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#include "serialize.h"
#include "common.h"
#include "fluent.h"
#include <library/cpp/yson/parser.h>
#include <library/cpp/yson/node/node_io.h>
#include <library/cpp/yson/node/serialize.h>
#include <library/cpp/type_info/type_io.h>
#include <util/generic/string.h>
namespace NYT {
////////////////////////////////////////////////////////////////////////////////
// const auto& nodeMap = node.AsMap();
#define DESERIALIZE_ITEM(NAME, MEMBER) \
if (const auto* item = nodeMap.FindPtr(NAME)) { \
Deserialize(MEMBER, *item); \
}
// const auto& attributesMap = node.GetAttributes().AsMap();
#define DESERIALIZE_ATTR(NAME, MEMBER) \
if (const auto* attr = attributesMap.FindPtr(NAME)) { \
Deserialize(MEMBER, *attr); \
}
////////////////////////////////////////////////////////////////////////////////
void Serialize(const TSortColumn& sortColumn, NYson::IYsonConsumer* consumer)
{
if (sortColumn.SortOrder() == ESortOrder::SO_ASCENDING) {
Serialize(sortColumn.Name(), consumer);
} else {
BuildYsonFluently(consumer).BeginMap()
.Item("name").Value(sortColumn.Name())
.Item("sort_order").Value(ToString(sortColumn.SortOrder()))
.EndMap();
}
}
void Deserialize(TSortColumn& sortColumn, const TNode& node)
{
if (node.IsString()) {
sortColumn = TSortColumn(node.AsString());
} else if (node.IsMap()) {
const auto& name = node["name"].AsString();
const auto& sortOrderString = node["sort_order"].AsString();
sortColumn = TSortColumn(name, ::FromString<ESortOrder>(sortOrderString));
} else {
ythrow yexception() << "Expected sort column to be string or map, got " << node.GetType();
}
}
template <class T, class TDerived>
void SerializeOneOrMany(const TOneOrMany<T, TDerived>& oneOrMany, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).List(oneOrMany.Parts_);
}
template <class T, class TDerived>
void DeserializeOneOrMany(TOneOrMany<T, TDerived>& oneOrMany, const TNode& node)
{
Deserialize(oneOrMany.Parts_, node);
}
void Serialize(const TKey& key, NYson::IYsonConsumer* consumer)
{
SerializeOneOrMany(key, consumer);
}
void Deserialize(TKey& key, const TNode& node)
{
DeserializeOneOrMany(key, node);
}
void Serialize(const TSortColumns& sortColumns, NYson::IYsonConsumer* consumer)
{
SerializeOneOrMany(sortColumns, consumer);
}
void Deserialize(TSortColumns& sortColumns, const TNode& node)
{
DeserializeOneOrMany(sortColumns, node);
}
void Serialize(const TColumnNames& columnNames, NYson::IYsonConsumer* consumer)
{
SerializeOneOrMany(columnNames, consumer);
}
void Deserialize(TColumnNames& columnNames, const TNode& node)
{
DeserializeOneOrMany(columnNames, node);
}
////////////////////////////////////////////////////////////////////////////////
void Deserialize(EValueType& valueType, const TNode& node)
{
const auto& nodeStr = node.AsString();
static const THashMap<TString, EValueType> str2ValueType = {
{"int8", VT_INT8},
{"int16", VT_INT16},
{"int32", VT_INT32},
{"int64", VT_INT64},
{"uint8", VT_UINT8},
{"uint16", VT_UINT16},
{"uint32", VT_UINT32},
{"uint64", VT_UINT64},
{"boolean", VT_BOOLEAN},
{"double", VT_DOUBLE},
{"string", VT_STRING},
{"utf8", VT_UTF8},
{"any", VT_ANY},
{"null", VT_NULL},
{"void", VT_VOID},
{"date", VT_DATE},
{"datetime", VT_DATETIME},
{"timestamp", VT_TIMESTAMP},
{"interval", VT_INTERVAL},
{"float", VT_FLOAT},
{"json", VT_JSON},
};
auto it = str2ValueType.find(nodeStr);
if (it == str2ValueType.end()) {
ythrow yexception() << "Invalid value type '" << nodeStr << "'";
}
valueType = it->second;
}
void Deserialize(ESortOrder& sortOrder, const TNode& node)
{
