1203 (PC::mColumnIterator.moveToEnd(), ...);
1213 [
this]<soa::is_dynamic_column T>(T*) ->
void { bindDynamicColumn<T>(
typename T::bindings_t{}); },
1214 [
this]<
typename T>(
T*) ->
void {},
1216 (
f(
static_cast<C*
>(
nullptr)), ...);
1217 if constexpr (has_index<
C...>) {
1218 this->setIndices(this->getIndices());
1219 this->setOffsets(this->getOffsets());
1223 template <
typename DC,
typename...
B>
1226 DC::boundIterators = std::make_tuple(getDynamicBinding<B>()...);
1234 template <
typename B>
1235 requires(can_bind<self_t, B>)
1236 decltype(
auto) getDynamicBinding()
1238 static_assert(std::same_as<decltype(&(static_cast<B*>(
this)->mColumnIterator)), std::decay_t<
decltype(B::mColumnIterator)>*>,
"foo");
1239 return &(
static_cast<B*
>(
this)->mColumnIterator);
1243 template <
typename B>
1244 decltype(
auto) getDynamicBinding()
1246 return static_cast<std::decay_t<decltype(B::mColumnIterator)
>*>(
nullptr);
1251 static std::shared_ptr<arrow::Table>
joinTables(std::vector<std::shared_ptr<arrow::Table>>&& tables, std::span<const char* const> labels);
1252 static std::shared_ptr<arrow::Table>
concatTables(std::vector<std::shared_ptr<arrow::Table>>&& tables);
1256template <
typename T>
1259template <
typename T>
1261 T::originals.size();
1264template <
typename T>
1269template <
typename T>
1272template <
size_t N1, std::array<TableRef, N1> os1,
size_t N2, std::array<TableRef, N2> os2>
1275 return []<
size_t... Is>(std::index_sequence<Is...>) {
1276 return ([]<
size_t... Ks>(std::index_sequence<Ks...>) {
1277 constexpr auto h = os1[Is].desc_hash;
1280 }(std::make_index_sequence<N2>()) ||
1282 }(std::make_index_sequence<N1>());
1285template <with_originals T, with_originals B>
1288 return is_compatible<T::originals.size(), T::originals, B::originals.size(), B::originals>();
1291template <
typename T,
typename B>
1292using is_binding_compatible = std::conditional_t<is_binding_compatible_v<T, typename B::binding_t>(), std::true_type, std::false_type>;
1294template <
typename L,
typename D,
typename O,
typename Key,
typename H,
typename...
Ts>
1297template <
typename T>
1300template <soa::is_table T>
1301static constexpr std::string getLabelForTable()
1303 return std::string{aod::label<std::decay_t<T>::originals[0]>()};
1306template <soa::is_table T>
1308static constexpr std::string getLabelFromType()
1310 return getLabelForTable<T>();
1313template <soa::is_iterator T>
1314static constexpr std::string getLabelFromType()
1316 return getLabelForTable<typename std::decay_t<T>::parent_t>();
1319template <soa::is_index_table T>
1320static constexpr std::string getLabelFromType()
1322 return getLabelForTable<typename std::decay_t<T>::first_t>();
1324template <soa::with_base_table T>
1325static constexpr std::string getLabelFromType()
1330template <
typename...
C>
1333 return ((C::inherited_t::mLabel ==
key) || ...);
1336template <TableRef ref>
1337static constexpr std::pair<bool, std::string> hasKey(std::string
const&
key)
1342template <
typename...
C>
1345 return std::vector{hasKey<C>(
key)...};
1351template <with_originals T,
bool OPT = false>
1352static constexpr std::string getLabelFromTypeForKey(std::string
const&
key)
1354 if constexpr (T::originals.size() == 1) {
1355 auto locate = hasKey<T::originals[0]>(
key);
1357 return locate.second;
1360 auto locate = [&]<
size_t... Is>(std::index_sequence<Is...>) {
1361 return std::vector{hasKey<T::originals[Is]>(
key)...};
1362 }(std::make_index_sequence<T::originals.size()>{});
1363 auto it = std::find_if(locate.begin(), locate.end(), [](
auto const&
x) { return x.first; });
1364 if (it != locate.end()) {
1368 if constexpr (!OPT) {
1376template <
typename B,
typename...
C>
1379 return (o2::soa::is_binding_compatible_v<B, typename C::binding_t>() || ...);
1382template <
typename B,
typename...
C>
1385 return ((C::sorted && o2::soa::is_binding_compatible_v<B, typename C::binding_t>()) || ...);
1388template <
typename B,
typename Z>
1389consteval static bool relatedByIndex()
1391 return hasIndexTo<B>(
typename Z::table_t::external_index_columns_t{});
1394template <
typename B,
typename Z>
1395consteval static bool relatedBySortedIndex()
1397 return hasSortedIndexTo<B>(
typename Z::table_t::external_index_columns_t{});
1416 std::shared_ptr<arrow::Table>
getSliceFor(
int value, std::shared_ptr<arrow::Table>
const& input, uint64_t&
offset)
const;
1426template <
typename T,
typename Policy,
bool OPT = false>
1434 : 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})}, {}}
1440 if constexpr (OPT) {
1441 if (Policy::isMissing()) {
1450 if constexpr (OPT) {
1451 if (Policy::isMissing()) {
1455 return Policy::getSliceFor(
value);
1459template <
typename T>
1461template <
typename T>
1463template <
typename T>
1465template <
typename T>
1468template <
typename T>
1475template <soa::is_table T>
1477template <
typename T>
1480template <
typename T>
1483template <
typename T>
1486template <
typename T>
1490template <
typename T>
1493template <
typename T>
1496template <
typename T>
1500template <
typename... Is>
1508template <
typename T,
typename C,
typename Policy,
bool OPT>
1509 requires std::same_as<Policy, framework::PreslicePolicySorted> && (o2::soa::is_binding_compatible_v<C, T>())
1512 if constexpr (OPT) {
1513 if (container.isMissing()) {
1519 auto t =
typename T::self_t({out},
offset);
1520 table->copyIndexBindings(t);
1521 t.bindInternalIndicesTo(table);
1525template <soa::is_filtered_table T>
1530 t.bindInternalIndicesTo(table);
1531 t.intersectWithSelection(table->getSelectedRows());
1535template <soa::is_table T>
1541 t.bindInternalIndicesTo(table);
1545template <
typename T,
typename C,
typename Policy,
bool OPT>
1546 requires std::same_as<Policy, framework::PreslicePolicyGeneral> && (o2::soa::is_binding_compatible_v<C, T>())
1549 if constexpr (OPT) {
1550 if (container.isMissing()) {
1560template <soa::is_filtered_table T>
1563 if (
offset >=
static_cast<uint64_t
>(table->tableSize())) {
1574template <soa::is_filtered_table T,
typename C,
bool OPT>
1575 requires(o2::soa::is_binding_compatible_v<C, T>())
1578 if constexpr (OPT) {
1579 if (container.isMissing()) {
1588template <
typename T>
1593 auto t =
typename T::self_t({table->asArrowTable()->Slice(
static_cast<uint64_t
>(
offset),
count)},
static_cast<uint64_t
>(
offset));
1594 table->copyIndexBindings(t);
1598template <
typename T>
1603 auto slice = table->asArrowTable()->Slice(
static_cast<uint64_t
>(
offset),
count);
1607template <
typename T>
1612 auto t =
typename T::self_t({table->asArrowTable()}, localCache.getSliceFor(
value));
1613 t.intersectWithSelection(table->getSelectedRows());
1614 table->copyIndexBindings(t);
1617 auto t =
Filtered<T>({table->asArrowTable()}, localCache.getSliceFor(
value));
1618 table->copyIndexBindings(t);
1623template <with_originals T>
1631template <
typename D,
typename O,
typename IP,
typename...
C>
1668 return std::array<TableRef, 1>{
ref};
1684 static constexpr const auto ref =
TableRef{L::hash, D::hash, O::hash, o2::aod::version(D::str)};
1689 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()>());
1691 template <
size_t N, std::array<TableRef, N> bindings>
1692 requires(
ref.origin_hash ==
"CONC"_h)
1698 template <
size_t N, std::array<TableRef, N> bindings>
1699 requires(
ref.origin_hash ==
"JOIN"_h)
1704 return std::find(bindings.begin(), bindings.end(),
r) != bindings.end();
1708 template <
size_t N, std::array<TableRef, N> bindings>
1709 requires(!(
ref.origin_hash ==
"CONC"_h ||
ref.origin_hash ==
"JOIN"_h))
1712 return std::find(bindings.begin(), bindings.end(),
self_t::ref) != bindings.end();
1715 template <TableRef r>
1728 template <
typename IP>
1731 template <
typename IP,
typename Parent,
typename... T>
1748 template <
typename P,
typename... Os>
1750 requires(P::ref.desc_hash == Parent::ref.desc_hash)
1756 template <
typename P>
1763 template <
typename P>
1765 requires std::same_as<IP, DefaultIndexPolicy>
1771 template <
typename P,
typename O1,
typename... Os>
1773 requires(P::ref.desc_hash == Parent::ref.desc_hash)
1778 template <
typename P,
typename O1,
typename... Os>
1780 requires(P::ref.desc_hash == Parent::ref.desc_hash)
1785 template <
typename P>
1791 template <
typename P>
1797 template <
typename P>
1799 requires std::same_as<IP, DefaultIndexPolicy>
1806 this->mRowIndex =
other.index;
1809 template <
typename P>
1812 this->mRowIndex =
other.mRowIndex;
1815 template <
typename P,
typename... Os>
1817 requires std::same_as<typename P::table_t, typename Parent::table_t>
1819 this->mRowIndex =
other.mRowIndex;
1822 template <
typename TI>
1825 using decayed = std::decay_t<TI>;
1827 constexpr auto idx = framework::has_type_at_v<decayed>(
bindings_pack_t{});
1829 }
else if constexpr (std::same_as<decayed, Parent>) {
1830 return this->globalIndex();
1832 return this->globalIndex();
1834 return static_cast<int32_t
>(-1);
1838 template <
typename CD,
typename... CDArgs>
1841 using decayed = std::decay_t<CD>;
1843 return static_cast<decayed
>(*this).template getDynamicValue<CDArgs...>();
1846 template <
typename B,
typename CC>
1849 using COL = std::decay_t<CC>;
1851 return static_cast<B>(
static_cast<COL
>(*this).get());
1854 template <
typename B,
typename... CCs>
1857 static_assert(std::same_as<B, float> || std::same_as<B, double>,
"The common return type should be float or double");
1858 return {getValue<B, CCs>()...};
1869 copy.moveByIndex(inc);
1884 template <
typename IP,
typename Parent,
typename... T>
1887 template <
typename IP,
typename Parent>
1890 if constexpr (
sizeof...(Ts) == 0) {
1901 template <
typename IP,
typename Parent>
1918 mEnd{table->num_rows()},
1921 if (mTable->num_rows() == 0) {
1923 mColumnChunks[ci] =
nullptr;
1929 mColumnChunks[ci] = lookups[ci];
1932 mBegin.bindInternalIndices(
this);
1936 Table(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t
offset = 0)
1937 requires(
ref.origin_hash !=
"CONC"_h)
1942 Table(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t
offset = 0)
1943 requires(
ref.origin_hash ==
"CONC"_h)
1948 template <
typename Key>
1952 return std::array<bool,
sizeof...(Cs)>{[]() {
1953 if constexpr (
requires { Cs::index_targets.size(); }) {
1954 return Key::template
isIndexTargetOf<Cs::index_targets.size(), Cs::index_targets>();
1960 constexpr auto pos = std::find(map.begin(), map.end(),
true);
1961 if constexpr (
pos != map.end()) {
1962 return mColumnChunks[std::distance(map.begin(),
pos)];
1964 static_assert(framework::always_static_assert_v<Key>,
"This table does not have an index to given Key");
1994 return filtered_iterator(mColumnChunks, {selection, mTable->num_rows(), mOffset});
2032 return mTable->num_rows();
2042 template <
typename... TA>
2045 mBegin.bindExternalIndices(current...);
2048 template <
typename I>
2051 mBegin.bindInternalIndices(
ptr);
2059 template <
typename... Cs>
2062 (
static_cast<Cs
>(mBegin).setCurrentRaw(binding), ...);
2067 mBegin.bindExternalIndicesRaw(std::forward<std::vector<o2::soa::Binding>>(ptrs));
2070 template <
typename T,
typename... Cs>
2073 dest.bindExternalIndicesRaw(mBegin.getIndexBindings());
2076 template <
typename T>
2099 template <
typename T1,
typename Policy,
bool OPT>
2112 return self_t{mTable->Slice(0, 0), 0};
2116 template <
typename T>
2117 arrow::ChunkedArray* lookupColumn()
2120 auto label = T::columnLabel();
2126 std::shared_ptr<arrow::Table> mTable =
nullptr;
2127 uint64_t mOffset = 0;
2134template <uint32_t
D, soa::is_column...
