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444 lines
17 KiB
C++
444 lines
17 KiB
C++
#include <Interpreters/convertFieldToType.h>
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#include <IO/ReadBufferFromString.h>
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#include <IO/ReadHelpers.h>
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#include <DataTypes/DataTypeArray.h>
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#include <DataTypes/DataTypeTuple.h>
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#include <DataTypes/DataTypeMap.h>
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#include <DataTypes/DataTypesNumber.h>
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#include <DataTypes/DataTypesDecimal.h>
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#include <DataTypes/DataTypeString.h>
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#include <DataTypes/DataTypeFixedString.h>
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#include <DataTypes/DataTypeDate.h>
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#include <DataTypes/DataTypeDateTime.h>
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#include <DataTypes/DataTypeDateTime64.h>
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#include <DataTypes/DataTypeEnum.h>
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#include <DataTypes/DataTypeUUID.h>
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#include <DataTypes/DataTypeLowCardinality.h>
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#include <DataTypes/DataTypeNullable.h>
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#include <Core/AccurateComparison.h>
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#include <Common/typeid_cast.h>
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#include <Common/NaNUtils.h>
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#include <base/DateLUT.h>
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#include <DataTypes/DataTypeAggregateFunction.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 ARGUMENT_OUT_OF_BOUND;
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extern const int TYPE_MISMATCH;
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}
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/** Checking for a `Field from` of `From` type falls to a range of values of type `To`.
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* `From` and `To` - numeric types. They can be floating-point types.
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* `From` is one of UInt64, Int64, Float64,
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* whereas `To` can also be 8, 16, 32 bit.
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*
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* If falls into a range, then `from` is converted to the `Field` closest to the `To` type.
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* If not, return Field(Null).
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*/
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namespace
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{
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template <typename From, typename To>
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static Field convertNumericTypeImpl(const Field & from)
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{
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To result;
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if (!accurate::convertNumeric(from.get<From>(), result))
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return {};
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return result;
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}
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template <typename To>
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static Field convertNumericType(const Field & from, const IDataType & type)
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{
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if (from.getType() == Field::Types::UInt64)
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return convertNumericTypeImpl<UInt64, To>(from);
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if (from.getType() == Field::Types::Int64)
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return convertNumericTypeImpl<Int64, To>(from);
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if (from.getType() == Field::Types::Float64)
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return convertNumericTypeImpl<Float64, To>(from);
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if (from.getType() == Field::Types::UInt128)
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return convertNumericTypeImpl<UInt128, To>(from);
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if (from.getType() == Field::Types::Int128)
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return convertNumericTypeImpl<Int128, To>(from);
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if (from.getType() == Field::Types::UInt256)
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return convertNumericTypeImpl<UInt256, To>(from);
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if (from.getType() == Field::Types::Int256)
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return convertNumericTypeImpl<Int256, To>(from);
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throw Exception(ErrorCodes::TYPE_MISMATCH, "Type mismatch in IN or VALUES section. Expected: {}. Got: {}",
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type.getName(), from.getType());
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}
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template <typename From, typename T>
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static Field convertIntToDecimalType(const Field & from, const DataTypeDecimal<T> & type)
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{
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From value = from.get<From>();
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if (!type.canStoreWhole(value))
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throw Exception("Number is too big to place in " + type.getName(), ErrorCodes::ARGUMENT_OUT_OF_BOUND);
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T scaled_value = type.getScaleMultiplier() * static_cast<T>(value);
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return DecimalField<T>(scaled_value, type.getScale());
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}
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template <typename T>
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static Field convertStringToDecimalType(const Field & from, const DataTypeDecimal<T> & type)
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{
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const String & str_value = from.get<String>();
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T value = type.parseFromString(str_value);
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return DecimalField<T>(value, type.getScale());
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}
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template <typename From, typename T>
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static Field convertDecimalToDecimalType(const Field & from, const DataTypeDecimal<T> & type)
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{
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auto field = from.get<DecimalField<From>>();
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T value = convertDecimals<DataTypeDecimal<From>, DataTypeDecimal<T>>(field.getValue(), field.getScale(), type.getScale());
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return DecimalField<T>(value, type.getScale());
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}
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template <typename To>
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static Field convertDecimalType(const Field & from, const To & type)
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{
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if (from.getType() == Field::Types::UInt64)
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return convertIntToDecimalType<UInt64>(from, type);
