mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-02 04:22:03 +00:00
d36f52502e
It's still hackish and dirty, but server and client compies. Server starts, but throwes meaningless exception on any query. Client seems to be working fine. Linux compilation might (but shouldn't) be broken (not tested).
531 lines
14 KiB
C++
531 lines
14 KiB
C++
#pragma once
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#include <DB/AggregateFunctions/IAggregateFunction.h>
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#include <DB/DataTypes/DataTypeDateTime.h>
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#include <DB/DataTypes/DataTypesNumberFixed.h>
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#include <DB/Parsers/CommonParsers.h>
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#include <ext/range.hpp>
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#include <boost/range/iterator_range_core.hpp>
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#include <DB/Parsers/ExpressionElementParsers.h>
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#include <DB/Parsers/ASTLiteral.h>
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#include <DB/Common/PODArray.h>
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#include <bitset>
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#include <stack>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int TOO_SLOW;
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extern const int TOO_LESS_ARGUMENTS_FOR_FUNCTION;
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extern const int TOO_MUCH_ARGUMENTS_FOR_FUNCTION;
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extern const int SYNTAX_ERROR;
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}
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/// helper type for comparing `std::pair`s using solely the .first member
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template <template <typename> class Comparator>
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struct ComparePairFirst final
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{
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template <typename T1, typename T2>
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bool operator()(const std::pair<T1, T2> & lhs, const std::pair<T1, T2> & rhs) const
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{
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return Comparator<T1>{}(lhs.first, rhs.first);
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}
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};
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struct AggregateFunctionSequenceMatchData final
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{
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static constexpr auto max_events = 32;
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using Timestamp = std::uint32_t;
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using Events = std::bitset<max_events>;
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using TimestampEvents = std::pair<Timestamp, Events>;
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using Comparator = ComparePairFirst<std::less>;
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bool sorted = true;
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static constexpr size_t bytes_in_arena = 64;
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PODArray<TimestampEvents, bytes_in_arena, AllocatorWithStackMemory<Allocator<false>, bytes_in_arena>> eventsList;
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void add(const Timestamp timestamp, const Events & events)
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{
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/// store information exclusively for rows with at least one event
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if (events.any())
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{
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eventsList.emplace_back(timestamp, events);
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sorted = false;
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}
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}
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void merge(const AggregateFunctionSequenceMatchData & other)
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{
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const auto size = eventsList.size();
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eventsList.insert(std::begin(other.eventsList), std::end(other.eventsList));
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/// either sort whole container or do so partially merging ranges afterwards
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if (!sorted && !other.sorted)
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std::sort(std::begin(eventsList), std::end(eventsList), Comparator{});
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else
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{
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const auto begin = std::begin(eventsList);
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const auto middle = std::next(begin, size);
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const auto end = std::end(eventsList);
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if (!sorted)
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std::sort(begin, middle, Comparator{});
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if (!other.sorted)
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std::sort(middle, end, Comparator{});
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std::inplace_merge(begin, middle, end, Comparator{});
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}
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sorted = true;
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}
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void sort()
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{
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if (!sorted)
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{
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std::sort(std::begin(eventsList), std::end(eventsList), Comparator{});
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sorted = true;
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}
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}
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void serialize(WriteBuffer & buf) const
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{
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writeBinary(sorted, buf);
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writeBinary(eventsList.size(), buf);
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for (const auto & events : eventsList)
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{
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writeBinary(events.first, buf);
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writeBinary(events.second.to_ulong(), buf);
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}
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}
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void deserialize(ReadBuffer & buf)
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{
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readBinary(sorted, buf);
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std::size_t size;
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readBinary(size, buf);
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eventsList.clear();
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eventsList.reserve(size);
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for (std::size_t i = 0; i < size; ++i)
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{
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std::uint32_t timestamp;
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readBinary(timestamp, buf);
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UInt64 events;
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readBinary(events, buf);
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eventsList.emplace_back(timestamp, Events{events});
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}
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}
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};
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/// Max number of iterations to match the pattern against a sequence, exception thrown when exceeded
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constexpr auto sequence_match_max_iterations = 1000000;
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class AggregateFunctionSequenceMatch : public IAggregateFunctionHelper<AggregateFunctionSequenceMatchData>
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{
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public:
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static bool sufficientArgs(const std::size_t arg_count) { return arg_count >= 3; }