C>
2140namespace row_helpers
2151 return std::array<std::shared_ptr<arrow::Array>,
sizeof...(Cs)>{
o2::soa::getIndexFromLabel(table, Cs::columnLabel())->chunk(ci)...};
2154template <
typename T, soa::is_persistent_column C>
2155typename 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())
2157 if (ci == std::numeric_limits<uint64_t>::max() || ai == std::numeric_limits<uint64_t>::max()) {
2158 auto colIterator =
static_cast<C>(rowIterator).getIterator();
2159 ci = colIterator.mCurrentChunk;
2160 ai = *(colIterator.mCurrentPos) - colIterator.mFirstIndex;
2162 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];
2165template <
typename T, soa::is_dynamic_column C>
2166typename 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())
2168 if (globalIndex != std::numeric_limits<uint64_t>::max() && globalIndex != *std::get<0>(rowIterator.getIndices())) {
2169 rowIterator.setCursor(globalIndex);
2171 return rowIterator.template getDynamicColumn<C>();
2174template <
typename T, soa::is_index_column C>
2175typename 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())
2177 if (globalIndex != std::numeric_limits<uint64_t>::max() && globalIndex != *std::get<0>(rowIterator.getIndices())) {
2178 rowIterator.setCursor(globalIndex);
2180 return rowIterator.template getId<C>();
2183template <
typename T,
typename... Cs>
2184std::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())
2186 return std::make_tuple(getSingleRowData<T, Cs>(table, rowIterator, ci, ai, globalIndex)...);
2191template <
typename R,
typename T,
typename C>
2192R getColumnValue(
const T& rowIterator)
2194 return static_cast<R>(
static_cast<C>(rowIterator).get());
2197template <
typename R,
typename T>
2198using ColumnGetterFunction =
R (*)(
const T&);
2200template <
typename T,
typename R>
2205 { t.get() } -> std::convertible_to<R>;
2208template <
typename T,
typename R>
2210 { t.get() } -> std::convertible_to<R>;
2213template <
typename R,
typename T, persistent_with_common_getter<R> C>
2214ColumnGetterFunction<R, T> createGetterPtr(
const std::string_view& targetColumnLabel)
2216 return targetColumnLabel == C::columnLabel() ? &getColumnValue<R, T, C> :
nullptr;
2219template <
typename R,
typename T, dynamic_with_common_getter<R> C>
2220ColumnGetterFunction<R, T> createGetterPtr(
const std::string_view& targetColumnLabel)
2222 std::string_view columnLabel(C::columnLabel());
2226 if (targetColumnLabel.starts_with(
"f") && targetColumnLabel.substr(1) == columnLabel) {
2227 return &getColumnValue<R, T, C>;
2231 if (targetColumnLabel == columnLabel) {
2232 return &getColumnValue<R, T, C>;
2238template <
typename R,
typename T,
typename... Cs>
2241 ColumnGetterFunction<R, T>
func;
2243 (
void)((
func = createGetterPtr<R, T, Cs>(targetColumnLabel),
func) || ...);
2252template <
typename T,
typename R>
2253using 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;
2256template <
typename R,
typename T>
2261 if (targetColumnLabel.size() == 0) {
2265 return getColumnGetterByLabel<R, typename T::iterator>(TypesWithCommonGetter{}, targetColumnLabel);
2287template <
typename T>
2288consteval static std::string_view namespace_prefix()
2290 constexpr auto name = o2::framework::type_name<T>();
2291 const auto pos =
name.rfind(std::string_view{
":"});
2292 return name.substr(0,
pos - 1);
2296#define DECLARE_EQUIVALENT_FOR_INDEX(_Base_, _Equiv_) \
2298 struct EquivalentIndexNG<o2::aod::Hash<_Base_::ref.desc_hash>, o2::aod::Hash<_Equiv_::ref.desc_hash>> { \
2299 constexpr static bool value = true; \
2302#define DECLARE_EQUIVALENT_FOR_INDEX_NG(_Base_, _Equiv_) \
2304 struct EquivalentIndexNG<o2::aod::Hash<_Base_ ""_h>, o2::aod::Hash<_Equiv_ ""_h>> { \
2305 constexpr static bool value = true; \
2308#define DECLARE_SOA_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) \
2309 struct _Name_ : o2::soa::Column<_Type_, _Name_> { \
2310 static constexpr const char* mLabel = _Label_; \
2311 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \
2312 static_assert(!((*(mLabel + 1) == 'I' && *(mLabel + 2) == 'n' && *(mLabel + 3) == 'd' && *(mLabel + 4) == 'e' && *(mLabel + 5) == 'x')), "Index is not a valid column name"); \
2313 using base = o2::soa::Column<_Type_, _Name_>; \
2314 using type = _Type_; \
2315 using column_t = _Name_; \
2316 _Name_(arrow::ChunkedArray const* column) \
2317 : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column)) \
2321 _Name_() = default; \
2322 _Name_(_Name_ const& other) = default; \
2323 _Name_& operator=(_Name_ const& other) = default; \
2325 decltype(auto) _Getter_() const \
2327 return *mColumnIterator; \
2330 decltype(auto) get() const \
2332 return _Getter_(); \
2335 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }
2337#define DECLARE_SOA_COLUMN(_Name_, _Getter_, _Type_) \
2338 DECLARE_SOA_COLUMN_FULL(_Name_, _Getter_, _Type_, "f" #_Name_)
2342#define MAKEINT(_Size_) uint##_Size_##_t
2344#define DECLARE_SOA_BITMAP_COLUMN_FULL(_Name_, _Getter_, _Size_, _Label_) \
2345 struct _Name_ : o2::soa::Column<MAKEINT(_Size_), _Name_> { \
2346 static constexpr const char* mLabel = _Label_; \
2347 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \
2348 static_assert(!((*(mLabel + 1) == 'I' && *(mLabel + 2) == 'n' && *(mLabel + 3) == 'd' && *(mLabel + 4) == 'e' && *(mLabel + 5) == 'x')), "Index is not a valid column name"); \
2349 using base = o2::soa::Column<MAKEINT(_Size_), _Name_>; \
2350 using type = MAKEINT(_Size_); \
2351 _Name_(arrow::ChunkedArray const* column) \
2352 : o2::soa::Column<type, _Name_>(o2::soa::ColumnIterator<type>(column)) \
2356 _Name_() = default; \
2357 _Name_(_Name_ const& other) = default; \
2358 _Name_& operator=(_Name_ const& other) = default; \
2360 decltype(auto) _Getter_##_raw() const \
2362 return *mColumnIterator; \
2365 bool _Getter_##_bit(int bit) const \
2367 return (*mColumnIterator & (static_cast<type>(1) << bit)) >> bit; \
2370 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<MAKEINT(_Size_)>() }
2372#define DECLARE_SOA_BITMAP_COLUMN(_Name_, _Getter_, _Size_) \
2373 DECLARE_SOA_BITMAP_COLUMN_FULL(_Name_, _Getter_, _Size_, "f" #_Name_)
2377#define DECLARE_SOA_EXPRESSION_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_, _Expression_) \
2378 struct _Name_ : o2::soa::Column<_Type_, _Name_> { \
2379 static constexpr const char* mLabel = _Label_; \
2380 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \
2381 using base = o2::soa::Column<_Type_, _Name_>; \
2382 using type = _Type_; \
2383 using column_t = _Name_; \
2384 using spawnable_t = std::true_type; \
2385 _Name_(arrow::ChunkedArray const* column) \
2386 : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column)) \
2390 _Name_() = default; \
2391 _Name_(_Name_ const& other) = default; \
2392 _Name_& operator=(_Name_ const& other) = default; \
2394 decltype(auto) _Getter_() const \
2396 return *mColumnIterator; \
2399 decltype(auto) get() const \
2401 return _Getter_(); \
2404 static o2::framework::expressions::Projector Projector() \
2406 return _Expression_; \
2409 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }
2411#define DECLARE_SOA_EXPRESSION_COLUMN(_Name_, _Getter_, _Type_, _Expression_) \
2412 DECLARE_SOA_EXPRESSION_COLUMN_FULL(_Name_, _Getter_, _Type_, "f" #_Name_, _Expression_);
2416#define DECLARE_SOA_CONFIGURABLE_EXPRESSION_COLUMN(_Name_, _Getter_, _Type_, _Label_) \
2417 struct _Name_ : o2::soa::Column<_Type_, _Name_> { \
2418 static constexpr const char* mLabel = _Label_; \
2419 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_>(), std::string_view{#_Getter_}); \
2420 static constexpr const int32_t mHash = _Label_ ""_h; \
2421 using base = o2::soa::Column<_Type_, _Name_>; \
2422 using type = _Type_; \
2423 using column_t = _Name_; \
2424 using spawnable_t = std::true_type; \
2425 _Name_(arrow::ChunkedArray const* column) \
2426 : o2::soa::Column<_Type_, _Name_>(o2::soa::ColumnIterator<type>(column)) \
2430 _Name_() = default; \
2431 _Name_(_Name_ const& other) = default; \
2432 _Name_& operator=(_Name_ const& other) = default; \
2434 decltype(auto) _Getter_() const \
2436 return *mColumnIterator; \
2439 decltype(auto) get() const \
2441 return _Getter_(); \
2444 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_ { _Label_, _Name_::hash, o2::framework::expressions::selectArrowType<_Type_>() }
2467template <o2::soa::is_table T>
2470 return T::originals;
2473#define DECLARE_SOA_SLICE_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_) \
2474 struct _Name_##IdSlice : o2::soa::Column<_Type_[2], _Name_##IdSlice> { \
2475 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2476 static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _"); \
2477 static constexpr const char* mLabel = "fIndexSlice" _Label_ _Suffix_; \
2478 static constexpr const uint32_t hash = 0; \
2479 using base = o2::soa::Column<_Type_[2], _Name_##IdSlice>; \
2480 using type = _Type_[2]; \
2481 using column_t = _Name_##IdSlice; \