sortOrder = FromString<ESortOrder>(node.AsString());
}
void Deserialize(EOptimizeForAttr& optimizeFor, const TNode& node)
{
optimizeFor = FromString<EOptimizeForAttr>(node.AsString());
}
void Deserialize(EErasureCodecAttr& erasureCodec, const TNode& node)
{
erasureCodec = FromString<EErasureCodecAttr>(node.AsString());
}
void Deserialize(ESchemaModificationAttr& schemaModification, const TNode& node)
{
schemaModification = FromString<ESchemaModificationAttr>(node.AsString());
}
void Serialize(const TColumnSchema& columnSchema, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginMap()
.Item("name").Value(columnSchema.Name())
.DoIf(!columnSchema.RawTypeV3().Defined(),
[&] (TFluentMap fluent) {
static const auto optionalYson = NTi::Optional(NTi::Yson());
fluent.Item("type").Value(NDetail::ToString(columnSchema.Type()));
fluent.Item("required").Value(columnSchema.Required());
if (
(columnSchema.Type() == VT_ANY && *columnSchema.TypeV3() != *optionalYson) ||
// See https://github.com/ytsaurus/ytsaurus/issues/173
columnSchema.TypeV3()->IsDecimal() ||
(columnSchema.TypeV3()->IsOptional() && columnSchema.TypeV3()->AsOptional()->GetItemType()->IsDecimal()))
{
// A lot of user canonize serialized schema.
// To be backward compatible we only set type_v3 for new types.
fluent.Item("type_v3").Value(columnSchema.TypeV3());
}
}
)
.DoIf(columnSchema.RawTypeV3().Defined(), [&] (TFluentMap fluent) {
const auto& rawTypeV3 = *columnSchema.RawTypeV3();
fluent.Item("type_v3").Value(rawTypeV3);
// We going set old fields `type` and `required` to be compatible
// with old clusters that doesn't support type_v3 yet.
// if type is simple return its name otherwise return empty optional
auto isRequired = [](TStringBuf simpleType) {
return simpleType != "null" && simpleType != "void";
};
auto getSimple = [] (const TNode& typeV3) -> TMaybe<TString> {
static const THashMap<TString,TString> typeV3ToOld = {
{"bool", "boolean"},
{"yson", "any"},
};
TMaybe<TString> result;
if (typeV3.IsString()) {
result = typeV3.AsString();
} else if (typeV3.IsMap() && typeV3.Size() == 1) {
Y_ABORT_UNLESS(typeV3["type_name"].IsString(), "invalid type is passed");
result = typeV3["type_name"].AsString();
}
if (result) {
auto it = typeV3ToOld.find(*result);
if (it != typeV3ToOld.end()) {
result = it->second;
}
}
return result;
};
auto simplify = [&](const TNode& typeV3) -> TMaybe<std::pair<TString, bool>> {
auto simple = getSimple(typeV3);
if (simple) {
return std::make_pair(*simple, isRequired(*simple));
}
if (typeV3.IsMap() && typeV3["type_name"] == "optional") {
auto simpleItem = getSimple(typeV3["item"]);
if (simpleItem && isRequired(*simpleItem)) {
return std::make_pair(*simpleItem, false);
}
}
return {};
};
auto simplified = simplify(rawTypeV3);
if (simplified) {
const auto& [simpleType, required] = *simplified;
fluent
.Item("type").Value(simpleType)
.Item("required").Value(required);
return;
}
})
.DoIf(columnSchema.SortOrder().Defined(), [&] (TFluentMap fluent) {
fluent.Item("sort_order").Value(ToString(*columnSchema.SortOrder()));
})
.DoIf(columnSchema.Lock().Defined(), [&] (TFluentMap fluent) {
fluent.Item("lock").Value(*columnSchema.Lock());
})
.DoIf(columnSchema.Expression().Defined(), [&] (TFluentMap fluent) {
fluent.Item("expression").Value(*columnSchema.Expression());
})
.DoIf(columnSchema.Aggregate().Defined(), [&] (TFluentMap fluent) {
fluent.Item("aggregate").Value(*columnSchema.Aggregate());
})
.DoIf(columnSchema.Group().Defined(), [&] (TFluentMap fluent) {
fluent.Item("group").Value(*columnSchema.Group());
})