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if (from.getType() == Field::Types::Int64)
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return convertIntToDecimalType<Int64>(from, type);
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if (from.getType() == Field::Types::UInt128)
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return convertIntToDecimalType<UInt128>(from, type);
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if (from.getType() == Field::Types::Int128)
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return convertIntToDecimalType<Int128>(from, type);
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if (from.getType() == Field::Types::UInt256)
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return convertIntToDecimalType<UInt256>(from, type);
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if (from.getType() == Field::Types::Int256)
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return convertIntToDecimalType<Int256>(from, type);
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if (from.getType() == Field::Types::String)
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return convertStringToDecimalType(from, type);
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if (from.getType() == Field::Types::Decimal32)
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return convertDecimalToDecimalType<Decimal32>(from, type);
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if (from.getType() == Field::Types::Decimal64)
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return convertDecimalToDecimalType<Decimal64>(from, type);
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if (from.getType() == Field::Types::Decimal128)
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return convertDecimalToDecimalType<Decimal128>(from, type);
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throw Exception(ErrorCodes::TYPE_MISMATCH, "Type mismatch in IN or VALUES section. Expected: {}. Got: {}",
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type.getName(), from.getType());
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}
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Field convertFieldToTypeImpl(const Field & src, const IDataType & type, const IDataType * from_type_hint)
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{
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if (from_type_hint && from_type_hint->equals(type))
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{
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return src;
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}
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WhichDataType which_type(type);
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WhichDataType which_from_type;
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if (from_type_hint)
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{
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which_from_type = WhichDataType(*from_type_hint);
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}
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/// Conversion between Date and DateTime and vice versa.
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if (which_type.isDate() && which_from_type.isDateTime())
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{
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return static_cast<UInt16>(static_cast<const DataTypeDateTime &>(*from_type_hint).getTimeZone().toDayNum(src.get<UInt64>()).toUnderType());
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}
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else if (which_type.isDate32() && which_from_type.isDateTime())
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{
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return static_cast<Int32>(static_cast<const DataTypeDateTime &>(*from_type_hint).getTimeZone().toDayNum(src.get<UInt64>()).toUnderType());
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}
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else if (which_type.isDateTime() && which_from_type.isDate())
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{
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return static_cast<const DataTypeDateTime &>(type).getTimeZone().fromDayNum(DayNum(src.get<UInt64>()));
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}
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else if (which_type.isDateTime() && which_from_type.isDate32())
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{
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return static_cast<const DataTypeDateTime &>(type).getTimeZone().fromDayNum(DayNum(src.get<Int32>()));
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}
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else if (type.isValueRepresentedByNumber() && src.getType() != Field::Types::String)
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{
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if (which_type.isUInt8()) return convertNumericType<UInt8>(src, type);
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if (which_type.isUInt16()) return convertNumericType<UInt16>(src, type);
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if (which_type.isUInt32()) return convertNumericType<UInt32>(src, type);
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if (which_type.isUInt64()) return convertNumericType<UInt64>(src, type);
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if (which_type.isUInt128()) return convertNumericType<UInt128>(src, type);
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if (which_type.isUInt256()) return convertNumericType<UInt256>(src, type);
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if (which_type.isInt8()) return convertNumericType<Int8>(src, type);
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if (which_type.isInt16()) return convertNumericType<Int16>(src, type);
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if (which_type.isInt32()) return convertNumericType<Int32>(src, type);
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if (which_type.isInt64()) return convertNumericType<Int64>(src, type);
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if (which_type.isInt128()) return convertNumericType<Int128>(src, type);
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if (which_type.isInt256()) return convertNumericType<Int256>(src, type);
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if (which_type.isFloat32()) return convertNumericType<Float32>(src, type);
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if (which_type.isFloat64()) return convertNumericType<Float64>(src, type);
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if (const auto * ptype = typeid_cast<const DataTypeDecimal<Decimal32> *>(&type)) return convertDecimalType(src, *ptype);
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if (const auto * ptype = typeid_cast<const DataTypeDecimal<Decimal64> *>(&type)) return convertDecimalType(src, *ptype);
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if (const auto * ptype = typeid_cast<const DataTypeDecimal<Decimal128> *>(&type)) return convertDecimalType(src, *ptype);
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if (which_type.isEnum() && (src.getType() == Field::Types::UInt64 || src.getType() == Field::Types::Int64))
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{
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/// Convert UInt64 or Int64 to Enum's value
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return dynamic_cast<const IDataTypeEnum &>(type).castToValue(src);
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}
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if ((which_type.isDate() || which_type.isDateTime()) && src.getType() == Field::Types::UInt64)
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{
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/// We don't need any conversion UInt64 is under type of Date and DateTime
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return src;
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}
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if (which_type.isDateTime64() && src.getType() == Field::Types::Decimal64)
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{
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/// Already in needed type.
