#pragma once #include #include #include class DateLUTImpl; namespace DB { /** DateTime64 is same as DateTime, but it stores values as Int64 and has configurable sub-second part. * * `scale` determines number of decimal places for sub-second part of the DateTime64. */ class DataTypeDateTime64 final : public DataTypeDecimalBase, public TimezoneMixin { public: static constexpr UInt8 default_scale = 3; static constexpr auto family_name = "DateTime64"; explicit DataTypeDateTime64(UInt32 scale_, const std::string & time_zone_name = ""); // reuse timezone from other DateTime/DateTime64 DataTypeDateTime64(UInt32 scale_, const TimezoneMixin & time_zone_info); const char * getFamilyName() const override { return family_name; } std::string doGetName() const override; TypeIndex getTypeId() const override { return TypeIndex::DateTime64; } void serializeText(const IColumn & column, size_t row_num, WriteBuffer & ostr, const FormatSettings &) const override; void deserializeText(IColumn & column, ReadBuffer & istr, const FormatSettings &) const override; void deserializeWholeText(IColumn & column, ReadBuffer & istr, const FormatSettings & settings) const override; void serializeTextEscaped(const IColumn & column, size_t row_num, WriteBuffer & ostr, const FormatSettings &) const override; void deserializeTextEscaped(IColumn & column, ReadBuffer & istr, const FormatSettings &) const override; void serializeTextQuoted(const IColumn & column, size_t row_num, WriteBuffer & ostr, const FormatSettings &) const override; void deserializeTextQuoted(IColumn & column, ReadBuffer & istr, const FormatSettings &) const override; void serializeTextJSON(const IColumn & column, size_t row_num, WriteBuffer & ostr, const FormatSettings &) const override; void deserializeTextJSON(IColumn & column, ReadBuffer & istr, const FormatSettings &) const override; void serializeTextCSV(const IColumn & column, size_t row_num, WriteBuffer & ostr, const FormatSettings &) const override; void deserializeTextCSV(IColumn & column, ReadBuffer & istr, const FormatSettings & settings) const override; void serializeProtobuf(const IColumn & column, size_t row_num, ProtobufWriter & protobuf, size_t & value_index) const override; void deserializeProtobuf(IColumn & column, ProtobufReader & protobuf, bool allow_add_row, bool & row_added) const override; bool equals(const IDataType & rhs) const override; }; /** Basic wrapper for Tansform-types for DateTime64. * * Allows reusing existing Transform (that takes DateTime-values as UInt32) with DateTime64-values, * by discarding fractional part and producing SAME return type as original Transform. * * Such Transfotm-types are commonly used in Date/DateTime manipulation functions, * and implement static execute fucntion with following signature: * R execute(UInt32, T, const DateLUTImpl &) * * Wehere R and T could be arbitrary types. */ template class DateTime64BasicTransformWrapper : public Transform { public: using Transform::execute; explicit DateTime64BasicTransformWrapper(UInt32 scale_) : scale_multiplier(DecimalUtils::scaleMultiplier(scale_)) {} template auto execute(DateTime64 t, T v, const DateLUTImpl & time_zone) const { const auto components = DecimalUtils::splitWithScaleMultiplier(t, scale_multiplier); return static_cast(this)->execute( static_cast(components.whole), v, time_zone); } private: UInt32 scale_multiplier = 1; }; }