.DoIf(columnSchema.StableName().Defined(), [&] (TFluentMap fluent) {
fluent.Item("stable_name").Value(*columnSchema.StableName());
})
.DoIf(columnSchema.Deleted().Defined(), [&] (TFluentMap fluent) {
fluent.Item("deleted").Value(*columnSchema.Deleted());
})
.EndMap();
}
void Deserialize(TColumnSchema& columnSchema, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("name", columnSchema.Name_);
DESERIALIZE_ITEM("type_v3", columnSchema.RawTypeV3_);
DESERIALIZE_ITEM("sort_order", columnSchema.SortOrder_);
DESERIALIZE_ITEM("lock", columnSchema.Lock_);
DESERIALIZE_ITEM("expression", columnSchema.Expression_);
DESERIALIZE_ITEM("aggregate", columnSchema.Aggregate_);
DESERIALIZE_ITEM("group", columnSchema.Group_);
DESERIALIZE_ITEM("stable_name", columnSchema.StableName_);
DESERIALIZE_ITEM("deleted", columnSchema.Deleted_);
if (nodeMap.contains("type_v3")) {
NTi::TTypePtr type;
DESERIALIZE_ITEM("type_v3", type);
columnSchema.Type(type);
} else {
EValueType oldType = VT_INT64;
bool required = false;
DESERIALIZE_ITEM("type", oldType);
DESERIALIZE_ITEM("required", required);
columnSchema.Type(ToTypeV3(oldType, required));
}
}
void Serialize(const TTableSchema& tableSchema, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginAttributes()
.Item("strict").Value(tableSchema.Strict())
.Item("unique_keys").Value(tableSchema.UniqueKeys())
.EndAttributes()
.List(tableSchema.Columns());
}
void Deserialize(TTableSchema& tableSchema, const TNode& node)
{
const auto& attributesMap = node.GetAttributes().AsMap();
DESERIALIZE_ATTR("strict", tableSchema.Strict_);
DESERIALIZE_ATTR("unique_keys", tableSchema.UniqueKeys_);
Deserialize(tableSchema.Columns_, node);
}
////////////////////////////////////////////////////////////////////////////////
void Serialize(const TKeyBound& keyBound, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginList()
.Item().Value(ToString(keyBound.Relation()))
.Item().Value(keyBound.Key())
.EndList();
}
void Deserialize(TKeyBound& keyBound, const TNode& node)
{
const auto& nodeList = node.AsList();
Y_ENSURE(nodeList.size() == 2);
const auto& relationNode = nodeList[0];
keyBound.Relation(::FromString<ERelation>(relationNode.AsString()));
const auto& keyNode = nodeList[1];
TKey key;
Deserialize(key, keyNode);
keyBound.Key(std::move(key));
}
////////////////////////////////////////////////////////////////////////////////
void Serialize(const TReadLimit& readLimit, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginMap()
.DoIf(readLimit.KeyBound_.Defined(), [&] (TFluentMap fluent) {
fluent.Item("key_bound").Value(*readLimit.KeyBound_);
})
.DoIf(readLimit.Key_.Defined(), [&] (TFluentMap fluent) {
fluent.Item("key").Value(*readLimit.Key_);
})
.DoIf(readLimit.RowIndex_.Defined(), [&] (TFluentMap fluent) {
fluent.Item("row_index").Value(*readLimit.RowIndex_);
})
.DoIf(readLimit.Offset_.Defined(), [&] (TFluentMap fluent) {
fluent.Item("offset").Value(*readLimit.Offset_);
})
.DoIf(readLimit.TabletIndex_.Defined(), [&] (TFluentMap fluent) {
fluent.Item("tablet_index").Value(*readLimit.TabletIndex_);
})
.EndMap();
}
void Deserialize(TReadLimit& readLimit, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("key_bound", readLimit.KeyBound_);
DESERIALIZE_ITEM("key", readLimit.Key_);
DESERIALIZE_ITEM("row_index", readLimit.RowIndex_);
DESERIALIZE_ITEM("offset", readLimit.Offset_);
DESERIALIZE_ITEM("tablet_index", readLimit.TabletIndex_);
}
void Serialize(const TReadRange& readRange, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginMap()
.DoIf(!IsTrivial(readRange.LowerLimit_), [&] (TFluentMap fluent) {