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return src;
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}
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if (which_type.isDateTime64()
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&& (which_from_type.isNativeInt() || which_from_type.isNativeUInt() || which_from_type.isDate() || which_from_type.isDateTime() || which_from_type.isDateTime64()))
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{
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const auto scale = static_cast<const DataTypeDateTime64 &>(type).getScale();
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const auto decimal_value = DecimalUtils::decimalFromComponents<DateTime64>(src.reinterpret<Int64>(), 0, scale);
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return Field(DecimalField<DateTime64>(decimal_value, scale));
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}
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}
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else if (which_type.isUUID() && src.getType() == Field::Types::UUID)
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{
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/// Already in needed type.
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return src;
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}
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else if (which_type.isStringOrFixedString())
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{
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if (src.getType() == Field::Types::String)
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{
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if (which_type.isFixedString())
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{
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size_t n = assert_cast<const DataTypeFixedString &>(type).getN();
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const auto & src_str = src.get<String>();
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if (src_str.size() < n)
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{
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String src_str_extended = src_str;
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src_str_extended.resize(n);
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return src_str_extended;
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}
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}
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return src;
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}
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}
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else if (const DataTypeArray * type_array = typeid_cast<const DataTypeArray *>(&type))
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{
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if (src.getType() == Field::Types::Array)
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{
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const Array & src_arr = src.get<Array>();
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size_t src_arr_size = src_arr.size();
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const auto & element_type = *(type_array->getNestedType());
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bool have_unconvertible_element = false;
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Array res(src_arr_size);
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for (size_t i = 0; i < src_arr_size; ++i)
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{
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res[i] = convertFieldToType(src_arr[i], element_type);
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if (res[i].isNull() && !element_type.isNullable())
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{
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// See the comment for Tuples below.
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have_unconvertible_element = true;
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}
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}
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return have_unconvertible_element ? Field(Null()) : Field(res);
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}
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}
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else if (const DataTypeTuple * type_tuple = typeid_cast<const DataTypeTuple *>(&type))
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{
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if (src.getType() == Field::Types::Tuple)
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{
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const auto & src_tuple = src.get<Tuple>();
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size_t src_tuple_size = src_tuple.size();
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size_t dst_tuple_size = type_tuple->getElements().size();
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if (dst_tuple_size != src_tuple_size)
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throw Exception("Bad size of tuple in IN or VALUES section. Expected size: "
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+ toString(dst_tuple_size) + ", actual size: " + toString(src_tuple_size), ErrorCodes::TYPE_MISMATCH);
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Tuple res(dst_tuple_size);
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bool have_unconvertible_element = false;
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for (size_t i = 0; i < dst_tuple_size; ++i)
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{
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const auto & element_type = *(type_tuple->getElements()[i]);
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res[i] = convertFieldToType(src_tuple[i], element_type);
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if (!res[i].isNull() || element_type.isNullable())
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continue;
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/*
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* Either the source element was Null, or the conversion did not
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* succeed, because the source and the requested types of the
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* element are compatible, but the value is not convertible
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* (e.g. trying to convert -1 from Int8 to UInt8). In these
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* cases, consider the whole tuple also compatible but not
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* convertible. According to the specification of this function,
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* we must return Null in this case.
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*
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* The following elements might be not even compatible, so it
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* makes sense to check them to detect user errors. Remember
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* that there is an unconvertible element, and try to process
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* the remaining ones. The convertFieldToType for each element
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* will throw if it detects incompatibility.