2482 using binding_t = _Table_; \
2483 static constexpr auto index_targets = getIndexTargets<_Table_>(); \
2484 _Name_##IdSlice(arrow::ChunkedArray const* column) \
2485 : o2::soa::Column<_Type_[2], _Name_##IdSlice>(o2::soa::ColumnIterator<type>(column)) \
2489 _Name_##IdSlice() = default; \
2490 _Name_##IdSlice(_Name_##IdSlice const& other) = default; \
2491 _Name_##IdSlice& operator=(_Name_##IdSlice const& other) = default; \
2492 std::array<_Type_, 2> inline getIds() const \
2494 return _Getter_##Ids(); \
2497 bool has_##_Getter_() const \
2499 auto a = *mColumnIterator; \
2500 return a[0] >= 0 && a[1] >= 0; \
2503 std::array<_Type_, 2> _Getter_##Ids() const \
2505 auto a = *mColumnIterator; \
2506 return std::array{a[0], a[1]}; \
2509 template <typename T> \
2510 auto _Getter_##_as() const \
2512 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2513 o2::soa::notBoundTable(#_Table_); \
2515 auto t = mBinding.get<T>(); \
2516 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2517 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2519 if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) { \
2520 return t->emptySlice(); \
2522 auto a = *mColumnIterator; \
2523 auto r = t->rawSlice(a[0], a[1]); \
2524 t->copyIndexBindings(r); \
2525 r.bindInternalIndicesTo(t); \
2529 auto _Getter_() const \
2531 return _Getter_##_as<binding_t>(); \
2534 template <typename T> \
2535 bool setCurrent(T const* current) \
2537 if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) { \
2538 assert(current != nullptr); \
2539 this->mBinding.bind(current); \
2545 bool setCurrentRaw(o2::soa::Binding current) \
2547 this->mBinding = current; \
2550 binding_t const* getCurrent() const { return mBinding.get<binding_t>(); } \
2551 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2552 o2::soa::Binding mBinding; \
2555#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_)
2556#define DECLARE_SOA_SLICE_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")
2557#define DECLARE_SOA_SLICE_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_SLICE_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")
2560#define DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_) \
2561 struct _Name_##Ids : o2::soa::Column<std::vector<_Type_>, _Name_##Ids> { \
2562 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2563 static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _"); \
2564 static constexpr const char* mLabel = "fIndexArray" _Label_ _Suffix_; \
2565 static constexpr const uint32_t hash = 0; \
2566 using base = o2::soa::Column<std::vector<_Type_>, _Name_##Ids>; \
2567 using type = std::vector<_Type_>; \
2568 using column_t = _Name_##Ids; \
2569 using binding_t = _Table_; \
2570 static constexpr auto index_targets = getIndexTargets<_Table_>(); \
2571 _Name_##Ids(arrow::ChunkedArray const* column) \
2572 : o2::soa::Column<std::vector<_Type_>, _Name_##Ids>(o2::soa::ColumnIterator<type>(column)) \
2576 _Name_##Ids() = default; \
2577 _Name_##Ids(_Name_##Ids const& other) = default; \
2578 _Name_##Ids& operator=(_Name_##Ids const& other) = default; \
2580 gsl::span<const _Type_> inline getIds() const \
2582 return _Getter_##Ids(); \
2585 gsl::span<const _Type_> _Getter_##Ids() const \
2587 return *mColumnIterator; \
2590 bool has_##_Getter_() const \
2592 return !(*mColumnIterator).empty(); \
2595 template <typename T> \
2596 auto _Getter_##_as() const \
2598 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2599 o2::soa::notBoundTable(#_Table_); \
2601 auto t = mBinding.get<T>(); \
2602 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2603 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2605 return getIterators<T>(); \
2608 template <typename T> \
2609 auto filtered_##_Getter_##_as() const \
2611 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2612 o2::soa::notBoundTable(#_Table_); \
2614 auto t = mBinding.get<T>(); \
2615 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2616 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2618 return getFilteredIterators<T>(); \
2621 template <typename T> \
2622 auto getIterators() const \
2624 auto result = std::vector<typename T::unfiltered_iterator>(); \
2625 for (auto& i : *mColumnIterator) { \
2626 result.push_back(mBinding.get<T>()->rawIteratorAt(i)); \
2631 template <typename T> \
2632 std::vector<typename T::iterator> getFilteredIterators() const \
2634 if constexpr (o2::soa::is_filtered_table<T>) { \
2635 auto result = std::vector<typename T::iterator>(); \
2636 for (auto const& i : *mColumnIterator) { \
2637 auto pos = mBinding.get<T>()->isInSelectedRows(i); \
2639 result.emplace_back(mBinding.get<T>()->iteratorAt(pos)); \
2644 static_assert(o2::framework::always_static_assert_v<T>, "T is not a Filtered type"); \
2649 auto _Getter_() const \
2651 return _Getter_##_as<binding_t>(); \
2654 template <typename T> \
2655 auto _Getter_##_first_as() const \
2657 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2658 o2::soa::notBoundTable(#_Table_); \
2660 auto t = mBinding.get<T>(); \
2661 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2662 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2664 return t->rawIteratorAt((*mColumnIterator)[0]); \
2667 template <typename T> \
2668 auto _Getter_##_last_as() const \
2670 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2671 o2::soa::notBoundTable(#_Table_); \
2673 auto t = mBinding.get<T>(); \
2674 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2675 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2677 return t->rawIteratorAt((*mColumnIterator).back()); \
2680 auto _Getter_first() const \
2682 return _Getter_##_first_as<binding_t>(); \
2685 auto _Getter_last() const \
2687 return _Getter_##_last_as<binding_t>(); \
2690 template <typename T> \
2691 bool setCurrent(T const* current) \
2693 if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) { \
2694 assert(current != nullptr); \
2695 this->mBinding.bind(current); \
2701 bool setCurrentRaw(o2::soa::Binding current) \
2703 this->mBinding = current; \
2706 binding_t const* getCurrent() const { return mBinding.get<binding_t>(); } \
2707 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2708 o2::soa::Binding mBinding; \
2711#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_)
2712#define DECLARE_SOA_ARRAY_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")
2713#define DECLARE_SOA_ARRAY_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_ARRAY_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")
2716#define DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, _Label_, _Suffix_) \
2717 struct _Name_##Id : o2::soa::Column<_Type_, _Name_##Id> { \
2718 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2719 static_assert((*_Suffix_ == '\0') || (*_Suffix_ == '_'), "Suffix has to begin with _"); \
2720 static constexpr const char* mLabel = "fIndex" _Label_ _Suffix_; \
2721 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_##Id>(), std::string_view{#_Getter_ "Id"}); \
2722 using base = o2::soa::Column<_Type_, _Name_##Id>; \
2723 using type = _Type_; \
2724 using column_t = _Name_##Id; \
2725 using binding_t = _Table_; \
2726 static constexpr auto index_targets = getIndexTargets<_Table_>(); \
2727 _Name_##Id(arrow::ChunkedArray const* column) \
2728 : o2::soa::Column<_Type_, _Name_##Id>(o2::soa::ColumnIterator<type>(column)) \
2732 _Name_##Id() = default; \
2733 _Name_##Id(_Name_##Id const& other) = default; \
2734 _Name_##Id& operator=(_Name_##Id const& other) = default; \
2735 type inline getId() const \
2737 return _Getter_##Id(); \
2740 type _Getter_##Id() const \
2742 return *mColumnIterator; \
2745 bool has_##_Getter_() const \
2747 return *mColumnIterator >= 0; \
2750 template <typename T> \
2751 auto _Getter_##_as() const \
2753 if (O2_BUILTIN_UNLIKELY(mBinding.ptr == nullptr)) { \
2754 o2::soa::notBoundTable(#_Table_); \
2756 if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) { \
2757 o2::soa::accessingInvalidIndexFor(#_Getter_); \
2759 auto t = mBinding.get<T>(); \
2760 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2761 o2::soa::dereferenceWithWrongType(#_Getter_, #_Table_); \
2763 return t->rawIteratorAt(*mColumnIterator); \
2766 auto _Getter_() const \
2768 return _Getter_##_as<binding_t>(); \
2771 template <typename T> \
2772 bool setCurrent(T* current) \
2774 if constexpr (o2::soa::is_binding_compatible_v<T, binding_t>()) { \
2775 assert(current != nullptr); \
2776 this->mBinding.bind(current); \
2782 bool setCurrentRaw(o2::soa::Binding current) \
2784 this->mBinding = current; \
2787 binding_t const* getCurrent() const { return mBinding.get<binding_t>(); } \
2788 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2789 o2::soa::Binding mBinding; \
2791 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_##Id { "fIndex" #_Table_ _Suffix_, _Name_##Id::hash, o2::framework::expressions::selectArrowType<_Type_>() }
