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|
#pragma once
///
/// @file yt/cpp/mapreduce/interface/common.h
///
/// Header containing miscellaneous structs and classes used in library.
#include "fwd.h"
#include <library/cpp/type_info/type_info.h>
#include <library/cpp/yson/node/node.h>
#include <util/generic/guid.h>
#include <util/generic/map.h>
#include <util/generic/maybe.h>
#include <util/generic/ptr.h>
#include <util/system/type_name.h>
#include <util/generic/vector.h>
#include <google/protobuf/message.h>
#include <initializer_list>
#include <type_traits>
namespace NYT {
////////////////////////////////////////////////////////////////////////////////
/// @cond Doxygen_Suppress
#define FLUENT_FIELD(type, name) \
type name##_; \
TSelf& name(const type& value) \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
static_assert(true)
#define FLUENT_FIELD_ENCAPSULATED(type, name) \
private: \
type name##_; \
public: \
TSelf& name(const type& value) & \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
TSelf name(const type& value) && \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
const type& name() const & \
{ \
return name##_; \
} \
type name() && \
{ \
return name##_; \
} \
static_assert(true)
#define FLUENT_FIELD_OPTION(type, name) \
TMaybe<type> name##_; \
TSelf& name(const type& value) \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
static_assert(true)
#define FLUENT_FIELD_OPTION_ENCAPSULATED(type, name) \
private: \
TMaybe<type> name##_; \
public: \
TSelf& name(const type& value) & \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
TSelf name(const type& value) && \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
TSelf& Reset##name() & \
{ \
name##_ = Nothing(); \
return static_cast<TSelf&>(*this); \
} \
TSelf Reset##name() && \
{ \
name##_ = Nothing(); \
return static_cast<TSelf&>(*this); \
} \
const TMaybe<type>& name() const& \
{ \
return name##_; \
} \
TMaybe<type> name() && \
{ \
return name##_; \
} \
static_assert(true)
#define FLUENT_FIELD_DEFAULT(type, name, defaultValue) \
type name##_ = defaultValue; \
TSelf& name(const type& value) \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
static_assert(true)
#define FLUENT_FIELD_DEFAULT_ENCAPSULATED(type, name, defaultValue) \
private: \
type name##_ = defaultValue; \
public: \
TSelf& name(const type& value) & \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
TSelf name(const type& value) && \
{ \
name##_ = value; \
return static_cast<TSelf&>(*this); \
} \
const type& name() const & \
{ \
return name##_; \
} \
type name() && \
{ \
return name##_; \
} \
static_assert(true)
#define FLUENT_VECTOR_FIELD(type, name) \
TVector<type> name##s_; \
TSelf& Add##name(const type& value) \
{ \
name##s_.push_back(value); \
return static_cast<TSelf&>(*this);\
} \
TSelf& name##s(TVector<type> values) \
{ \
name##s_ = std::move(values); \
return static_cast<TSelf&>(*this);\
} \
static_assert(true)
#define FLUENT_OPTIONAL_VECTOR_FIELD_ENCAPSULATED(type, name) \
private: \
TMaybe<TVector<type>> name##s_; \
public: \
const TMaybe<TVector<type>>& name##s() const & { \
return name##s_; \
} \
TMaybe<TVector<type>>& name##s() & { \
return name##s_; \
} \
TMaybe<TVector<type>> name##s() && { \
return std::move(name##s_); \
} \
TSelf& Add##name(const type& value) & \
{ \
if (name##s_.Empty()) { \
name##s_.ConstructInPlace(); \
} \
name##s_->push_back(value); \
return static_cast<TSelf&>(*this);\
} \
TSelf Add##name(const type& value) && \
{ \
if (name##s_.Empty()) { \
name##s_.ConstructInPlace(); \
} \
name##s_->push_back(value); \
return static_cast<TSelf&&>(*this);\
} \
TSelf& name##s(TVector<type> values) & \
{ \
name##s_ = std::move(values); \
return static_cast<TSelf&>(*this);\
} \
TSelf name##s(TVector<type> values) && \
{ \
name##s_ = std::move(values); \
return static_cast<TSelf&&>(*this);\
} \
TSelf& name##s(TNothing) & \
{ \
name##s_ = Nothing(); \
return static_cast<TSelf&>(*this);\
} \