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String getName() const override { return "sequenceMatch"; }
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DataTypePtr getReturnType() const override { return std::make_shared<DataTypeUInt8>(); }
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void setParameters(const Array & params) override
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{
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if (params.size() != 1)
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throw Exception{
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"Aggregate function " + getName() + " requires exactly one parameter.",
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ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH
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};
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pattern = params.front().safeGet<std::string>();
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}
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void setArguments(const DataTypes & arguments) override
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{
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arg_count = arguments.size();
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if (!sufficientArgs(arg_count))
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throw Exception{
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"Aggregate function " + getName() + " requires at least 3 arguments.",
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ErrorCodes::TOO_LESS_ARGUMENTS_FOR_FUNCTION
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};
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if (arg_count - 1 > Data::max_events)
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throw Exception{
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"Aggregate function " + getName() + " supports up to " +
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std::to_string(Data::max_events) + " event arguments.",
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ErrorCodes::TOO_MUCH_ARGUMENTS_FOR_FUNCTION
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};
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const auto time_arg = arguments.front().get();
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if (!typeid_cast<const DataTypeDateTime *>(time_arg))
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throw Exception{
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"Illegal type " + time_arg->getName() + " of first argument of aggregate function " +
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getName() + ", must be DateTime",
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ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT
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};
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for (const auto i : ext::range(1, arg_count))
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{
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const auto cond_arg = arguments[i].get();
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if (!typeid_cast<const DataTypeUInt8 *>(cond_arg))
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throw Exception{
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"Illegal type " + cond_arg->getName() + " of argument " + toString(i + 1) +
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" of aggregate function " + getName() + ", must be UInt8",
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ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT
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};
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}
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parsePattern();
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}
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void add(AggregateDataPtr place, const IColumn ** columns, const size_t row_num, Arena *) const override
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{
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const auto timestamp = static_cast<const ColumnUInt32 *>(columns[0])->getData()[row_num];
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Data::Events events;
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for (const auto i : ext::range(1, arg_count))
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{
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const auto event = static_cast<const ColumnUInt8 *>(columns[i])->getData()[row_num];
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events.set(i - 1, event);
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}
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data(place).add(timestamp, events);
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}
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void merge(AggregateDataPtr place, ConstAggregateDataPtr rhs, Arena * arena) const override
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{
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data(place).merge(data(rhs));
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}
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void serialize(ConstAggregateDataPtr place, WriteBuffer & buf) const override
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{
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data(place).serialize(buf);
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}
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void deserialize(AggregateDataPtr place, ReadBuffer & buf, Arena *) const override
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{
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data(place).deserialize(buf);
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}
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void insertResultInto(ConstAggregateDataPtr place, IColumn & to) const override
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{
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const_cast<Data &>(data(place)).sort();
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const auto & data_ref = data(place);
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const auto events_begin = std::begin(data_ref.eventsList);
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const auto events_end = std::end(data_ref.eventsList);
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auto events_it = events_begin;
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static_cast<ColumnUInt8 &>(to).getData().push_back(match(events_it, events_end));
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}
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static void addFree(const IAggregateFunction * that, AggregateDataPtr place, const IColumn ** columns, size_t row_num, Arena * arena)
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{
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static_cast<const AggregateFunctionSequenceMatch &>(*that).add(place, columns, row_num, arena);
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}
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IAggregateFunction::AddFunc getAddressOfAddFunction() const override final { return &addFree; }
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private:
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enum class PatternActionType
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{
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SpecificEvent,
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AnyEvent,
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KleeneStar,
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TimeLessOrEqual,
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TimeLess,
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TimeGreaterOrEqual,
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TimeGreater
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};
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struct PatternAction final
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{
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PatternActionType type;
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std::uint32_t extra;
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PatternAction() = default;
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PatternAction(const PatternActionType type, const std::uint32_t extra = 0) : type{type}, extra{extra} {}
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};
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static constexpr size_t bytes_on_stack = 64;
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using PatternActions = PODArray<PatternAction, bytes_on_stack, AllocatorWithStackMemory<Allocator<false>, bytes_on_stack>>;
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void parsePattern()
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{
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actions.clear();
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actions.emplace_back(PatternActionType::KleeneStar);