2793#define DECLARE_SOA_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Table_, _Suffix_) DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, _Type_, _Table_, #_Table_, _Suffix_)
2794#define DECLARE_SOA_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, _Name_##s, "")
2795#define DECLARE_SOA_INDEX_COLUMN_CUSTOM(_Name_, _Getter_, _Label_) DECLARE_SOA_INDEX_COLUMN_FULL_CUSTOM(_Name_, _Getter_, int32_t, _Name_##s, _Label_, "")
2798#define DECLARE_SOA_SELF_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_) \
2799 struct _Name_##Id : o2::soa::Column<_Type_, _Name_##Id> { \
2800 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2801 static constexpr const char* mLabel = "fIndex" _Label_; \
2802 static constexpr const uint32_t hash = crc32(namespace_prefix<_Name_##Id>(), std::string_view{#_Getter_ "Id"}); \
2803 using base = o2::soa::Column<_Type_, _Name_##Id>; \
2804 using type = _Type_; \
2805 using column_t = _Name_##Id; \
2806 using self_index_t = std::true_type; \
2807 using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>; \
2808 _Name_##Id(arrow::ChunkedArray const* column) \
2809 : o2::soa::Column<_Type_, _Name_##Id>(o2::soa::ColumnIterator<type>(column)) \
2813 _Name_##Id() = default; \
2814 _Name_##Id(_Name_##Id const& other) = default; \
2815 _Name_##Id& operator=(_Name_##Id const& other) = default; \
2816 type inline getId() const \
2818 return _Getter_##Id(); \
2821 type _Getter_##Id() const \
2823 return *mColumnIterator; \
2826 bool has_##_Getter_() const \
2828 return *mColumnIterator >= 0; \
2831 template <typename T> \
2832 auto _Getter_##_as() const \
2834 if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) { \
2835 o2::soa::accessingInvalidIndexFor(#_Getter_); \
2837 auto t = mBinding.get<T>(); \
2838 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2839 o2::soa::dereferenceWithWrongType(#_Getter_, "self"); \
2841 return t->rawIteratorAt(*mColumnIterator); \
2844 bool setCurrentRaw(o2::soa::Binding current) \
2846 this->mBinding = current; \
2849 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2850 o2::soa::Binding mBinding; \
2852 [[maybe_unused]] static constexpr o2::framework::expressions::BindingNode _Getter_##Id { "fIndex" _Label_, _Name_##Id::hash, o2::framework::expressions::selectArrowType<_Type_>() }
2854#define DECLARE_SOA_SELF_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)
2855#define DECLARE_SOA_SELF_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, #_Name_)
2857#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_) \
2858 struct _Name_##IdSlice : o2::soa::Column<_Type_[2], _Name_##IdSlice> { \
2859 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2860 static constexpr const char* mLabel = "fIndexSlice" _Label_; \
2861 static constexpr const uint32_t hash = 0; \
2862 using base = o2::soa::Column<_Type_[2], _Name_##IdSlice>; \
2863 using type = _Type_[2]; \
2864 using column_t = _Name_##IdSlice; \
2865 using self_index_t = std::true_type; \
2866 using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>; \
2867 _Name_##IdSlice(arrow::ChunkedArray const* column) \
2868 : o2::soa::Column<_Type_[2], _Name_##IdSlice>(o2::soa::ColumnIterator<type>(column)) \
2872 _Name_##IdSlice() = default; \
2873 _Name_##IdSlice(_Name_##IdSlice const& other) = default; \
2874 _Name_##IdSlice& operator=(_Name_##IdSlice const& other) = default; \
2875 std::array<_Type_, 2> inline getIds() const \
2877 return _Getter_##Ids(); \
2880 bool has_##_Getter_() const \
2882 auto a = *mColumnIterator; \
2883 return a[0] >= 0 && a[1] >= 0; \
2886 std::array<_Type_, 2> _Getter_##Ids() const \
2888 auto a = *mColumnIterator; \
2889 return std::array{a[0], a[1]}; \
2892 template <typename T> \
2893 auto _Getter_##_as() const \
2895 auto t = mBinding.get<T>(); \
2896 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2897 o2::soa::dereferenceWithWrongType(#_Getter_, "self"); \
2899 if (O2_BUILTIN_UNLIKELY(!has_##_Getter_())) { \
2900 return t->emptySlice(); \
2902 auto a = *mColumnIterator; \
2903 auto r = t->rawSlice(a[0], a[1]); \
2904 t->copyIndexBindings(r); \
2905 r.bindInternalIndicesTo(t); \
2909 bool setCurrentRaw(o2::soa::Binding current) \
2911 this->mBinding = current; \
2914 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2915 o2::soa::Binding mBinding; \
2918#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)
2919#define DECLARE_SOA_SELF_SLICE_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_SLICE_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, "_" #_Name_)
2921#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, _IndexTarget_) \
2922 struct _Name_##Ids : o2::soa::Column<std::vector<_Type_>, _Name_##Ids> { \
2923 static_assert(std::is_integral_v<_Type_>, "Index type must be integral"); \
2924 static constexpr const char* mLabel = "fIndexArray" _Label_; \
2925 static constexpr const uint32_t hash = 0; \
2926 using base = o2::soa::Column<std::vector<_Type_>, _Name_##Ids>; \
2927 using type = std::vector<_Type_>; \
2928 using column_t = _Name_##Ids; \
2929 using self_index_t = std::true_type; \
2930 using compatible_signature = std::conditional<aod::is_aod_hash<_IndexTarget_>, _IndexTarget_, void>; \
2931 _Name_##Ids(arrow::ChunkedArray const* column) \
2932 : o2::soa::Column<std::vector<_Type_>, _Name_##Ids>(o2::soa::ColumnIterator<type>(column)) \
2936 _Name_##Ids() = default; \
2937 _Name_##Ids(_Name_##Ids const& other) = default; \
2938 _Name_##Ids& operator=(_Name_##Ids const& other) = default; \
2939 gsl::span<const _Type_> inline getIds() const \
2941 return _Getter_##Ids(); \
2944 gsl::span<const _Type_> _Getter_##Ids() const \
2946 return *mColumnIterator; \
2949 bool has_##_Getter_() const \
2951 return !(*mColumnIterator).empty(); \
2954 template <typename T> \
2955 auto _Getter_##_as() const \
2957 auto t = mBinding.get<T>(); \
2958 if (O2_BUILTIN_UNLIKELY(t == nullptr)) { \
2959 o2::soa::dereferenceWithWrongType(#_Getter_, "self"); \
2961 return getIterators<T>(); \
2964 template <typename T> \
2965 auto getIterators() const \
2967 auto result = std::vector<typename T::unfiltered_iterator>(); \
2968 for (auto& i : *mColumnIterator) { \
2969 result.push_back(mBinding.get<T>()->rawIteratorAt(i)); \
2974 template <typename T> \
2975 auto _Getter_##_first_as() const \
2977 return mBinding.get<T>()->rawIteratorAt((*mColumnIterator)[0]); \
2980 template <typename T> \
2981 auto _Getter_##_last_as() const \
2983 return mBinding.get<T>()->rawIteratorAt((*mColumnIterator).back()); \
2986 bool setCurrentRaw(o2::soa::Binding current) \
2988 this->mBinding = current; \
2991 o2::soa::Binding getCurrentRaw() const { return mBinding; } \
2992 o2::soa::Binding mBinding; \
2995#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, _Type_, _Label_) DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_COMPLETE(_Name_, _Getter_, _Type_, _Label_, void)
2996#define DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN(_Name_, _Getter_) DECLARE_SOA_SELF_ARRAY_INDEX_COLUMN_FULL(_Name_, _Getter_, int32_t, "_" #_Name_)
3026#define DECLARE_SOA_DYNAMIC_COLUMN(_Name_, _Getter_, ...) \
3027 struct _Name_##Callback { \
3028 static inline constexpr auto getLambda() { return __VA_ARGS__; } \
3031 struct _Name_##Helper { \
3032 using callable_t = decltype(o2::framework::FunctionMetadata(std::declval<decltype(_Name_##Callback::getLambda())>())); \
3033 using return_type = typename callable_t::return_type; \
3035 template <typename... Bindings> \
3036 struct _Name_ : o2::soa::DynamicColumn<typename _Name_##Helper::callable_t::type, _Name_<Bindings...>> { \
3037 using base = o2::soa::DynamicColumn<typename _Name_##Helper::callable_t::type, _Name_<Bindings...>>; \
3038 using helper = _Name_##Helper; \
3039 using callback_holder_t = _Name_##Callback; \
3040 using callable_t = helper::callable_t; \
3041 using callback_t = callable_t::type; \
3042 static constexpr const uint32_t hash = 0; \
3044 _Name_(arrow::ChunkedArray const*) \
3047 _Name_() = default; \
3048 _Name_(_Name_ const& other) = default; \
3049 _Name_& operator=(_Name_ const& other) = default; \
3050 static constexpr const char* mLabel = #_Name_; \
3051 using type = typename callable_t::return_type; \
3053 template <typename... FreeArgs> \
3054 type _Getter_(FreeArgs... freeArgs) const \
3056 return boundGetter(std::make_index_sequence<std::tuple_size_v<decltype(boundIterators)>>{}, freeArgs...); \
3058 template <typename... FreeArgs> \
3059 type getDynamicValue(FreeArgs... freeArgs) const \
3061 return boundGetter(std::make_index_sequence<std::tuple_size_v<decltype(boundIterators)>>{}, freeArgs...); \
3066 return _Getter_(); \
3069 template <size_t... Is, typename... FreeArgs> \
3070 type boundGetter(std::integer_sequence<size_t, Is...>&&, FreeArgs... freeArgs) const \
3072 return __VA_ARGS__((**std::get<Is>(boundIterators))..., freeArgs...); \
