ClickHouse/src/Core/Field.cpp

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#include <IO/ReadBuffer.h>
#include <IO/WriteBuffer.h>
#include <IO/ReadHelpers.h>
#include <IO/WriteHelpers.h>
#include <IO/ReadBufferFromString.h>
#include <IO/readDecimalText.h>
#include <Core/Field.h>
#include <Core/DecimalComparison.h>
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#include <Common/FieldVisitorDump.h>
#include <Common/FieldVisitorToString.h>
#include <Common/FieldVisitorWriteBinary.h>
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#include <magic_enum.hpp>
namespace DB
{
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namespace ErrorCodes
{
extern const int CANNOT_RESTORE_FROM_FIELD_DUMP;
extern const int DECIMAL_OVERFLOW;
}
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/// Keep in mind, that "magic_enum" is very expensive for compiler.
std::string_view Field::getTypeName() const
{
return magic_enum::enum_name(which);
}
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inline Field getBinaryValue(UInt8 type, ReadBuffer & buf)
{
switch (type)
{
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case Field::Types::Null:
{
return Field();
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}
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case Field::Types::UInt64:
{
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UInt64 value;
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readVarUInt(value, buf);
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return value;
}
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case Field::Types::UInt128:
{
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UInt128 value;
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readBinary(value, buf);
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return value;
}
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case Field::Types::UInt256:
{
UInt256 value;
readBinary(value, buf);
return value;
}
case Field::Types::UUID:
{
UUID value;
readBinary(value, buf);
return value;
}
case Field::Types::IPv4:
{
IPv4 value;
readBinary(value, buf);
return value;
}
case Field::Types::IPv6:
{
IPv6 value;
readBinary(value.toUnderType(), buf);
return value;
}
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case Field::Types::Int64:
{
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Int64 value;
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readVarInt(value, buf);
return value;
}
case Field::Types::Int128:
{
Int128 value;
readBinary(value, buf);
return value;
}
case Field::Types::Int256:
{
Int256 value;
readBinary(value, buf);
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return value;
}
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case Field::Types::Float64:
{
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Float64 value;
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readFloatBinary(value, buf);
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return value;
}
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case Field::Types::String:
{
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std::string value;
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readStringBinary(value, buf);
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return value;
}
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case Field::Types::Array:
{
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Array value;
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readBinary(value, buf);
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return value;
}
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case Field::Types::Tuple:
{
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Tuple value;
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readBinary(value, buf);
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return value;
}
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case Field::Types::Map:
{
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Map value;
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readBinary(value, buf);
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return value;
}
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case Field::Types::Object:
{
Object value;
readBinary(value, buf);
return value;
}
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case Field::Types::AggregateFunctionState:
{
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AggregateFunctionStateData value;
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readStringBinary(value.name, buf);
readStringBinary(value.data, buf);
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return value;
}
case Field::Types::Bool:
{
UInt8 value;
readBinary(value, buf);
return bool(value);
}
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}
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return Field();
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}
void readBinary(Array & x, ReadBuffer & buf)
{
size_t size;
UInt8 type;
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readBinary(type, buf);