TSelf name##s(TNothing) && \
{ \
name##s_ = Nothing(); \
return static_cast<TSelf&&>(*this);\
} \
TSelf& Reset##name##s() & \
{ \
name##s_ = Nothing(); \
return static_cast<TSelf&>(*this);\
} \
TSelf Reset##name##s() && \
{ \
name##s_ = Nothing(); \
return static_cast<TSelf&&>(*this);\
} \
static_assert(true)
#define FLUENT_VECTOR_FIELD_ENCAPSULATED(type, name) \
private: \
TVector<type> name##s_; \
public: \
TSelf& Add##name(const type& value) & \
{ \
name##s_.push_back(value); \
return static_cast<TSelf&>(*this);\
} \
TSelf Add##name(const type& value) && \
{ \
name##s_.push_back(value); \
return static_cast<TSelf&>(*this);\
} \
TSelf& name##s(TVector<type> value) & \
{ \
name##s_ = std::move(value); \
return static_cast<TSelf&>(*this);\
} \
TSelf name##s(TVector<type> value) && \
{ \
name##s_ = std::move(value); \
return static_cast<TSelf&>(*this);\
} \
const TVector<type>& name##s() const & \
{ \
return name##s_; \
} \
TVector<type> name##s() && \
{ \
return name##s_; \
} \
static_assert(true)
#define FLUENT_MAP_FIELD(keytype, valuetype, name) \
TMap<keytype,valuetype> name##_; \
TSelf& Add##name(const keytype& key, const valuetype& value) \
{ \
name##_.emplace(key, value); \
return static_cast<TSelf&>(*this);\
} \
static_assert(true)
/// @endcond
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Convenience class that keeps sequence of items.
///
/// Designed to be used as function parameter.
///
/// Users of such function can then pass:
/// - single item,
/// - initializer list of items,
/// - vector of items;
/// as argument to this function.
///
/// Example:
/// ```
/// void Foo(const TOneOrMany<int>& arg);
/// ...
/// Foo(1); // ok
/// Foo({1, 2, 3}); // ok
/// ```
template <class T, class TDerived>
struct TOneOrMany
{
/// @cond Doxygen_Suppress
using TSelf = std::conditional_t<std::is_void_v<TDerived>, TOneOrMany, TDerived>;
/// @endcond
/// Initialize with empty sequence.
TOneOrMany() = default;
// Initialize from initializer list.
template<class U>
TOneOrMany(std::initializer_list<U> il)
{
Parts_.assign(il.begin(), il.end());
}
/// Put arguments to sequence
template <class U, class... TArgs>
requires std::is_convertible_v<U, T>
TOneOrMany(U&& arg, TArgs&&... args)
{
Add(arg, std::forward<TArgs>(args)...);
}
/// Initialize from vector.
TOneOrMany(TVector<T> args)
: Parts_(std::move(args))
{ }
/// @brief Order is defined the same way as in TVector
bool operator==(const TOneOrMany& rhs) const
{
// N.B. We would like to make this method to be `= default`,
// but this breaks MSVC compiler for the cases when T doesn't
// support comparison.
return Parts_ == rhs.Parts_;
}
///
/// @{
///
/// @brief Add all arguments to sequence
template <class U, class... TArgs>
requires std::is_convertible_v<U, T>
TSelf& Add(U&& part, TArgs&&... args) &
{
Parts_.push_back(std::forward<U>(part));
if constexpr (sizeof...(args) > 0) {
[[maybe_unused]] int dummy[sizeof...(args)] = {(Parts_.push_back(std::forward<TArgs>(args)), 0) ... };
}
return static_cast<TSelf&>(*this);
}
template <class U, class... TArgs>
requires std::is_convertible_v<U, T>
TSelf Add(U&& part, TArgs&&... args) &&
{
return std::move(Add(std::forward<U>(part), std::forward<TArgs>(args)...));
}
/// @}
/// Content of sequence.
TVector<T> Parts_;
};
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Type of the value that can occur in YT table.
///
/// @ref NYT::TTableSchema
/// https://ytsaurus.tech/docs/en/user-guide/storage/data-types
enum EValueType : int
{
/// Int64, signed integer of 64 bits.
VT_INT64,
/// Uint64, unsigned integer of 64 bits.
VT_UINT64,
/// Double, floating point number of double precision (64 bits).
VT_DOUBLE,
/// Boolean, `true` or `false`.
VT_BOOLEAN,
/// String, arbitrary byte sequence.
VT_STRING,
/// Any, arbitrary yson document.
VT_ANY,
/// Int8, signed integer of 8 bits.
VT_INT8,
/// Int16, signed integer of 16 bits.
VT_INT16,
/// Int32, signed integer of 32 bits.
VT_INT32,
/// Uint8, unsigned integer of 8 bits.
