mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-18 04:12:19 +00:00
302 lines
12 KiB
C++
302 lines
12 KiB
C++
#pragma once
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#include <DataTypes/DataTypesNumber.h>
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#include <DataTypes/DataTypeArray.h>
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#include <Columns/ColumnArray.h>
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#include <Columns/ColumnConst.h>
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#include <Columns/ColumnsNumber.h>
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#include <Functions/IFunction.h>
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#include <Functions/FunctionHelpers.h>
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#include <IO/WriteHelpers.h>
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#include <Common/typeid_cast.h>
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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 NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
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extern const int ILLEGAL_COLUMN;
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}
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enum ClusterOperation
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{
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FindClusterIndex = 0,
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FindCentroidValue = 1
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};
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/// The centroid values are converted to Float64 for easier coding of
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/// distance calculations.
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///
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/// We assume to have 10th to 100th centroids, usually of type Float64, as a typical use case.
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/// While it is possible to sort centroids and use a modification of a binary search to find the
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/// nearest centroid, we think for arrays of 10th to 100th this might be an overkill.
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///
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/// Also, even though centroids of other types are feasible, this first implementation
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/// lacks support of them for simplicity. Date, DateTime and Strings (eg. with the
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/// Levenshtein distance) could be theoretically supported, as well as custom distance
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/// functions (eg. Hamming distance) using Clickhouse lambdas.
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// Centroids array has the same size as number of clusters.
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size_t find_centroid(Float64 x, std::vector<Float64> & centroids)
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{
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// Centroids array has to have at least one element, and if it has only one element,
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// it is also the result of this Function.
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Float64 distance = std::abs(centroids[0] - x);
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size_t index = 0;
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// Check if we have more clusters and if we have, whether some is closer to src[i]
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for (size_t j = 1; j < centroids.size(); ++j)
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{
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Float64 next_distance = std::abs(centroids[j] - x);
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if (next_distance < distance)
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{
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distance = next_distance;
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index = j;
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}
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}
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// Index of the closest cluster, or 0 in case of just one cluster
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return index;
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}
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/** findClusterIndex(x, centroids_array) - find index of element in centroids_array with the value nearest to x
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* findClusterValue(x, centroids_array) - find value of element in centroids_array with the value nearest to x
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*
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* Types:
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* findClusterIndex(T, Array(T)) -> UInt64
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* findClusterValue(T, Array(T)) -> T
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*
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* T can be any numeric type.
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* centroids_array must be constant
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*/
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class FunctionFindClusterIndex : public IFunction
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{
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public:
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static constexpr auto name = "findClusterIndex";
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static FunctionPtr create(const Context &)
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{
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return std::make_shared<FunctionFindClusterIndex>();
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}
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String getName() const override
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{
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return FunctionFindClusterIndex::name;
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}
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bool isVariadic() const override
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{
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return true;
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}
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size_t getNumberOfArguments() const override
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{
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return 0;
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}
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bool useDefaultImplementationForConstants() const override { return true; }
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ColumnNumbers getArgumentsThatAreAlwaysConstant() const override { return {1}; }
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DataTypePtr getReturnTypeImpl(const DataTypes & arguments) const override
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{
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const auto args_size = arguments.size();
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if (args_size != 2)
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throw Exception{"Number of arguments for function " + getName() + " doesn't match: passed " + toString(args_size) + ", should be 2",
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ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH};
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const auto type_x = arguments[0];
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if (!isNativeNumber(type_x))
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throw Exception{"Unsupported type " + type_x->getName() + " of first argument of function " + getName() + " must be a numeric type",
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ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT};
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const DataTypeArray * type_arr_from = checkAndGetDataType<DataTypeArray>(arguments[1].get());
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if (!type_arr_from)
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throw Exception{"Second argument of function " + getName() + " must be literal array", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT};
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return std::make_shared<DataTypeUInt64>();
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}
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void executeImpl(Block & block, const ColumnNumbers & arguments, size_t result, size_t /*input_rows_count*/) override
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{
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const auto in_untyped = block.getByPosition(arguments[0]).column.get();
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const auto centroids_array_untyped = block.getByPosition(arguments[1]).column.get();
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auto column_result = block.getByPosition(result).type->createColumn();
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auto out_untyped = column_result.get();
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if (!isColumnConst(*centroids_array_untyped))
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throw Exception{"Second argument of function " + getName() + " must be literal array", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT};
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executeImplTyped(in_untyped, out_untyped, centroids_array_untyped);
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block.getByPosition(result).column = std::move(column_result);
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}
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protected:
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virtual ClusterOperation getOperation()
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{
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return ClusterOperation::FindClusterIndex;
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}
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virtual void executeImplTyped(const IColumn* in_untyped, IColumn* out_untyped, const IColumn* centroids_array_untyped)
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{
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if (!executeOperation<UInt8, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt16, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt32, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt64, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int8, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int16, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int32, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int64, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Float32, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Float64, UInt64>(in_untyped, out_untyped, centroids_array_untyped))
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{
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throw Exception{"Function " + getName() + " expects both x and centroids_array of a numeric type."