3075 using bindings_t = typename o2::framework::pack<Bindings...>; \
3076 std::tuple<o2::soa::ColumnIterator<typename Bindings::type> const*...> boundIterators; \
3079#define DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, ...) \
3080 using _Name_##Metadata = TableMetadata<Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__>;
3082#define DECLARE_SOA_TABLE_METADATA_TRAIT(_Name_, _Desc_, _Version_) \
3084 struct MetadataTrait<Hash<_Desc_ "/" #_Version_ ""_h>> { \
3085 using metadata = _Name_##Metadata; \
3088#define DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, _Version_) \
3089 O2HASH(_Desc_ "/" #_Version_); \
3090 template <typename O> \
3091 using _Name_##From = o2::soa::Table<Hash<_Label_ ""_h>, Hash<_Desc_ "/" #_Version_ ""_h>, O>; \
3092 using _Name_ = _Name_##From<Hash<_Origin_ ""_h>>; \
3094 struct MetadataTrait<Hash<_Desc_ "/" #_Version_ ""_h>> { \
3095 using metadata = _Name_##Metadata; \
3098#define DECLARE_SOA_STAGE(_Name_, _Origin_, _Desc_, _Version_) \
3099 template <typename O> \
3100 using _Name_##From = o2::soa::Table<Hash<#_Name_ ""_h>, Hash<_Desc_ "/" #_Version_ ""_h>, O>; \
3101 using _Name_ = _Name_##From<Hash<_Origin_ ""_h>>;
3103#define DECLARE_SOA_TABLE_FULL_VERSIONED(_Name_, _Label_, _Origin_, _Desc_, _Version_, ...) \
3104 DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, __VA_ARGS__); \
3105 DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, _Version_);
3107#define DECLARE_SOA_TABLE_FULL(_Name_, _Label_, _Origin_, _Desc_, ...) \
3109 DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, 0, __VA_ARGS__); \
3110 DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, _Label_, _Origin_, _Desc_, 0)
3112#define DECLARE_SOA_TABLE(_Name_, _Origin_, _Desc_, ...) \
3113 DECLARE_SOA_TABLE_FULL(_Name_, #_Name_, _Origin_, _Desc_, __VA_ARGS__)
3115#define DECLARE_SOA_TABLE_VERSIONED(_Name_, _Origin_, _Desc_, _Version_, ...) \
3117 DECLARE_SOA_TABLE_METADATA(_Name_, _Desc_, _Version_, __VA_ARGS__); \
3118 DECLARE_SOA_TABLE_FULL_VERSIONED_(_Name_, #_Name_, _Origin_, _Desc_, _Version_)
3120#define DECLARE_SOA_TABLE_STAGED_VERSIONED(_BaseName_, _Desc_, _Version_, ...) \
3121 O2HASH(_Desc_ "/" #_Version_); \
3122 O2HASH(#_BaseName_); \
3123 O2HASH("Stored" #_BaseName_); \
3124 DECLARE_SOA_TABLE_METADATA(_BaseName_, _Desc_, _Version_, __VA_ARGS__); \
3125 using Stored##_BaseName_##Metadata = _BaseName_##Metadata; \
3126 DECLARE_SOA_TABLE_METADATA_TRAIT(_BaseName_, _Desc_, _Version_); \
3127 DECLARE_SOA_STAGE(_BaseName_, "AOD", _Desc_, _Version_); \
3128 DECLARE_SOA_STAGE(Stored##_BaseName_, "AOD1", _Desc_, _Version_);
3130#define DECLARE_SOA_TABLE_STAGED(_BaseName_, _Desc_, ...) \
3131 DECLARE_SOA_TABLE_STAGED_VERSIONED(_BaseName_, _Desc_, 0, __VA_ARGS__);
3133#define DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, _Label_, _OriginalTable_, _Origin_, _Desc_, _Version_, ...) \
3134 O2HASH(_Desc_ "/" #_Version_); \
3135 template <typename O> \
3136 using _Name_##ExtensionFrom = soa::Table<o2::aod::Hash<_Label_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O>; \
3137 using _Name_##Extension = _Name_##ExtensionFrom<o2::aod::Hash<_Origin_ ""_h>>; \
3138 template <typename O = o2::aod::Hash<_Origin_ ""_h>> \
3139 struct _Name_##ExtensionMetadataFrom : TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__> { \
3140 using base_table_t = _OriginalTable_; \
3141 using extension_table_t = _Name_##ExtensionFrom<O>; \
3142 using expression_pack_t = framework::pack<__VA_ARGS__>; \
3143 static constexpr auto sources = _OriginalTable_::originals; \
3145 using _Name_##ExtensionMetadata = _Name_##ExtensionMetadataFrom<o2::aod::Hash<_Origin_ ""_h>>; \
3147 struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> { \
3148 using metadata = _Name_##ExtensionMetadata; \
3150 template <typename O> \
3151 using _Name_##From = o2::soa::JoinFull<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, _OriginalTable_, _Name_##ExtensionFrom<O>>; \
3152 using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>;
3154#define DECLARE_SOA_EXTENDED_TABLE(_Name_, _Table_, _Description_, _Version_, ...) \
3155 O2HASH(#_Name_ "Extension"); \
3156 DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, #_Name_ "Extension", _Table_, "DYN", _Description_, _Version_, __VA_ARGS__)
3158#define DECLARE_SOA_EXTENDED_TABLE_USER(_Name_, _Table_, _Description_, ...) \
3159 O2HASH(#_Name_ "Extension"); \
3160 DECLARE_SOA_EXTENDED_TABLE_FULL(_Name_, #_Name_ "Extension", _Table_, "AOD", "EX" _Description_, 0, __VA_ARGS__)
3162#define DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE_FULL(_Name_, _Label_, _OriginalTable_, _Origin_, _Desc_, _Version_, ...) \
3163 O2HASH(_Desc_ "/" #_Version_); \
3164 template <typename O> \
3165 using _Name_##CfgExtensionFrom = soa::Table<o2::aod::Hash<_Label_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O>; \
3166 using _Name_##CfgExtension = _Name_##CfgExtensionFrom<o2::aod::Hash<_Origin_ ""_h>>; \
3167 template <typename O = o2::aod::Hash<_Origin_ ""_h>> \
3168 struct _Name_##CfgExtensionMetadataFrom : TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, __VA_ARGS__> { \
3169 using base_table_t = _OriginalTable_; \
3170 using extension_table_t = _Name_##CfgExtensionFrom<O>; \
3171 using placeholders_pack_t = framework::pack<__VA_ARGS__>; \
3172 using configurable_t = std::true_type; \
3173 static constexpr auto sources = _OriginalTable_::originals; \
3175 using _Name_##CfgExtensionMetadata = _Name_##CfgExtensionMetadataFrom<o2::aod::Hash<_Origin_ ""_h>>; \
3177 struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> { \
3178 using metadata = _Name_##CfgExtensionMetadata; \
3180 template <typename O> \
3181 using _Name_##From = o2::soa::JoinFull<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, _OriginalTable_, _Name_##CfgExtensionFrom<O>>; \
3182 using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>;
3184#define DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE(_Name_, _Table_, _Description_, ...) \
3185 O2HASH(#_Name_ "CfgExtension"); \
3186 DECLARE_SOA_CONFIGURABLE_EXTENDED_TABLE_FULL(_Name_, #_Name_ "CfgExtension", _Table_, "AOD", "EX" _Description_, 0, __VA_ARGS__)
3188#define DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, _Origin_, _Version_, _Desc_, _Exclusive_, ...) \
3190 O2HASH(_Desc_ "/" #_Version_); \
3191 template <typename O = o2::aod::Hash<_Origin_ ""_h>> \
3192 struct _Name_##MetadataFrom : o2::aod::TableMetadata<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, soa::Index<>, __VA_ARGS__> { \
3193 static constexpr bool exclusive = _Exclusive_; \
3194 using Key = _Key_; \
3195 using index_pack_t = framework::pack<__VA_ARGS__>; \
3196 static constexpr const auto sources = []<typename... Cs>(framework::pack<Cs...>) { \
3197 constexpr auto a = o2::soa::mergeOriginals<typename Cs::binding_t...>(); \
3198 return o2::aod::filterForKey<a.size(), a, Key>(); \
3199 }(framework::pack<__VA_ARGS__>{}); \
3201 using _Name_##Metadata = _Name_##MetadataFrom<o2::aod::Hash<_Origin_ ""_h>>; \
3203 template <typename O = o2::aod::Hash<_Origin_ ""_h>> \
3204 using _Name_##From = o2::soa::IndexTable<o2::aod::Hash<#_Name_ ""_h>, o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>, O, _Key_, __VA_ARGS__>; \
3205 using _Name_ = _Name_##From<o2::aod::Hash<_Origin_ ""_h>>; \
3208 struct MetadataTrait<o2::aod::Hash<_Desc_ "/" #_Version_ ""_h>> { \
3209 using metadata = _Name_##Metadata; \
3212#define DECLARE_SOA_INDEX_TABLE(_Name_, _Key_, _Description_, ...) \
3213 DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "IDX", 0, _Description_, false, __VA_ARGS__)
3215#define DECLARE_SOA_INDEX_TABLE_EXCLUSIVE(_Name_, _Key_, _Description_, ...) \
3216 DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "IDX", 0, _Description_, true, __VA_ARGS__)
3218#define DECLARE_SOA_INDEX_TABLE_USER(_Name_, _Key_, _Description_, ...) \
3219 DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "AOD", 0, _Description_, false, __VA_ARGS__)
3221#define DECLARE_SOA_INDEX_TABLE_EXCLUSIVE_USER(_Name_, _Key_, _Description_, ...) \
3222 DECLARE_SOA_INDEX_TABLE_FULL(_Name_, _Key_, "AOD", 0, _Description_, true, __VA_ARGS__)
3226template <
typename D,
typename...
Ts>
3227struct JoinFull :
Table<o2::aod::Hash<"JOIN"_h>, D, o2::aod::Hash<"JOIN"_h>, Ts...> {
3276 template <
typename T1,
typename Policy,
bool OPT>
3304 template <
typename T>
3311template <
typename...
Ts>
3314template <
typename...
Ts>
3320template <
typename T>
3323template <
typename T>
3326template <
typename...
Ts>
3327struct Concat :
Table<o2::aod::Hash<"CONC"_h>, o2::aod::Hash<"CONC/0"_h>, o2::aod::Hash<"CONC"_h>, Ts...> {
3330 Concat(std::vector<std::shared_ptr<arrow::Table>>&& tables, uint64_t
offset = 0)
3338 bindInternalIndicesTo(
this);
3341 using base::originals;
3343 using base::bindExternalIndices;
3344 using base::bindInternalIndicesTo;
3358template <
typename...
