ClickHouse/src/AggregateFunctions/AggregateFunctionUniqCombined.cpp

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#include <AggregateFunctions/AggregateFunctionUniqCombined.h>
#include <AggregateFunctions/AggregateFunctionFactory.h>
#include <AggregateFunctions/Helpers.h>
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#include <Common/FieldVisitorConvertToNumber.h>
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#include <DataTypes/DataTypeDate.h>
#include <DataTypes/DataTypeDate32.h>
#include <DataTypes/DataTypeDateTime.h>
#include <functional>
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namespace DB
{
struct Settings;
namespace ErrorCodes
{
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
extern const int ARGUMENT_OUT_OF_BOUND;
}
namespace
{
template <UInt8 K, typename HashValueType>
struct WithK
{
template <typename T>
using AggregateFunction = AggregateFunctionUniqCombined<T, K, HashValueType>;
template <bool is_exact, bool argument_is_tuple>
using AggregateFunctionVariadic = AggregateFunctionUniqCombinedVariadic<is_exact, argument_is_tuple, K, HashValueType>;
};
template <UInt8 K, typename HashValueType>
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AggregateFunctionPtr createAggregateFunctionWithK(const DataTypes & argument_types, const Array & params)
{
/// We use exact hash function if the arguments are not contiguous in memory, because only exact hash function has support for this case.
bool use_exact_hash_function = !isAllArgumentsContiguousInMemory(argument_types);
if (argument_types.size() == 1)
{
const IDataType & argument_type = *argument_types[0];
AggregateFunctionPtr res(createWithNumericType<WithK<K, HashValueType>::template AggregateFunction>(*argument_types[0], argument_types, params));
WhichDataType which(argument_type);
if (res)
return res;
else if (which.isDate())
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunction<DataTypeDate::FieldType>>(argument_types, params);
else if (which.isDate32())
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunction<DataTypeDate32::FieldType>>(argument_types, params);
else if (which.isDateTime())
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunction<DataTypeDateTime::FieldType>>(argument_types, params);
else if (which.isStringOrFixedString())
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunction<String>>(argument_types, params);
else if (which.isUUID())
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunction<DataTypeUUID::FieldType>>(argument_types, params);
else if (which.isTuple())
{
if (use_exact_hash_function)
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunctionVariadic<true, true>>(argument_types, params);
else
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunctionVariadic<false, true>>(argument_types, params);
}
}
/// "Variadic" method also works as a fallback generic case for a single argument.
if (use_exact_hash_function)
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunctionVariadic<true, false>>(argument_types, params);
else
return std::make_shared<typename WithK<K, HashValueType>::template AggregateFunctionVariadic<false, false>>(argument_types, params);
}
template <UInt8 K>
AggregateFunctionPtr createAggregateFunctionWithHashType(bool use_64_bit_hash, const DataTypes & argument_types, const Array & params)
{
if (use_64_bit_hash)
return createAggregateFunctionWithK<K, UInt64>(argument_types, params);
else
return createAggregateFunctionWithK<K, UInt32>(argument_types, params);
}
AggregateFunctionPtr createAggregateFunctionUniqCombined(bool use_64_bit_hash,
const std::string & name, const DataTypes & argument_types, const Array & params)
{
/// log2 of the number of cells in HyperLogLog.
/// Reasonable default value, selected to be comparable in quality with "uniq" aggregate function.
UInt8 precision = 17;
if (!params.empty())
{
if (params.size() != 1)
throw Exception(
"Aggregate function " + name + " requires one parameter or less.", ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
UInt64 precision_param = applyVisitor(FieldVisitorConvertToNumber<UInt64>(), params[0]);
// This range is hardcoded below
if (precision_param > 20 || precision_param < 12)
throw Exception(
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"Parameter for aggregate function " + name + " is out of range: [12, 20].", ErrorCodes::ARGUMENT_OUT_OF_BOUND);
precision = precision_param;
}
if (argument_types.empty())
throw Exception("Incorrect number of arguments for aggregate function " + name, ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
switch (precision)
{
case 12:
return createAggregateFunctionWithHashType<12>(use_64_bit_hash, argument_types, params);
case 13:
return createAggregateFunctionWithHashType<13>(use_64_bit_hash, argument_types, params);
case 14:
return createAggregateFunctionWithHashType<14>(use_64_bit_hash, argument_types, params);
case 15:
return createAggregateFunctionWithHashType<15>(use_64_bit_hash, argument_types, params);
case 16:
return createAggregateFunctionWithHashType<16>(use_64_bit_hash, argument_types, params);
case 17:
return createAggregateFunctionWithHashType<17>(use_64_bit_hash, argument_types, params);
case 18:
return createAggregateFunctionWithHashType<18>(use_64_bit_hash, argument_types, params);
case 19:
return createAggregateFunctionWithHashType<19>(use_64_bit_hash, argument_types, params);
case 20:
return createAggregateFunctionWithHashType<20>(use_64_bit_hash, argument_types, params);
}
UNREACHABLE();
}
}
void registerAggregateFunctionUniqCombined(AggregateFunctionFactory & factory)
{
using namespace std::placeholders;
factory.registerFunction("uniqCombined",
[](const std::string & name, const DataTypes & argument_types, const Array & parameters, const Settings *)
{
return createAggregateFunctionUniqCombined(false, name, argument_types, parameters);
});
factory.registerFunction("uniqCombined64",
[](const std::string & name, const DataTypes & argument_types, const Array & parameters, const Settings *)
{
return createAggregateFunctionUniqCombined(true, name, argument_types, parameters);
});
}
}