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#pragma once
#include <unordered_set>
#include <Columns/ColumnsNumber.h>
#include <Columns/ColumnArray.h>
#include <Common/assert_cast.h>
#include <DataTypes/DataTypesNumber.h>
#include <DataTypes/DataTypeArray.h>
#include <IO/ReadHelpers.h>
#include <IO/WriteHelpers.h>
#include <base/range.h>
#include <bitset>
#include <AggregateFunctions/IAggregateFunction.h>
namespace DB
{
struct Settings;
namespace ErrorCodes
{
extern const int ILLEGAL_TYPE_OF_ARGUMENT;
}
struct AggregateFunctionRetentionData
{
static constexpr auto max_events = 32;
using Events = std::bitset<max_events>;
Events events;
void add(UInt8 event)
{
events.set(event);
}
void merge(const AggregateFunctionRetentionData & other)
{
events |= other.events;
}
void serialize(WriteBuffer & buf) const
{
UInt32 event_value = static_cast<UInt32>(events.to_ulong());
writeBinary(event_value, buf);
}
void deserialize(ReadBuffer & buf)
{
UInt32 event_value;
readBinary(event_value, buf);
events = event_value;
}
};
/**
* The max size of events is 32, that's enough for retention analytics
*
* Usage:
* - retention(cond1, cond2, cond3, ....)
* - returns [cond1_flag, cond1_flag && cond2_flag, cond1_flag && cond3_flag, ...]
*/
class AggregateFunctionRetention final
: public IAggregateFunctionDataHelper<AggregateFunctionRetentionData, AggregateFunctionRetention>
{
private:
UInt8 events_size;
public:
String getName() const override
{
return "retention";
}
explicit AggregateFunctionRetention(const DataTypes & arguments)
: IAggregateFunctionDataHelper<AggregateFunctionRetentionData, AggregateFunctionRetention>(arguments, {}, std::make_shared<DataTypeArray>(std::make_shared<DataTypeUInt8>()))
{
for (const auto i : collections::range(0, arguments.size()))
{
const auto * cond_arg = arguments[i].get();
if (!isUInt8(cond_arg))
throw Exception(ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT,
"Illegal type {} of argument {} of aggregate function {}, must be UInt8",
cond_arg->getName(), i, getName());
}
events_size = static_cast<UInt8>(arguments.size());
}
bool allocatesMemoryInArena() const override { return false; }
void add(AggregateDataPtr __restrict place, const IColumn ** columns, const size_t row_num, Arena *) const override
{
for (const auto i : collections::range(0, events_size))
{
auto event = assert_cast<const ColumnVector<UInt8> *>(columns[i])->getData()[row_num];
if (event)
{
this->data(place).add(i);
}
}
}
void merge(AggregateDataPtr __restrict place, ConstAggregateDataPtr rhs, Arena *) const override
{
this->data(place).merge(this->data(rhs));
}
void serialize(ConstAggregateDataPtr __restrict place, WriteBuffer & buf, std::optional<size_t> /* version */) const override
{
this->data(place).serialize(buf);
}
void deserialize(AggregateDataPtr __restrict place, ReadBuffer & buf, std::optional<size_t> /* version */, Arena *) const override
{
this->data(place).deserialize(buf);
}
void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override
{
auto & data_to = assert_cast<ColumnUInt8 &>(assert_cast<ColumnArray &>(to).getData()).getData();
auto & offsets_to = assert_cast<ColumnArray &>(to).getOffsets();
ColumnArray::Offset current_offset = data_to.size();
data_to.resize(current_offset + events_size);
const bool first_flag = this->data(place).events.test(0);
data_to[current_offset] = first_flag;
++current_offset;
for (size_t i = 1; i < events_size; ++i)
{
data_to[current_offset] = (first_flag && this->data(place).events.test(i));
++current_offset;
}
offsets_to.push_back(current_offset);
}
};
}
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