Ts>
3364template <soa::is_table T>
3375 using iterator = T::template iterator_template_o<FilteredIndexPolicy, self_t>;
3381 mSelectedRows{getSpan(selection)}
3383 if (this->tableSize() != 0) {
3384 mFilteredBegin = table_t::filtered_begin(mSelectedRows);
3387 mFilteredBegin.bindInternalIndices(
this);
3392 mSelectedRowsCache{
std::move(selection)},
3395 mSelectedRows = gsl::span{mSelectedRowsCache};
3396 if (this->tableSize() != 0) {
3397 mFilteredBegin = table_t::filtered_begin(mSelectedRows);
3400 mFilteredBegin.bindInternalIndices(
this);
3403 FilteredBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const>
const& selection, uint64_t
offset = 0)
3405 mSelectedRows{selection}
3407 if (this->tableSize() != 0) {
3408 mFilteredBegin = table_t::filtered_begin(mSelectedRows);
3411 mFilteredBegin.bindInternalIndices(
this);
3438 return mFilteredBegin;
3443 return mFilteredBegin;
3448 return mFilteredBegin +
i;
3453 return mSelectedRows.size();
3458 return table_t::asArrowTable()->num_rows();
3463 return mSelectedRows;
3469 newSelection.resize(
static_cast<int64_t
>(
end -
start + 1));
3470 std::iota(newSelection.begin(), newSelection.end(),
start);
3471 return self_t{{this->asArrowTable()}, std::move(newSelection), 0};
3481 if (sel ==
nullptr) {
3482 return gsl::span<int64_t const>{};
3484 auto array = std::static_pointer_cast<arrow::Int64Array>(sel->ToArray());
3487 return gsl::span{
start, stop};
3492 template <
typename... TA>
3495 table_t::bindExternalIndices(current...);
3496 mFilteredBegin.bindExternalIndices(current...);
3501 mFilteredBegin.bindExternalIndicesRaw(std::forward<std::vector<o2::soa::Binding>>(ptrs));
3504 template <
typename I>
3507 mFilteredBegin.bindInternalIndices(
ptr);
3510 template <
typename T1,
typename... Cs>
3513 dest.bindExternalIndicesRaw(mFilteredBegin.getIndexBindings());
3516 template <
typename T1>
3522 template <
typename T1>
3538 template <
typename T1,
bool OPT>
3544 template <
typename T1,
bool OPT>
3553 copyIndexBindings(t);
3559 auto locate = std::find(mSelectedRows.begin(), mSelectedRows.end(),
i);
3560 if (locate == mSelectedRows.end()) {
3563 return static_cast<int>(std::distance(mSelectedRows.begin(), locate));
3570 std::set_union(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(rowsUnion));
3571 mSelectedRowsCache.clear();
3572 mSelectedRowsCache = rowsUnion;
3580 std::set_intersection(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(intersection));
3581 mSelectedRowsCache.clear();
3582 mSelectedRowsCache = intersection;
3590 std::set_union(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(rowsUnion));
3591 mSelectedRowsCache.clear();
3592 mSelectedRowsCache = rowsUnion;
3600 std::set_intersection(mSelectedRows.begin(), mSelectedRows.end(), selection.begin(), selection.end(), std::back_inserter(intersection));
3601 mSelectedRowsCache.clear();
3602 mSelectedRowsCache = intersection;
3615 mSelectedRows = gsl::span{mSelectedRowsCache};
3617 mFilteredEnd.reset(
new RowViewSentinel{
static_cast<int64_t
>(mSelectedRows.size())});
3618 if (tableSize() == 0) {
3619 mFilteredBegin = *mFilteredEnd;
3621 mFilteredBegin.resetSelection(mSelectedRows);
3625 gsl::span<int64_t const> mSelectedRows;
3627 bool mCached =
false;
3628 iterator mFilteredBegin;
3629 std::shared_ptr<RowViewSentinel> mFilteredEnd;
3632template <
typename T>
3641 using iterator = T::template iterator_template_o<FilteredIndexPolicy, self_t>;
3647 return iterator(this->cached_begin());
3661 Filtered(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const>
const& selection, uint64_t
offset = 0)
3685 this->sumWithSelection(selection);
3691 this->sumWithSelection(selection);
3697 return operator+=(
other.getSelectedRows());
3716 return operator*(
other.getSelectedRows());
3721 this->intersectWithSelection(selection);
3727 this->intersectWithSelection(selection);
3733 return operator*=(
other.getSelectedRows());
3748 newSelection.resize(
static_cast<int64_t
>(
end -
start + 1));
3749 std::iota(newSelection.begin(), newSelection.end(),
start);
3750 return self_t{{this->asArrowTable()}, std::move(newSelection), 0};
3758 template <
typename T1>
3774 template <
typename T1,
bool OPT>
3780 template <
typename T1,
bool OPT>
3789 copyIndexBindings(t);
3794template <
typename T>
3803 using iterator =
typename T::template iterator_template_o<FilteredIndexPolicy, self_t>;
3809 return iterator(this->cached_begin());
3820 for (
auto& table : tables) {
3828 for (
auto& table : tables) {
3836 for (
auto& table : tables) {
3862 this->sumWithSelection(selection);
3868 this->sumWithSelection(selection);
3874 return operator+=(
other.getSelectedRows());
3880 copy.intersectionWithSelection(selection);
3887 copy.intersectionWithSelection(selection);
3893 return operator*(
other.getSelectedRows());
3898 this->intersectWithSelection(selection);
3904 this->intersectWithSelection(selection);
3910 return operator*=(
other.getSelectedRows());
3923 newSelection.resize(
static_cast<int64_t
>(
end -
start + 1));
3924 std::iota(newSelection.begin(), newSelection.end(),
start);
3925 return self_t{{this->asArrowTable()}, std::move(newSelection), 0};
3943 template <
typename T1,
bool OPT>
3949 template <
typename T1,
bool OPT>
3956 std::vector<std::shared_ptr<arrow::Table>> extractTablesFromFiltered(std::vector<
Filtered<T>>& tables)
3958 std::vector<std::shared_ptr<arrow::Table>> outTables;
3959 for (
auto& table : tables) {
3960 outTables.push_back(table.asArrowTable());
3971template <
typename L,
typename D,
typename O,
typename Key,
typename H,
typename...
Ts>
4002template <
typename T,
bool APPLY>
4004 static constexpr bool applyFilters = APPLY;
4011 SmallGroupsBase(std::vector<std::shared_ptr<arrow::Table>>&& tables, gsl::span<int64_t const>
const& selection, uint64_t
offset = 0)
4015template <
typename T>
4018template <
typename T>
4021template <
typename T>
#define O2HASH(_Str_)
Pre-declare Hash specialization for a generic string.
#define O2ORIGIN(_Str_)
Pre-declare Hash specialization for an origin string.
consteval auto getIndexTargets()
SLICE.
o2::monitoring::tags::Key Key
#define O2_BUILTIN_UNREACHABLE
#define O2_BUILTIN_LIKELY(x)
#define O2_BUILTIN_UNLIKELY(x)
Class for time synchronization of RawReader instances.
int64_t const * mCurrentPos
ColumnIterator(arrow::ChunkedArray const *column)
ColumnIterator(ColumnIterator< T, ChunkingPolicy > const &)=default
void moveToEnd()
Move the iterator to the end of the column.
ColumnIterator< T > & moveToPos()
ColumnIterator< T, ChunkingPolicy > & operator=(ColumnIterator< T, ChunkingPolicy > const &)=default
unwrap_t< T > const * mCurrent
unwrap_t< T > const * mLast
ColumnIterator(ColumnIterator< T, ChunkingPolicy > &&)=default
arrow::ChunkedArray const * mColumn
ColumnIterator< T, ChunkingPolicy > & operator=(ColumnIterator< T, ChunkingPolicy > &&)=default
void moveToChunk(int chunk)
void nextChunk() const
Move the iterator to the next chunk.
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
int64_t tableSize() const
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
typename T::external_index_columns_t external_index_columns_t
auto select(framework::expressions::Filter const &f) const
static auto getSpan(gandiva::Selection const &sel)
T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
auto rawSliceBy(o2::framework::Preslice< T1 > const &container, int value) const
T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
void copyIndexBindings(T1 &dest) const
auto const & getSelectedRows() const
typename T::columns_t columns_t
void bindExternalIndices(TA *... current)
void sumWithSelection(SelectionVector const &selection)
void bindInternalIndicesTo(I const *ptr)
void intersectWithSelection(SelectionVector const &selection)
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
auto rawSlice(uint64_t start, uint64_t end) const
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
iterator iteratorAt(uint64_t i) const
typename T::table_t table_t
typename T::persistent_columns_t persistent_columns_t
RowViewSentinel end() const
void intersectWithSelection(gsl::span< int64_t const > const &selection)
FilteredBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
const_iterator begin() const
unfiltered_iterator rawIteratorAt(uint64_t i) const
int isInSelectedRows(int i) const
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
void doCopyIndexBindings(framework::pack< Cs... >, T1 &dest) const
void sumWithSelection(gsl::span< int64_t const > const &selection)
auto const & cached_begin() const
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
typename FilteredBase< typename T::table_t >::table_t table_t
Filtered< Filtered< T > > operator+=(gsl::span< int64_t const > const &selection)
typename T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
Filtered< Filtered< T > > operator+(SelectionVector const &selection)
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
Filtered< Filtered< T > > operator*(gsl::span< int64_t const > const &selection)
typename T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
typename T::columns_t columns_t
const_iterator begin() const
Filtered(std::vector< Filtered< T > > &&tables, SelectionVector &&selection, uint64_t offset=0)
unfiltered_iterator rawIteratorAt(uint64_t i) const
Filtered< Filtered< T > > operator+=(Filtered< T > const &other)
Filtered< Filtered< T > > operator+=(SelectionVector const &selection)
Filtered< Filtered< T > > operator*=(SelectionVector const &selection)
auto rawSlice(uint64_t start, uint64_t end) const
Filtered< Filtered< T > > operator+(Filtered< T > const &other)
Filtered(std::vector< Filtered< T > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
Filtered< Filtered< T > > operator*=(Filtered< T > const &other)
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Filtered< Filtered< T > > operator*=(gsl::span< int64_t const > const &selection)
Filtered< Filtered< T > > operator*(Filtered< T > const &other)
Filtered< Filtered< T > > operator+(gsl::span< int64_t const > const &selection)
Filtered< Filtered< T > > operator*(SelectionVector const &selection)
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Filtered(std::vector< Filtered< T > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
Filtered< T > operator+=(Filtered< T > const &other)
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicyGeneral, OPT > const &container, int value) const
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
Filtered< T > operator+(Filtered< T > const &other)
Filtered< T > operator*=(SelectionVector const &selection)
const_iterator begin() const
T::template iterator_template_o< FilteredIndexPolicy, self_t > iterator
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
auto select(framework::expressions::Filter const &f) const
Filtered< T > operator+(SelectionVector const &selection)
Filtered< T > operator*(gsl::span< int64_t const > const &selection)
T::template iterator_template_o< DefaultIndexPolicy, self_t > unfiltered_iterator
unfiltered_iterator rawIteratorAt(uint64_t i) const
Filtered< T > operator*(SelectionVector const &selection)
Filtered< T > operator*=(Filtered< T > const &other)
Filtered< T > operator*(Filtered< T > const &other)
auto rawSliceBy(o2::framework::Preslice< T1 > const &container, int value) const
Filtered< T > operator+=(SelectionVector const &selection)
Filtered< T > operator*=(gsl::span< int64_t const > const &selection)
Filtered< T > operator+(gsl::span< int64_t const > const &selection)
Filtered< T > operator+=(gsl::span< int64_t const > const &selection)
auto rawSlice(uint64_t start, uint64_t end) const
Filtered(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
auto sliceBy(o2::framework::PresliceBase< T1, framework::PreslicePolicySorted, OPT > const &container, int value) const
typename T::table_t table_t
typename T::columns_t columns_t
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_self_index_t, C... > {}(columns_t{})) internal_index_columns_t
void bindInternalIndicesExplicit(o2::soa::Binding binding)
iterator iteratorAt(uint64_t i) const
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_persistent_column_t, C... > {}(columns_t{})) persistent_columns_t
static constexpr const auto ref
auto offset() const
Return offset.