readBinary(size, buf);
for (size_t index = 0; index < size; ++index)
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x.push_back(getBinaryValue(type, buf));
}
void writeBinary(const Array & x, WriteBuffer & buf)
{
UInt8 type = Field::Types::Null;
size_t size = x.size();
if (size)
type = x.front().getType();
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writeBinary(type, buf);
writeBinary(size, buf);
for (const auto & elem : x)
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Field::dispatch([&buf] (const auto & value) { FieldVisitorWriteBinary()(value, buf); }, elem);
}
void writeText(const Array & x, WriteBuffer & buf)
{
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String res = applyVisitor(FieldVisitorToString(), Field(x));
buf.write(res.data(), res.size());
}
void readBinary(Tuple & x, ReadBuffer & buf)
{
size_t size;
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readBinary(size, buf);
for (size_t index = 0; index < size; ++index)
{
UInt8 type;
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readBinary(type, buf);
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x.push_back(getBinaryValue(type, buf));
}
}
void writeBinary(const Tuple & x, WriteBuffer & buf)
{
const size_t size = x.size();
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writeBinary(size, buf);
for (const auto & elem : x)
{
const UInt8 type = elem.getType();
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writeBinary(type, buf);
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Field::dispatch([&buf] (const auto & value) { FieldVisitorWriteBinary()(value, buf); }, elem);
}
}
void writeText(const Tuple & x, WriteBuffer & buf)
{
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writeFieldText(Field(x), buf);
}
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void readBinary(Map & x, ReadBuffer & buf)
{
size_t size;
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readBinary(size, buf);
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for (size_t index = 0; index < size; ++index)
{
UInt8 type;
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readBinary(type, buf);
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x.push_back(getBinaryValue(type, buf));
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}
}
void writeBinary(const Map & x, WriteBuffer & buf)
{
const size_t size = x.size();
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writeBinary(size, buf);
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for (const auto & elem : x)
{
const UInt8 type = elem.getType();
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writeBinary(type, buf);
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Field::dispatch([&buf] (const auto & value) { FieldVisitorWriteBinary()(value, buf); }, elem);
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}
}
void writeText(const Map & x, WriteBuffer & buf)
{
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writeFieldText(Field(x), buf);
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}
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void readBinary(Object & x, ReadBuffer & buf)
{
size_t size;
readBinary(size, buf);
for (size_t index = 0; index < size; ++index)
{
UInt8 type;
String key;
readBinary(type, buf);
readBinary(key, buf);
x[key] = getBinaryValue(type, buf);
}
}
void writeBinary(const Object & x, WriteBuffer & buf)
{
const size_t size = x.size();
writeBinary(size, buf);
for (const auto & [key, value] : x)
{
const UInt8 type = value.getType();
writeBinary(type, buf);
writeBinary(key, buf);
Field::dispatch([&buf] (const auto & val) { FieldVisitorWriteBinary()(val, buf); }, value);
}
}
void writeText(const Object & x, WriteBuffer & buf)
{
writeFieldText(Field(x), buf);
}
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void writeBinary(const CustomType & x, WriteBuffer & buf)
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{
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writeBinary(std::string_view(x.getTypeName()), buf);
writeBinary(x.toString(), buf);
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}
void writeText(const CustomType & x, WriteBuffer & buf)
{
writeFieldText(Field(x), buf);
}
template <typename T>
void readQuoted(DecimalField<T> & x, ReadBuffer & buf)
{
assertChar('\'', buf);
T value;
UInt32 scale;
int32_t exponent;
uint32_t max_digits = static_cast<uint32_t>(-1);
readDigits<true>(buf, value, max_digits, exponent, true);
if (exponent > 0)
{
scale = 0;
if (common::mulOverflow(value.value, DecimalUtils::scaleMultiplier<T>(exponent), value.value))
throw Exception(ErrorCodes::DECIMAL_OVERFLOW, "Decimal math overflow");
}
else
scale = -exponent;
assertChar('\'', buf);
x = DecimalField<T>{value, scale};
}
template void readQuoted<Decimal32>(DecimalField<Decimal32> & x, ReadBuffer & buf);
template void readQuoted<Decimal64>(DecimalField<Decimal64> & x, ReadBuffer & buf);
template void readQuoted<Decimal128>(DecimalField<Decimal128> & x, ReadBuffer & buf);
template void readQuoted<Decimal256>(DecimalField<Decimal256> & x, ReadBuffer & buf);