fluent.Item("lower_limit").Value(readRange.LowerLimit_);
})
.DoIf(!IsTrivial(readRange.UpperLimit_), [&] (TFluentMap fluent) {
fluent.Item("upper_limit").Value(readRange.UpperLimit_);
})
.DoIf(!IsTrivial(readRange.Exact_), [&] (TFluentMap fluent) {
fluent.Item("exact").Value(readRange.Exact_);
})
.EndMap();
}
void Deserialize(TReadRange& readRange, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("lower_limit", readRange.LowerLimit_);
DESERIALIZE_ITEM("upper_limit", readRange.UpperLimit_);
DESERIALIZE_ITEM("exact", readRange.Exact_);
}
void Serialize(const THashMap<TString, TString>& renameColumns, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer)
.DoMapFor(renameColumns, [] (TFluentMap fluent, const auto& item) {
fluent.Item(item.first).Value(item.second);
});
}
void Serialize(const TRichYPath& path, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).BeginAttributes()
.DoIf(path.GetRanges().Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("ranges").List(*path.GetRanges());
})
.DoIf(path.Columns_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("columns").Value(*path.Columns_);
})
.DoIf(path.Append_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("append").Value(*path.Append_);
})
.DoIf(path.PartiallySorted_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("partially_sorted").Value(*path.PartiallySorted_);
})
.DoIf(!path.SortedBy_.Parts_.empty(), [&] (TFluentAttributes fluent) {
fluent.Item("sorted_by").Value(path.SortedBy_);
})
.DoIf(path.Teleport_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("teleport").Value(*path.Teleport_);
})
.DoIf(path.Primary_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("primary").Value(*path.Primary_);
})
.DoIf(path.Foreign_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("foreign").Value(*path.Foreign_);
})
.DoIf(path.RowCountLimit_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("row_count_limit").Value(*path.RowCountLimit_);
})
.DoIf(path.FileName_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("file_name").Value(*path.FileName_);
})
.DoIf(path.OriginalPath_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("original_path").Value(*path.OriginalPath_);
})
.DoIf(path.Executable_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("executable").Value(*path.Executable_);
})
.DoIf(path.Format_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("format").Value(*path.Format_);
})
.DoIf(path.Schema_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("schema").Value(*path.Schema_);
})
.DoIf(path.Timestamp_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("timestamp").Value(*path.Timestamp_);
})
.DoIf(path.CompressionCodec_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("compression_codec").Value(*path.CompressionCodec_);
})
.DoIf(path.ErasureCodec_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("erasure_codec").Value(ToString(*path.ErasureCodec_));
})
.DoIf(path.SchemaModification_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("schema_modification").Value(ToString(*path.SchemaModification_));
})
.DoIf(path.OptimizeFor_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("optimize_for").Value(ToString(*path.OptimizeFor_));
})
.DoIf(path.TransactionId_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("transaction_id").Value(GetGuidAsString(*path.TransactionId_));
})
.DoIf(path.RenameColumns_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("rename_columns").Value(*path.RenameColumns_);
})
.DoIf(path.BypassArtifactCache_.Defined(), [&] (TFluentAttributes fluent) {