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*/
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have_unconvertible_element = true;
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}
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return have_unconvertible_element ? Field(Null()) : Field(res);
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}
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}
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else if (const DataTypeMap * type_map = typeid_cast<const DataTypeMap *>(&type))
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{
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if (src.getType() == Field::Types::Map)
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{
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const auto & key_type = *type_map->getKeyType();
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const auto & value_type = *type_map->getValueType();
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const auto & map = src.get<Map>();
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size_t map_size = map.size();
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Map res(map_size);
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bool have_unconvertible_element = false;
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for (size_t i = 0; i < map_size; ++i)
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{
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const auto & map_entry = map[i].get<Tuple>();
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const auto & key = map_entry[0];
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const auto & value = map_entry[1];
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Tuple updated_entry(2);
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updated_entry[0] = convertFieldToType(key, key_type);
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if (updated_entry[0].isNull() && !key_type.isNullable())
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have_unconvertible_element = true;
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updated_entry[1] = convertFieldToType(value, value_type);
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if (updated_entry[1].isNull() && !value_type.isNullable())
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have_unconvertible_element = true;
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res[i] = updated_entry;
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}
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return have_unconvertible_element ? Field(Null()) : Field(res);
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}
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}
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else if (const DataTypeAggregateFunction * agg_func_type = typeid_cast<const DataTypeAggregateFunction *>(&type))
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{
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if (src.getType() != Field::Types::AggregateFunctionState)
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throw Exception(ErrorCodes::TYPE_MISMATCH,
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"Cannot convert {} to {}",
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src.getTypeName(), agg_func_type->getName());
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const auto & name = src.get<AggregateFunctionStateData>().name;
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if (agg_func_type->getName() != name)
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throw Exception("Cannot convert " + name + " to " + agg_func_type->getName(), ErrorCodes::TYPE_MISMATCH);
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return src;
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}
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/// Conversion from string by parsing.
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if (src.getType() == Field::Types::String)
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{
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/// Promote data type to avoid overflows. Note that overflows in the largest data type are still possible.
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const IDataType * type_to_parse = &type;
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DataTypePtr holder;
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if (type.canBePromoted())
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{
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holder = type.promoteNumericType();
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type_to_parse = holder.get();
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}
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const auto col = type_to_parse->createColumn();
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ReadBufferFromString in_buffer(src.get<String>());
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try
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{
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type_to_parse->getDefaultSerialization()->deserializeWholeText(*col, in_buffer, FormatSettings{});
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}
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catch (Exception & e)
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{
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e.addMessage(fmt::format("while converting '{}' to {}", src.get<String>(), type.getName()));
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throw;
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}
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if (!in_buffer.eof())
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throw Exception(ErrorCodes::TYPE_MISMATCH, "Cannot convert string {} to type {}", src.get<String>(), type.getName());
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Field parsed = (*col)[0];
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return convertFieldToType(parsed, type, from_type_hint);
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}
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throw Exception(ErrorCodes::TYPE_MISMATCH, "Type mismatch in IN or VALUES section. Expected: {}. Got: {}",
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type.getName(), src.getType());
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}
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}
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Field convertFieldToType(const Field & from_value, const IDataType & to_type, const IDataType * from_type_hint)
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{
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if (from_value.isNull())
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return from_value;
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if (from_type_hint && from_type_hint->equals(to_type))
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return from_value;
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if (const auto * low_cardinality_type = typeid_cast<const DataTypeLowCardinality *>(&to_type))
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return convertFieldToType(from_value, *low_cardinality_type->getDictionaryType(), from_type_hint);
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else if (const auto * nullable_type = typeid_cast<const DataTypeNullable *>(&to_type))
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{
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const IDataType & nested_type = *nullable_type->getNestedType();
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/// NULL remains NULL after any conversion.
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if (WhichDataType(nested_type).isNothing())
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return {};
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if (from_type_hint && from_type_hint->equals(nested_type))
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return from_value;
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return convertFieldToTypeImpl(from_value, nested_type, from_type_hint);
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}
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else
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return convertFieldToTypeImpl(from_value, to_type, from_type_hint);
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}
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Field convertFieldToTypeOrThrow(const Field & from_value, const IDataType & to_type, const IDataType * from_type_hint)
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{
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bool is_null = from_value.isNull();
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if (is_null && !to_type.isNullable())
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throw Exception(ErrorCodes::TYPE_MISMATCH, "Cannot convert NULL to {}", to_type.getName());
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Field converted = convertFieldToType(from_value, to_type, from_type_hint);
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if (!is_null && converted.isNull())
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throw Exception(ErrorCodes::ARGUMENT_OUT_OF_BOUND,
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"Cannot convert value '{}'{}: it cannot be represented as {}",
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toString(from_value),
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from_type_hint ? " from " + from_type_hint->getName() : "",
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to_type.getName());
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return converted;
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}
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}
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