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" Passed arguments are " + in_untyped->getName() + " and " + centroids_array_untyped->getName(), ErrorCodes::ILLEGAL_COLUMN};
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}
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}
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// Match the type of the centrods array and convert them to Float64, because we
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// don't want to have problems calculating negative distances of UInts
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template <typename CentroidsType>
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bool fillCentroids(const IColumn * centroids_array_untyped, std::vector<Float64> & centroids)
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{
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const ColumnConst * const_centroids_array = checkAndGetColumnConst<ColumnVector<Array>>(centroids_array_untyped);
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if (!const_centroids_array)
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return false;
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Array array = const_centroids_array->getValue<Array>();
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if (array.empty())
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throw Exception{"Centroids array must be not empty", ErrorCodes::ILLEGAL_COLUMN};
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for (size_t k = 0; k < array.size(); ++k)
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{
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const Field & tmp_field = array[k];
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NearestFieldType<CentroidsType> value;
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if (!tmp_field.tryGet(value))
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return false;
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centroids.push_back(Float64(value));
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}
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return true;
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}
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template <typename CentroidsType, typename OutputType>
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bool executeOperation(const IColumn * in_untyped, IColumn * out_untyped, const IColumn * centroids_array_untyped)
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{
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// Match the type of the output
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auto out = typeid_cast<ColumnVector<OutputType> *>(out_untyped);
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if (!out)
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return false;
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PaddedPODArray<OutputType> & dst = out->getData();
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// try to match the type of the input column
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if (!executeOperationTyped<UInt8, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<UInt16, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<UInt32, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<UInt64, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Int8, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Int16, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Int32, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Int64, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Float32, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped)
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&& !executeOperationTyped<Float64, OutputType, CentroidsType>(in_untyped, dst, centroids_array_untyped))
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{
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return false;
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}
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return true;
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}
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template <typename InputType, typename OutputType, typename CentroidsType>
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bool executeOperationTyped(const IColumn * in_untyped, PaddedPODArray<OutputType> & dst, const IColumn * centroids_array_untyped)
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{
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const auto maybe_const = in_untyped->convertToFullColumnIfConst();
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in_untyped = maybe_const.get();
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const auto in_vector = checkAndGetColumn<ColumnVector<InputType>>(in_untyped);
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if (in_vector)
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{
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const PaddedPODArray<InputType> & src = in_vector->getData();
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std::vector<Float64> centroids;
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if (!fillCentroids<CentroidsType>(centroids_array_untyped, centroids))
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return false;
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for (size_t i = 0; i < src.size(); ++i)
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{
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size_t index = find_centroid(Float64(src[i]), centroids);
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if (getOperation() == ClusterOperation::FindClusterIndex)
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// Note that array indexes start with 1 in Clickhouse
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dst.push_back(UInt64(index + 1));
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else if (getOperation() == ClusterOperation::FindCentroidValue)
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dst.push_back(centroids[index]);
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else
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throw Exception{"Unexpected error in findCluster* function", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT};
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}
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return true;
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}
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return false;
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}
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};
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class FunctionFindClusterValue : public FunctionFindClusterIndex
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{
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public:
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static constexpr auto name = "findClusterValue";
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static FunctionPtr create(const Context &)
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{
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return std::make_shared<FunctionFindClusterValue>();
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}
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DataTypePtr getReturnTypeImpl(const DataTypes & arguments) const override
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{
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FunctionFindClusterIndex::getReturnTypeImpl(arguments);
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const DataTypeArray * type_arr_from = checkAndGetDataType<DataTypeArray>(arguments[1].get());
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return type_arr_from->getNestedType();
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}
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String getName() const override
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{
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return FunctionFindClusterValue::name;
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}
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protected:
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ClusterOperation getOperation() override
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{
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return ClusterOperation::FindCentroidValue;
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}
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void executeImplTyped(const IColumn* in_untyped, IColumn* out_untyped, const IColumn* centroids_array_untyped) override
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{
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if (!executeOperation<UInt8, UInt8>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt16, UInt16>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt32, UInt32>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<UInt64, UInt64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int8, Int8>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int16, Int16>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int32, Int32>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Int64, Int64>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Float32, Float32>(in_untyped, out_untyped, centroids_array_untyped)
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&& !executeOperation<Float64, Float64>(in_untyped, out_untyped, centroids_array_untyped))
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{
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throw Exception{"Function " + getName() + " expects both x and centroids_array of a numeric type."
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"Passed arguments are " + in_untyped->getName() + " and " + centroids_array_untyped->getName(), ErrorCodes::ILLEGAL_COLUMN};
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}
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}
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};
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}
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