#include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; extern const int DATA_TYPE_CANNOT_BE_PROMOTED; extern const int ILLEGAL_COLUMN; } IDataType::~IDataType() = default; void IDataType::updateAvgValueSizeHint(const IColumn & column, double & avg_value_size_hint) { /// Update the average value size hint if amount of read rows isn't too small size_t column_size = column.size(); if (column_size > 10) { double current_avg_value_size = static_cast(column.byteSize()) / column_size; /// Heuristic is chosen so that avg_value_size_hint increases rapidly but decreases slowly. if (current_avg_value_size > avg_value_size_hint) avg_value_size_hint = std::min(1024., current_avg_value_size); /// avoid overestimation else if (current_avg_value_size * 2 < avg_value_size_hint) avg_value_size_hint = (current_avg_value_size + avg_value_size_hint * 3) / 4; } } MutableColumnPtr IDataType::createColumn(const ISerialization & serialization) const { auto column = createColumn(); if (serialization.getKind() == ISerialization::Kind::SPARSE) return ColumnSparse::create(std::move(column)); return column; } ColumnPtr IDataType::createColumnConst(size_t size, const Field & field) const { auto column = createColumn(); column->insert(field); return ColumnConst::create(std::move(column), size); } ColumnPtr IDataType::createColumnConstWithDefaultValue(size_t size) const { return createColumnConst(size, getDefault()); } DataTypePtr IDataType::promoteNumericType() const { throw Exception(ErrorCodes::DATA_TYPE_CANNOT_BE_PROMOTED, "Data type {} can't be promoted.", getName()); } size_t IDataType::getSizeOfValueInMemory() const { throw Exception(ErrorCodes::LOGICAL_ERROR, "Value of type {} in memory is not of fixed size.", getName()); } void IDataType::forEachSubcolumn( const SubcolumnCallback & callback, const SubstreamData & data) { ISerialization::StreamCallback callback_with_data = [&](const auto & subpath) { for (size_t i = 0; i < subpath.size(); ++i) { size_t prefix_len = i + 1; if (!subpath[i].visited && ISerialization::hasSubcolumnForPath(subpath, prefix_len)) { auto name = ISerialization::getSubcolumnNameForStream(subpath, prefix_len); auto subdata = ISerialization::createFromPath(subpath, prefix_len); callback(subpath, name, subdata); } subpath[i].visited = true; } }; ISerialization::EnumerateStreamsSettings settings; settings.position_independent_encoding = false; data.serialization->enumerateStreams(settings, callback_with_data, data); } template Ptr IDataType::getForSubcolumn( std::string_view subcolumn_name, const SubstreamData & data, Ptr SubstreamData::*member, bool throw_if_null) const { Ptr res; forEachSubcolumn([&](const auto &, const auto & name, const auto & subdata) { if (name == subcolumn_name) res = subdata.*member; }, data); if (!res && throw_if_null) throw Exception(ErrorCodes::ILLEGAL_COLUMN, "There is no subcolumn {} in type {}", subcolumn_name, getName()); return res; } bool IDataType::hasSubcolumn(std::string_view subcolumn_name) const { return tryGetSubcolumnType(subcolumn_name) != nullptr; } DataTypePtr IDataType::tryGetSubcolumnType(std::string_view subcolumn_name) const { auto data = SubstreamData(getDefaultSerialization()).withType(getPtr()); return getForSubcolumn(subcolumn_name, data, &SubstreamData::type, false); } DataTypePtr IDataType::getSubcolumnType(std::string_view subcolumn_name) const { auto data = SubstreamData(getDefaultSerialization()).withType(getPtr()); return getForSubcolumn(subcolumn_name, data, &SubstreamData::type, true); } ColumnPtr IDataType::tryGetSubcolumn(std::string_view subcolumn_name, const ColumnPtr & column) const { auto data = SubstreamData(getDefaultSerialization()).withColumn(column); return getForSubcolumn(subcolumn_name, data, &SubstreamData::column, false); } ColumnPtr IDataType::getSubcolumn(std::string_view subcolumn_name, const ColumnPtr & column) const { auto data = SubstreamData(getDefaultSerialization()).withColumn(column); return getForSubcolumn(subcolumn_name, data, &SubstreamData::column, true); } SerializationPtr IDataType::getSubcolumnSerialization(std::string_view subcolumn_name, const SerializationPtr & serialization) const { auto data = SubstreamData(serialization); return getForSubcolumn(subcolumn_name, data, &SubstreamData::serialization, true); } Names IDataType::getSubcolumnNames() const { Names res; forEachSubcolumn([&](const auto &, const auto & name, const auto &) { res.push_back(name); }, SubstreamData(getDefaultSerialization())); return res; } void IDataType::insertDefaultInto(IColumn & column) const { column.insertDefault(); } void IDataType::insertManyDefaultsInto(IColumn & column, size_t n) const { for (size_t i = 0; i < n; ++i) insertDefaultInto(column); } void IDataType::setCustomization(DataTypeCustomDescPtr custom_desc_) const { /// replace only if not null if (custom_desc_->name) custom_name = std::move(custom_desc_->name); if (custom_desc_->serialization) custom_serialization = std::move(custom_desc_->serialization); } MutableSerializationInfoPtr IDataType::createSerializationInfo(const SerializationInfo::Settings & settings) const { return std::make_shared(ISerialization::Kind::DEFAULT, settings); } SerializationInfoPtr IDataType::getSerializationInfo(const IColumn & column) const { if (const auto * column_const = checkAndGetColumn(&column)) return getSerializationInfo(column_const->getDataColumn()); return std::make_shared(ISerialization::getKind(column), SerializationInfo::Settings{}); } SerializationPtr IDataType::getDefaultSerialization() const { if (custom_serialization) return custom_serialization; return doGetDefaultSerialization(); } SerializationPtr IDataType::getSparseSerialization() const { return std::make_shared(getDefaultSerialization()); } SerializationPtr IDataType::getSerialization(ISerialization::Kind kind) const { if (supportsSparseSerialization() && kind == ISerialization::Kind::SPARSE) return getSparseSerialization(); return getDefaultSerialization(); } SerializationPtr IDataType::getSerialization(const SerializationInfo & info) const { return getSerialization(info.getKind()); } // static SerializationPtr IDataType::getSerialization(const NameAndTypePair & column, const SerializationInfo & info) { if (column.isSubcolumn()) { const auto & type_in_storage = column.getTypeInStorage(); auto serialization = type_in_storage->getSerialization(info); return type_in_storage->getSubcolumnSerialization(column.getSubcolumnName(), serialization); } return column.type->getSerialization(info); } // static SerializationPtr IDataType::getSerialization(const NameAndTypePair & column) { if (column.isSubcolumn()) { const auto & type_in_storage = column.getTypeInStorage(); auto serialization = type_in_storage->getDefaultSerialization(); return type_in_storage->getSubcolumnSerialization(column.getSubcolumnName(), serialization); } return column.type->getDefaultSerialization(); } }