void writeFieldText(const Field & x, WriteBuffer & buf)
{
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String res = Field::dispatch(FieldVisitorToString(), x);
buf.write(res.data(), res.size());
}
String Field::dump() const
{
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return applyVisitor(FieldVisitorDump(), *this);
}
Field Field::restoreFromDump(std::string_view dump_)
{
auto show_error = [&dump_]
{
throw Exception(ErrorCodes::CANNOT_RESTORE_FROM_FIELD_DUMP, "Couldn't restore Field from dump: {}", String{dump_});
};
std::string_view dump = dump_;
trim(dump);
if (dump == "NULL")
return {};
std::string_view prefix = std::string_view{"Int64_"};
if (dump.starts_with(prefix))
{
Int64 value = parseFromString<Int64>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"UInt64_"};
if (dump.starts_with(prefix))
{
UInt64 value = parseFromString<UInt64>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"Int128_"};
if (dump.starts_with(prefix))
{
Int128 value = parseFromString<Int128>(dump.substr(prefix.length()));
return value;
}
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prefix = std::string_view{"UInt128_"};
if (dump.starts_with(prefix))
{
UInt128 value = parseFromString<UInt128>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"Int256_"};
if (dump.starts_with(prefix))
{
Int256 value = parseFromString<Int256>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"UInt256_"};
if (dump.starts_with(prefix))
{
UInt256 value = parseFromString<UInt256>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"Float64_"};
if (dump.starts_with(prefix))
{
Float64 value = parseFromString<Float64>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"Decimal32_"};
if (dump_.starts_with(prefix))
{
DecimalField<Decimal32> decimal;
ReadBufferFromString buf{dump.substr(prefix.length())};
readQuoted(decimal, buf);
return decimal;
}
prefix = std::string_view{"Decimal64_"};
if (dump_.starts_with(prefix))
{
DecimalField<Decimal64> decimal;
ReadBufferFromString buf{dump.substr(prefix.length())};
readQuoted(decimal, buf);
return decimal;
}
prefix = std::string_view{"Decimal128_"};
if (dump_.starts_with(prefix))
{
DecimalField<Decimal128> decimal;
ReadBufferFromString buf{dump.substr(prefix.length())};
readQuoted(decimal, buf);
return decimal;
}
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prefix = std::string_view{"Decimal256_"};
if (dump_.starts_with(prefix))
{
DecimalField<Decimal256> decimal;
ReadBufferFromString buf{dump.substr(prefix.length())};
readQuoted(decimal, buf);
return decimal;
}
if (dump.starts_with("\'"))
{
String str;
ReadBufferFromString buf{dump};
readQuoted(str, buf);
return str;
}
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prefix = std::string_view{"Bool_"};
if (dump.starts_with(prefix))
{
bool value = parseFromString<bool>(dump.substr(prefix.length()));
return value;
}
prefix = std::string_view{"Array_["};
if (dump.starts_with(prefix))
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{
std::string_view tail = dump.substr(prefix.length());
trimLeft(tail);
Array array;
while (tail != "]")
{
size_t separator = tail.find_first_of(",]");
if (separator == std::string_view::npos)
show_error();
bool comma = (tail[separator] == ',');
std::string_view element = tail.substr(0, separator);
tail.remove_prefix(separator);
if (comma)
tail.remove_prefix(1);
trimLeft(tail);
if (!comma && tail != "]")
show_error();
array.push_back(Field::restoreFromDump(element));
}
return array;
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}
prefix = std::string_view{"Tuple_("};
if (dump.starts_with(prefix))
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{
std::string_view tail = dump.substr(prefix.length());
trimLeft(tail);
Tuple tuple;
while (tail != ")")
{
size_t separator = tail.find_first_of(",)");
if (separator == std::string_view::npos)
show_error();
bool comma = (tail[separator] == ',');
std::string_view element = tail.substr(0, separator);
tail.remove_prefix(separator);
if (comma)
tail.remove_prefix(1);
trimLeft(tail);
if (!comma && tail != ")")
show_error();
tuple.push_back(Field::restoreFromDump(element));
}
return tuple;
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}
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prefix = std::string_view{"Map_("};
if (dump.starts_with(prefix))
{
std::string_view tail = dump.substr(prefix.length());
trimLeft(tail);
Map map;
while (tail != ")")
{
size_t separator = tail.find_first_of(",)");
if (separator == std::string_view::npos)
show_error();
bool comma = (tail[separator] == ',');
std::string_view element = tail.substr(0, separator);
tail.remove_prefix(separator);
if (comma)
tail.remove_prefix(1);
trimLeft(tail);
if (!comma && tail != ")")
show_error();
map.push_back(Field::restoreFromDump(element));
}
return map;
}
prefix = std::string_view{"AggregateFunctionState_("};
if (dump.starts_with(prefix))
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{
std::string_view after_prefix = dump.substr(prefix.length());
size_t comma = after_prefix.find(',');
size_t end = after_prefix.find(')', comma + 1);