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ParserString special_open_p("(?");
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ParserString special_close_p(")");
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ParserString t_p("t");
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ParserString less_or_equal_p("<=");
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ParserString less_p("<");
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ParserString greater_or_equal_p(">=");
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ParserString greater_p(">");
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ParserString dot_closure_p(".*");
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ParserString dot_p(".");
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ParserNumber number_p;
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auto pos = pattern.data();
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const auto begin = pos;
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const auto end = pos + pattern.size();
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ASTPtr node;
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decltype(pos) max_parsed_pos{};
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Expected expected;
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const auto throw_exception = [&] (const std::string & msg) {
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throw Exception{
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msg + " '" + std::string(pos, end) + "' at position " + std::to_string(pos - begin),
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ErrorCodes::SYNTAX_ERROR
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};
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};
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while (pos < end)
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{
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if (special_open_p.ignore(pos, end))
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{
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if (t_p.ignore(pos, end))
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{
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PatternActionType type;
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if (less_or_equal_p.ignore(pos, end))
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type = PatternActionType::TimeLessOrEqual;
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else if (less_p.ignore(pos, end))
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type = PatternActionType::TimeLess;
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else if (greater_or_equal_p.ignore(pos, end))
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type = PatternActionType::TimeGreaterOrEqual;
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else if (greater_p.ignore(pos, end))
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type = PatternActionType::TimeGreater;
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else
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throw_exception("Unknown time condition");
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if (!number_p.parse(pos, end, node, max_parsed_pos, expected))
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throw_exception("Could not parse number");
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if (actions.back().type != PatternActionType::SpecificEvent &&
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actions.back().type != PatternActionType::AnyEvent &&
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actions.back().type != PatternActionType::KleeneStar)
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throw Exception{
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"Temporal condition should be preceeded by an event condition",
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ErrorCodes::BAD_ARGUMENTS
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};
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actions.emplace_back(type, typeid_cast<const ASTLiteral &>(*node).value.safeGet<UInt64>());
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}
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else if (number_p.parse(pos, end, node, max_parsed_pos, expected))
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{
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const auto event_number = typeid_cast<const ASTLiteral &>(*node).value.safeGet<UInt64>();
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if (event_number > arg_count - 1)
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throw Exception{
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"Event number " + std::to_string(event_number) + " is out of range",
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ErrorCodes::BAD_ARGUMENTS
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};
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actions.emplace_back(PatternActionType::SpecificEvent, event_number - 1);
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}
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else
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throw_exception("Unexpected special sequence");
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if (!special_close_p.ignore(pos, end))
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throw_exception("Expected closing parenthesis, found");
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}
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else if (dot_closure_p.ignore(pos, end))
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actions.emplace_back(PatternActionType::KleeneStar);
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else if (dot_p.ignore(pos, end))
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actions.emplace_back(PatternActionType::AnyEvent);
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else
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throw_exception("Could not parse pattern, unexpected starting symbol");
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}
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}
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protected:
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template <typename T>
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bool match(T & events_it, const T events_end) const
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{
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const auto action_begin = std::begin(actions);
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const auto action_end = std::end(actions);
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auto action_it = action_begin;
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const auto events_begin = events_it;
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auto base_it = events_it;
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/// an iterator to action plus an iterator to row in events list plus timestamp at the start of sequence
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using backtrack_info = std::tuple<decltype(action_it), T, T>;
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std::stack<backtrack_info> back_stack;
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/// backtrack if possible
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const auto do_backtrack = [&] {
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while (!back_stack.empty())
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{
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auto & top = back_stack.top();
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action_it = std::get<0>(top);
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events_it = std::next(std::get<1>(top));
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base_it = std::get<2>(top);
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back_stack.pop();
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if (events_it != events_end)
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return true;
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}
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return false;
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};
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std::size_t i = 0;
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while (action_it != action_end && events_it != events_end)
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{
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if (action_it->type == PatternActionType::SpecificEvent)
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{
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if (events_it->second.test(action_it->extra))
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{
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/// move to the next action and events
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base_it = events_it;
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++action_it, ++events_it;