fluent.Item("bypass_artifact_cache").Value(*path.BypassArtifactCache_);
})
.EndAttributes()
.Value(path.Path_);
}
void Deserialize(TRichYPath& path, const TNode& node)
{
path = {};
const auto& attributesMap = node.GetAttributes().AsMap();
DESERIALIZE_ATTR("ranges", path.MutableRanges());
DESERIALIZE_ATTR("columns", path.Columns_);
DESERIALIZE_ATTR("append", path.Append_);
DESERIALIZE_ATTR("partially_sorted", path.PartiallySorted_);
DESERIALIZE_ATTR("sorted_by", path.SortedBy_);
DESERIALIZE_ATTR("teleport", path.Teleport_);
DESERIALIZE_ATTR("primary", path.Primary_);
DESERIALIZE_ATTR("foreign", path.Foreign_);
DESERIALIZE_ATTR("row_count_limit", path.RowCountLimit_);
DESERIALIZE_ATTR("file_name", path.FileName_);
DESERIALIZE_ATTR("original_path", path.OriginalPath_);
DESERIALIZE_ATTR("executable", path.Executable_);
DESERIALIZE_ATTR("format", path.Format_);
DESERIALIZE_ATTR("schema", path.Schema_);
DESERIALIZE_ATTR("timestamp", path.Timestamp_);
DESERIALIZE_ATTR("compression_codec", path.CompressionCodec_);
DESERIALIZE_ATTR("erasure_codec", path.ErasureCodec_);
DESERIALIZE_ATTR("schema_modification", path.SchemaModification_);
DESERIALIZE_ATTR("optimize_for", path.OptimizeFor_);
DESERIALIZE_ATTR("transaction_id", path.TransactionId_);
DESERIALIZE_ATTR("rename_columns", path.RenameColumns_);
DESERIALIZE_ATTR("bypass_artifact_cache", path.BypassArtifactCache_);
Deserialize(path.Path_, node);
}
void Serialize(const TAttributeFilter& filter, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).List(filter.Attributes_);
}
void Deserialize(TTableColumnarStatistics& statistics, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("column_data_weights", statistics.ColumnDataWeight);
DESERIALIZE_ITEM("legacy_chunks_data_weight", statistics.LegacyChunksDataWeight);
DESERIALIZE_ITEM("timestamp_total_weight", statistics.TimestampTotalWeight);
}
void Deserialize(TMultiTablePartition::TStatistics& statistics, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("chunk_count", statistics.ChunkCount);
DESERIALIZE_ITEM("data_weight", statistics.DataWeight);
DESERIALIZE_ITEM("row_count", statistics.RowCount);
}
void Deserialize(TMultiTablePartition& partition, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("table_ranges", partition.TableRanges);
DESERIALIZE_ITEM("aggregate_statistics", partition.AggregateStatistics);
}
void Deserialize(TMultiTablePartitions& partitions, const TNode& node)
{
const auto& nodeMap = node.AsMap();
DESERIALIZE_ITEM("partitions", partitions.Partitions);
}
void Serialize(const TGUID& value, NYson::IYsonConsumer* consumer)
{
BuildYsonFluently(consumer).Value(GetGuidAsString(value));
}
void Deserialize(TGUID& value, const TNode& node)
{
value = GetGuid(node.AsString());
}
void Deserialize(TTabletInfo& value, const TNode& node)
{
auto nodeMap = node.AsMap();
DESERIALIZE_ITEM("total_row_count", value.TotalRowCount)
DESERIALIZE_ITEM("trimmed_row_count", value.TrimmedRowCount)
DESERIALIZE_ITEM("barrier_timestamp", value.BarrierTimestamp)
}
void Serialize(const NTi::TTypePtr& type, NYson::IYsonConsumer* consumer)
{
auto yson = NTi::NIo::SerializeYson(type.Get());
::NYson::ParseYsonStringBuffer(yson, consumer);
}
void Deserialize(NTi::TTypePtr& type, const TNode& node)
{
auto yson = NodeToYsonString(node, NYson::EYsonFormat::Binary);
type = NTi::NIo::DeserializeYson(*NTi::HeapFactory(), yson);
}
#undef DESERIALIZE_ITEM
#undef DESERIALIZE_ATTR
////////////////////////////////////////////////////////////////////////////////
} // namespace NYT
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