static consteval bool hasOriginal()
unfiltered_iterator begin()
int64_t tableSize() const
auto rawSlice(uint64_t start, uint64_t end) const
void bindExternalIndices(TA *... current)
auto select(framework::expressions::Filter const &f) const
unfiltered_iterator unfiltered_const_iterator
static consteval auto full_iter()
auto const & cached_begin() const
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
TableIteratorBase< IP, Parent, T... > iterator_template
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
auto sliceBy(o2::framework::PresliceBase< T1, Policy, OPT > const &container, int value) const
static constexpr auto hashes()
iterator unfiltered_iterator
std::shared_ptr< arrow::Table > asArrowTable() const
Return a type erased arrow table backing store for / the type safe table.
void doCopyIndexBindings(framework::pack< Cs... >, T &dest) const
int64_t size() const
Size of the table, in rows.
Table(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
decltype(getColumns< ref, Ts... >()) columns_t
arrow::ChunkedArray * getIndexToKey()
decltype([]< typename... C >(framework::pack< C... >) -> framework::pack< typename C::type... > {}(persistent_columns_t{})) column_types
static consteval auto isIndexTargetOf()
iterator_template_o< FilteredIndexPolicy, table_t > filtered_iterator
unfiltered_const_iterator begin() const
void copyIndexBindings(T &dest) const
static constexpr const auto originalLabels
Table(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
Table< L, D, O, Ts... > self_t
static consteval auto isIndexTargetOf()
decltype(full_iter< IP, Parent >()) iterator_template_o
void doBindInternalIndicesExplicit(framework::pack< Cs... >, o2::soa::Binding binding)
static constexpr const auto originals
decltype([]< typename... C >(framework::pack< C... > &&) -> framework::selected_pack< soa::is_external_index_t, C... > {}(columns_t{})) external_index_columns_t
Table(std::shared_ptr< arrow::Table > table, uint64_t offset=0)
RowViewSentinel end() const
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
void bindInternalIndicesTo(I const *ptr)
unfiltered_iterator rawIteratorAt(uint64_t i) const
filtered_iterator filtered_begin(gsl::span< int64_t const > selection)
iterator_template_o< DefaultIndexPolicy, table_t > iterator
hash identification concepts
Helper to check if a type T is an iterator.
column identification concepts
GLuint GLsizei const GLuint const GLintptr * offsets
GLuint const GLchar * name
GLboolean GLboolean GLboolean b
GLsizei const GLfloat * value
GLint GLint GLsizei GLint GLenum GLenum type
GLuint GLsizei GLsizei * length
GLuint GLsizei const GLchar * label
GLsizei GLenum const void * indices
typedef void(APIENTRYP PFNGLCULLFACEPROC)(GLenum mode)
GLenum GLenum GLsizei len
GLboolean GLboolean GLboolean GLboolean a
std::shared_ptr< gandiva::SelectionVector > Selection
consteval const char * origin_str()
consteval const char * signature()
consteval auto filterForKey()
Filter TableRef array for compatibility with Key table.
consteval const char * label()
consteval header::DataOrigin origin()
std::shared_ptr< arrow::DataType > concreteArrowType(atype::type type)
gandiva::Selection createSelection(std::shared_ptr< arrow::Table > const &table, Filter const &expression)
Function for creating gandiva selection from our internal filter tree.
Defining PrimaryVertex explicitly as messageable.
std::decay_t< decltype(select_pack< Condition >(pack<>{}, Pack{}, CondPack{}))> selected_pack_multicondition
std::decay_t< decltype(prune_voids_pack(pack<>{}, with_condition_pack< Condition, Types... >{}))> selected_pack
decltype(intersected_pack(Ps{}...)) full_intersected_pack_t
typename pack_element< I, T >::type pack_element_t
consteval size_t has_type_at_v(pack< Ts... >)
constexpr std::size_t pack_size(pack< Ts... > const &)
template function to determine number of types in a pack
decltype(concatenate_pack_unique(Ps{}...)) concatenated_pack_unique_t
std::string strToUpper(std::string &&str)
typename pack_element< 0, T >::type pack_head_t
std::string cutString(std::string &&str)
std::vector< std::vector< int64_t > > ListVector
std::array< std::shared_ptr< arrow::Array >, sizeof...(Cs)> getChunks(arrow::Table *table, framework::pack< Cs... >, uint64_t ci)
ColumnGetterFunction< R, typename T::iterator > getColumnGetterByLabel(const std::string_view &targetColumnLabel)
std::array< arrow::ChunkedArray *, sizeof...(Cs)> getArrowColumns(arrow::Table *table, framework::pack< 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())
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())
consteval auto computeOriginals()
auto createFieldsFromColumns(framework::pack< C... >)
SelectionVector selectionToVector(gandiva::Selection const &sel)
constexpr bool is_persistent_v
constexpr bool is_ng_index_equivalent_v
consteval auto remove_if(L l)
constexpr auto join(Ts const &... t)
auto doSliceBy(T const *table, o2::framework::PresliceBase< C, Policy, OPT > const &container, int value)
SelectionVector sliceSelection(gsl::span< int64_t const > const &mSelectedRows, int64_t nrows, uint64_t offset)
void notBoundTable(const char *tableName)
auto doFilteredSliceBy(T const *table, o2::framework::PresliceBase< C, framework::PreslicePolicySorted, OPT > const &container, int value)
constexpr auto concat(Ts const &... t)
consteval auto intersectOriginals()
consteval auto getColumns()
std::vector< int64_t > SelectionVector
std::conditional_t< is_binding_compatible_v< T, typename B::binding_t >(), std::true_type, std::false_type > is_binding_compatible
consteval auto mergeOriginals()
constexpr bool is_soa_filtered_v
typename std::conditional_t< is_index_column< C >, std::true_type, std::false_type > is_external_index_t
void missingFilterDeclaration(int hash, int ai)
auto doSliceByCachedUnsorted(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
auto doSliceByCached(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
void accessingInvalidIndexFor(const char *getter)
auto select(T const &t, framework::expressions::Filter const &f)
consteval auto base_iter(framework::pack< C... > &&) -> TableIterator< D, O, IP, C... >
constexpr bool is_index_equivalent_v
constexpr bool is_soa_join_v
void dereferenceWithWrongType(const char *getter, const char *target)
std::conditional_t< is_indexing_column< T >, std::true_type, std::false_type > is_indexing_t
auto doSliceByHelper(T const *table, gsl::span< const int64_t > const &selection)
consteval bool is_binding_compatible_v()
auto prepareFilteredSlice(T const *table, std::shared_ptr< arrow::Table > slice, uint64_t offset)
typename unwrap< T >::type unwrap_t
void getterNotFound(const char *targetColumnLabel)
auto doFilteredSliceByCached(T const *table, framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache)
void missingOptionalPreslice(const char *label, const char *key)
consteval bool is_compatible()
arrow::ChunkedArray * getIndexFromLabel(arrow::Table *table, std::string_view label)
consteval auto merge()
Helpers to manipulate TableRef arrays.
consteval auto merge_if(L l)
std::conditional_t< is_persistent_column< C >, std::true_type, std::false_type > is_persistent_column_t
typename arrow_array_for< T >::type arrow_array_for_t
void notFoundColumn(const char *label, const char *key)
std::conditional_t< is_dynamic_column< T >, std::true_type, std::false_type > is_dynamic_t
typename std::conditional_t< is_self_index_column< C >, std::true_type, std::false_type > is_self_index_t
Defining DataPointCompositeObject explicitly as copiable.
FIXME: do not use data model tables.
static constexpr uint32_t hash
static constexpr char const *const str
SliceInfoUnsortedPtr getCacheUnsortedFor(Entry const &bindingKey) const
SliceInfoPtr getCacheFor(Entry const &bindingKey) const
std::shared_ptr< arrow::Table > getSliceFor(int value, std::shared_ptr< arrow::Table > const &input, uint64_t &offset) const
static constexpr bool optional
PresliceBase(expressions::BindingNode index_)
gsl::span< const int64_t > getSliceFor(int value) const
const std::string binding
const std::string binding
Entry const & getBindingKey() const
SliceInfoUnsortedPtr sliceInfo
gsl::span< const int64_t > getSliceFor(int value) const
void updateSliceInfo(SliceInfoUnsortedPtr &&si)
void updateSliceInfo(SliceInfoPtr &&si)
std::shared_ptr< arrow::Table > getSliceFor(int value, std::shared_ptr< arrow::Table > const &input, uint64_t &offset) const
ArrowTableSlicingCache * ptr
std::pair< int64_t, int64_t > getSliceFor(int value) const
An expression tree node corresponding to a column binding.