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}
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else if (!do_backtrack())
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/// backtracking failed, bail out
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break;
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}
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else if (action_it->type == PatternActionType::AnyEvent)
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{
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base_it = events_it;
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++action_it, ++events_it;
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}
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else if (action_it->type == PatternActionType::KleeneStar)
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{
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back_stack.emplace(action_it, events_it, base_it);
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base_it = events_it;
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++action_it;
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}
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else if (action_it->type == PatternActionType::TimeLessOrEqual)
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{
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if (events_it->first - base_it->first <= action_it->extra)
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{
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/// condition satisfied, move onto next action
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back_stack.emplace(action_it, events_it, base_it);
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base_it = events_it;
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++action_it;
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}
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else if (!do_backtrack())
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break;
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}
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else if (action_it->type == PatternActionType::TimeLess)
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{
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if (events_it->first - base_it->first < action_it->extra)
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{
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back_stack.emplace(action_it, events_it, base_it);
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base_it = events_it;
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++action_it;
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}
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else if (!do_backtrack())
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break;
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}
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else if (action_it->type == PatternActionType::TimeGreaterOrEqual)
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{
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if (events_it->first - base_it->first >= action_it->extra)
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{
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back_stack.emplace(action_it, events_it, base_it);
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base_it = events_it;
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++action_it;
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}
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else if (++events_it == events_end && !do_backtrack())
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break;
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}
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else if (action_it->type == PatternActionType::TimeGreater)
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{
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if (events_it->first - base_it->first > action_it->extra)
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{
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back_stack.emplace(action_it, events_it, base_it);
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base_it = events_it;
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++action_it;
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}
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else if (++events_it == events_end && !do_backtrack())
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break;
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}
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else
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throw Exception{
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"Unknown PatternActionType",
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ErrorCodes::LOGICAL_ERROR
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};
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if (++i > sequence_match_max_iterations)
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throw Exception{
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"Pattern application proves too difficult, exceeding max iterations (" + toString(sequence_match_max_iterations) + ")",
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ErrorCodes::TOO_SLOW
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};
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}
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/// if there are some actions remaining
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if (action_it != action_end)
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{
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/// match multiple empty strings at end
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while (action_it->type == PatternActionType::KleeneStar ||
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action_it->type == PatternActionType::TimeLessOrEqual ||
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action_it->type == PatternActionType::TimeLess ||
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(action_it->type == PatternActionType::TimeGreaterOrEqual && action_it->extra == 0))
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++action_it;
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}
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if (events_it == events_begin)
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++events_it;
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return action_it == action_end;
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}
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private:
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std::string pattern;
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std::size_t arg_count;
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PatternActions actions;
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};
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class AggregateFunctionSequenceCount final : public AggregateFunctionSequenceMatch
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{
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public:
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String getName() const override { return "sequenceCount"; }
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DataTypePtr getReturnType() const override { return std::make_shared<DataTypeUInt64>(); }
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void insertResultInto(ConstAggregateDataPtr place, IColumn & to) const override
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{
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const_cast<Data &>(data(place)).sort();
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static_cast<ColumnUInt64 &>(to).getData().push_back(count(place));
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}
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private:
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UInt64 count(const ConstAggregateDataPtr & place) const
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{
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const auto & data_ref = data(place);
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const auto events_begin = std::begin(data_ref.eventsList);
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const auto events_end = std::end(data_ref.eventsList);
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auto events_it = events_begin;
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std::size_t count = 0;
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while (events_it != events_end && match(events_it, events_end))
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++count;
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return count;
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}
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};
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}
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