if ((comma == std::string_view::npos) || (end != after_prefix.length() - 1))
show_error();
std::string_view name_view = after_prefix.substr(0, comma);
std::string_view data_view = after_prefix.substr(comma + 1, end - comma - 1);
trim(name_view);
trim(data_view);
ReadBufferFromString name_buf{name_view};
ReadBufferFromString data_buf{data_view};
AggregateFunctionStateData res;
readQuotedString(res.name, name_buf);
readQuotedString(res.data, data_buf);
return res;
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}
show_error();
UNREACHABLE();
}
template <typename T>
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bool decimalEqual(T x, T y, UInt32 x_scale, UInt32 y_scale)
{
using Comparator = DecimalComparison<T, T, EqualsOp>;
return Comparator::compare(x, y, x_scale, y_scale);
}
template <typename T>
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bool decimalLess(T x, T y, UInt32 x_scale, UInt32 y_scale)
{
using Comparator = DecimalComparison<T, T, LessOp>;
return Comparator::compare(x, y, x_scale, y_scale);
}
template <typename T>
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bool decimalLessOrEqual(T x, T y, UInt32 x_scale, UInt32 y_scale)
{
using Comparator = DecimalComparison<T, T, LessOrEqualsOp>;
return Comparator::compare(x, y, x_scale, y_scale);
}
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template bool decimalEqual<Decimal32>(Decimal32 x, Decimal32 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalEqual<Decimal64>(Decimal64 x, Decimal64 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalEqual<Decimal128>(Decimal128 x, Decimal128 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalEqual<Decimal256>(Decimal256 x, Decimal256 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalEqual<DateTime64>(DateTime64 x, DateTime64 y, UInt32 x_scale, UInt32 y_scale);
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template bool decimalLess<Decimal32>(Decimal32 x, Decimal32 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLess<Decimal64>(Decimal64 x, Decimal64 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLess<Decimal128>(Decimal128 x, Decimal128 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLess<Decimal256>(Decimal256 x, Decimal256 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLess<DateTime64>(DateTime64 x, DateTime64 y, UInt32 x_scale, UInt32 y_scale);
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template bool decimalLessOrEqual<Decimal32>(Decimal32 x, Decimal32 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLessOrEqual<Decimal64>(Decimal64 x, Decimal64 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLessOrEqual<Decimal128>(Decimal128 x, Decimal128 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLessOrEqual<Decimal256>(Decimal256 x, Decimal256 y, UInt32 x_scale, UInt32 y_scale);
template bool decimalLessOrEqual<DateTime64>(DateTime64 x, DateTime64 y, UInt32 x_scale, UInt32 y_scale);
inline void writeText(const Null & x, WriteBuffer & buf)
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{
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if (x.isNegativeInfinity())
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writeText("-Inf", buf);
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if (x.isPositiveInfinity())
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writeText("+Inf", buf);
else
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writeText("NULL", buf);
}
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String toString(const Field & x)
{
return Field::dispatch(
[] (const auto & value)
{
// Use explicit type to prevent implicit construction of Field and
// infinite recursion into toString<Field>.
return toString<decltype(value)>(value);
},
x);
}
String fieldTypeToString(Field::Types::Which type)
{
switch (type)
{
case Field::Types::Which::Null: return "Null";
case Field::Types::Which::Array: return "Array";
case Field::Types::Which::Tuple: return "Tuple";
case Field::Types::Which::Map: return "Map";
case Field::Types::Which::Object: return "Object";
case Field::Types::Which::AggregateFunctionState: return "AggregateFunctionState";
case Field::Types::Which::Bool: return "Bool";
case Field::Types::Which::String: return "String";
case Field::Types::Which::Decimal32: return "Decimal32";
case Field::Types::Which::Decimal64: return "Decimal64";
case Field::Types::Which::Decimal128: return "Decimal128";
case Field::Types::Which::Decimal256: return "Decimal256";
case Field::Types::Which::Float64: return "Float64";
case Field::Types::Which::Int64: return "Int64";
case Field::Types::Which::Int128: return "Int128";
case Field::Types::Which::Int256: return "Int256";
case Field::Types::Which::UInt64: return "UInt64";
case Field::Types::Which::UInt128: return "UInt128";
case Field::Types::Which::UInt256: return "UInt256";
case Field::Types::Which::UUID: return "UUID";
case Field::Types::Which::IPv4: return "IPv4";
case Field::Types::Which::IPv6: return "IPv6";
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case Field::Types::Which::CustomType: return "CustomType";
}
}
}