A struct, containing the root of the expression tree.
From https://en.cppreference.com/w/cpp/utility/variant/visit.
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)
Type-checking index column binding.
std::span< TableRef const > refs
void bind(T const *table)
static constexpr bool chunked
arrow::ChunkedArray * second
Column(ColumnIterator< T > const &it)
static constexpr const char *const & columnLabel()
ColumnIterator< T > const & getIterator() const
Column & operator=(Column const &)=default
Column(Column &&)=default
static auto asArrowField()
Column & operator=(Column &&)=default
Column(Column const &)=default
ColumnIterator< T > mColumnIterator
table_t::template iterator_template< DefaultIndexPolicy, self_t, Ts... > iterator
Concat(Ts const &... t, uint64_t offset=0)
typename table_t::persistent_columns_t persistent_columns_t
typename table_t::columns_t columns_t
const_iterator unfiltered_const_iterator
iterator unfiltered_iterator
table_t::template iterator_template< FilteredIndexPolicy, self_t, Ts... > filtered_iterator
Concat(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
filtered_iterator filtered_const_iterator
DefaultIndexPolicy(int64_t nRows, uint64_t offset)
friend bool operator==(DefaultIndexPolicy const &lh, DefaultIndexPolicy const &rh)
bool operator==(RowViewSentinel const &sentinel) const
DefaultIndexPolicy(FilteredIndexPolicy const &other)
std::tuple< uint64_t const * > getOffsets() const
DefaultIndexPolicy & operator=(DefaultIndexPolicy &&)=default
void setCursor(int64_t i)
void limitRange(int64_t start, int64_t end)
DefaultIndexPolicy(DefaultIndexPolicy &&)=default
DefaultIndexPolicy(DefaultIndexPolicy const &)=default
DefaultIndexPolicy & operator=(DefaultIndexPolicy const &)=default
std::tuple< int64_t const *, int64_t const * > getIndices() const
DefaultIndexPolicy()=default
Needed to be able to copy the policy.
void moveByIndex(int64_t i)
static constexpr const char *const & columnLabel()
void resetSelection(gsl::span< int64_t const > selection)
FilteredIndexPolicy & operator=(FilteredIndexPolicy &&)=default
std::tuple< int64_t const *, int64_t const * > getIndices() const
FilteredIndexPolicy & operator=(FilteredIndexPolicy const &)=default
auto getSelectionRow() const
FilteredIndexPolicy()=default
friend bool operator==(FilteredIndexPolicy const &lh, FilteredIndexPolicy const &rh)
void setCursor(int64_t i)
FilteredIndexPolicy(FilteredIndexPolicy const &)=default
bool operator==(RowViewSentinel const &sentinel) const
std::tuple< uint64_t const * > getOffsets() const
void limitRange(int64_t start, int64_t end)
FilteredIndexPolicy(gsl::span< int64_t const > selection, int64_t rows, uint64_t offset=0)
FilteredIndexPolicy(FilteredIndexPolicy &&)=default
void moveByIndex(int64_t i)
static constexpr bool chunked
static constexpr const char *const & columnLabel()
static constexpr const uint32_t hash
uint64_t mOffset
Offset within a larger table.
int64_t mRowIndex
Position inside the current table.
IndexTable(std::vector< std::shared_ptr< arrow::Table > > tables, uint64_t offset=0)
IndexTable(std::shared_ptr< arrow::Table > table, uint64_t offset=0)
typename base_t::template iterator_template_o< DefaultIndexPolicy, self_t > iterator
filtered_iterator const_filtered_iterator
IndexTable(IndexTable &&)=default
IndexTable & operator=(IndexTable const &)=default
IndexTable & operator=(IndexTable &&)=default
typename H::binding_t first_t
typename base_t::template iterator_template_o< FilteredIndexPolicy, self_t > filtered_iterator
IndexTable(IndexTable const &)=default
Index(Index const &)=default
void setIndices(std::tuple< int64_t const *, int64_t const * > indices)
Index & operator=(Index &&)=default
Index(arrow::ChunkedArray const *)
int64_t filteredIndex() const
constexpr int64_t rangeEnd()
constexpr int64_t rangeStart()
Index & operator=(Index const &)=default
int64_t globalIndex() const
std::tuple< int64_t const *, int64_t const * > rowIndices
void setOffsets(std::tuple< uint64_t const * > offsets)
static constexpr const char * mLabel
std::tuple< uint64_t const * > rowOffsets
iterator unfiltered_iterator
auto sliceBy(o2::framework::PresliceBase< T1, Policy, OPT > const &container, int value) const
auto rawSlice(uint64_t start, uint64_t end) const
auto sliceByCachedUnsorted(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
JoinFull(std::vector< std::shared_ptr< arrow::Table > > &&tables, uint64_t offset=0)
static constexpr const auto originalLabels
const_iterator unfiltered_const_iterator
filtered_iterator filtered_const_iterator
static consteval bool contains()
iterator iteratorAt(uint64_t i) const
typename table_t::columns_t columns_t
table_t::template iterator_template< DefaultIndexPolicy, self_t, Ts... > iterator
table_t::template iterator_template< FilteredIndexPolicy, self_t, Ts... > filtered_iterator
static constexpr const auto originals
JoinFull< D, Ts... > self_t
const_iterator begin() const
typename table_t::persistent_columns_t persistent_columns_t
iterator rawIteratorAt(uint64_t i) const
Table< o2::aod::Hash<"JOIN"_h >, D, o2::aod::Hash<"JOIN"_h >, Ts... > base
JoinFull(std::shared_ptr< arrow::Table > &&table, uint64_t offset=0)
auto sliceByCached(framework::expressions::BindingNode const &node, int value, o2::framework::SliceCache &cache) const
static constexpr const uint32_t hash
static constexpr const char *const & columnLabel()
Marker & operator=(Marker const &)=default
static constexpr auto value
static constexpr const char * mLabel
Marker(arrow::ChunkedArray const *)
Marker(Marker const &)=default
Marker & operator=(Marker &&)=default
Marker(Marker &&)=default
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, SelectionVector &&selection, uint64_t offset=0)
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gsl::span< int64_t const > const &selection, uint64_t offset=0)
SmallGroupsBase(std::vector< std::shared_ptr< arrow::Table > > &&tables, gandiva::Selection const &selection, uint64_t offset=0)
framework::selected_pack< soa::is_persistent_column_t, C... > persistent_columns_t
void doSetCurrentIndexRaw(framework::pack< Cs... > p, std::vector< o2::soa::Binding > &&ptrs)
void bindInternalIndices(I const *table)
TableIterator(TableIterator< D, O, FilteredIndexPolicy, C... > const &other)
TableIterator(self_t const &other)
TableIterator operator-(int64_t dec) const
TableIterator(arrow::ChunkedArray *columnData[sizeof...(C)], IP &&policy)
TableIterator & operator=(TableIterator other)
TableIterator & operator++()
void doSetCurrentInternal(framework::pack< Cs... >, I const *ptr)
auto getIndexBindingsImpl(framework::pack< Cs... >) const
TableIterator operator--(int)
void bindExternalIndicesRaw(std::vector< o2::soa::Binding > &&ptrs)
TableIterator(arrow::ChunkedArray *columnData[sizeof...(C)], IP &&policy)
decltype([]< typename... Cs >(framework::pack< Cs... >) -> framework::pack< typename Cs::binding_t... > {}(external_index_columns_t{})) bindings_pack_t
void bindExternalIndices(TA *... current)
TableIterator & operator--()
framework::selected_pack< soa::is_external_index_t, C... > external_index_columns_t
TableIterator const & operator*() const
TableIterator operator++(int)
framework::selected_pack< soa::is_self_index_t, C... > internal_index_columns_t
auto getIndexBindings() const
void doSetCurrentIndex(framework::pack< CL... >, TA *current)
TableIterator operator+(int64_t inc) const
Allow incrementing by more than one the iterator.
Generic identifier for a table type.
constexpr TableRef & operator=(TableRef const &)=default
constexpr bool descriptionCompatible(uint32_t _desc_hash) const noexcept
constexpr bool operator==(TableRef const &other) const noexcept
constexpr TableRef(TableRef &&)=default
constexpr TableRef(TableRef const &)=default
consteval TableRef(uint32_t _label, uint32_t _desc, uint32_t _origin, uint32_t _version)
constexpr bool descriptionCompatible(TableRef const &other) const noexcept
constexpr TableRef & operator=(TableRef &&)=default
TableIteratorBase const & operator*() const
TableIteratorBase(TableIteratorBase< IP, P, T... > const &other)
typename Parent::columns_t columns_t
TableIteratorBase(TableIteratorBase< IP, P, O1, Os... > const &other)
typename Parent::external_index_columns_t external_index_columns_t
TableIteratorBase operator-(int64_t dec) const
void matchTo(TableIteratorBase< IP, P, T... > const &other)
auto getDynamicColumn() const
TableIteratorBase()=default
void matchTo(TableIteratorBase< IP, P, Os... > const &other)
TableIteratorBase(TableIteratorBase< FilteredIndexPolicy, P, T... > other)
std::array< B, sizeof...(CCs)> getValues() const
static constexpr auto originals
TableIteratorBase(TableIteratorBase< IP, P, T... > &&other) noexcept
decltype([]< typename... C >(framework::pack< C... >) -> framework::pack< typename C::binding_t... > {}(external_index_columns_t{})) bindings_pack_t
TableIteratorBase & operator=(TableIteratorBase< IP, P, Os... > other)
TableIteratorBase(TableIteratorBase< IP, P, O1, Os... > &&other) noexcept
TableIteratorBase & operator=(RowViewSentinel const &other)
TableIteratorBase(arrow::ChunkedArray *columnData[framework::pack_size(columns_t{})], IP &&policy)
TableIteratorBase & operator=(TableIteratorBase< IP, P, T... > other)
TableIteratorBase operator+(int64_t inc) const
Allow incrementing by more than one the iterator.
TableIteratorBase & operator=(TableIteratorBase< FilteredIndexPolicy, P, T... > other)
VectorOfTObjectPtrs other
std::vector< ReadoutWindowData > rows