VT_UINT8,
/// Uint16, unsigned integer of 16 bits.
VT_UINT16,
/// Uint32, unsigned integer of 32 bits.
VT_UINT32,
/// Utf8, byte sequence that is valid utf8.
VT_UTF8,
/// Null, absence of value (almost never used in schemas)
VT_NULL,
/// Void, absence of value (almost never used in schemas) the difference between null, and void is yql-specific.
VT_VOID,
/// Date, number of days since Unix epoch (unsigned)
VT_DATE,
/// Datetime, number of seconds since Unix epoch (unsigned)
VT_DATETIME,
/// Timestamp, number of milliseconds since Unix epoch (unsigned)
VT_TIMESTAMP,
/// Interval, difference between two timestamps (signed)
VT_INTERVAL,
/// Float, floating point number (32 bits)
VT_FLOAT,
/// Json, sequence of bytes that is valid json.
VT_JSON,
};
///
/// @brief Sort order.
///
/// @ref NYT::TTableSchema
enum ESortOrder : int
{
/// Ascending sort order.
SO_ASCENDING /* "ascending" */,
/// Descending sort order.
SO_DESCENDING /* "descending" */,
};
///
/// @brief Value of "optimize_for" attribute.
///
/// @ref NYT::TRichYPath
enum EOptimizeForAttr : i8
{
/// Optimize for scan
OF_SCAN_ATTR /* "scan" */,
/// Optimize for lookup
OF_LOOKUP_ATTR /* "lookup" */,
};
///
/// @brief Value of "erasure_codec" attribute.
///
/// @ref NYT::TRichYPath
enum EErasureCodecAttr : i8
{
/// @cond Doxygen_Suppress
EC_NONE_ATTR /* "none" */,
EC_REED_SOLOMON_6_3_ATTR /* "reed_solomon_6_3" */,
EC_LRC_12_2_2_ATTR /* "lrc_12_2_2" */,
EC_ISA_LRC_12_2_2_ATTR /* "isa_lrc_12_2_2" */,
/// @endcond
};
///
/// @brief Value of "schema_modification" attribute.
///
/// @ref NYT::TRichYPath
enum ESchemaModificationAttr : i8
{
SM_NONE_ATTR /* "none" */,
SM_UNVERSIONED_UPDATE /* "unversioned_update" */,
};
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Table key column description.
///
/// The description includes column name and sort order.
///
/// @anchor TSortOrder_backward_compatibility
/// @note
/// Many functions that use `TSortOrder` as argument used to take `TString`
/// (the only allowed sort order was "ascending" and user didn't have to specify it).
/// @note
/// This class is designed to provide backward compatibility for such code and therefore
/// objects of this class can be constructed and assigned from TString-like objects only.
///
/// @see NYT::TSortOperationSpec
class TSortColumn
{
public:
/// @cond Doxygen_Suppress
using TSelf = TSortColumn;
/// @endcond
/// Column name
FLUENT_FIELD_ENCAPSULATED(TString, Name);
/// Sort order
FLUENT_FIELD_DEFAULT_ENCAPSULATED(ESortOrder, SortOrder, ESortOrder::SO_ASCENDING);
///
/// @{
///
/// @brief Construct object from name and sort order
///
/// Constructors are intentionally implicit so `TSortColumn` can be compatible with old code.
/// @ref TSortOrder_backward_compatibility
TSortColumn(TStringBuf name = {}, ESortOrder sortOrder = ESortOrder::SO_ASCENDING);
TSortColumn(const TString& name, ESortOrder sortOrder = ESortOrder::SO_ASCENDING);
TSortColumn(const char* name, ESortOrder sortOrder = ESortOrder::SO_ASCENDING);
/// @}
/// Check that sort order is ascending, throw exception otherwise.
const TSortColumn& EnsureAscending() const;
/// @brief Convert sort to yson representation as YT API expects it.
TNode ToNode() const;
/// @brief Comparison is default and checks both name and sort order.
bool operator == (const TSortColumn& rhs) const = default;
///
/// @{
///
/// @brief Assign object from column name, and set sort order to `ascending`.
///
/// This is backward compatibility methods.
///
/// @ref TSortOrder_backward_compatibility
TSortColumn& operator = (TStringBuf name);
TSortColumn& operator = (const TString& name);
TSortColumn& operator = (const char* name);
/// @}
bool operator == (const TStringBuf rhsName) const;
bool operator == (const TString& rhsName) const;
bool operator == (const char* rhsName) const;
// Intentionally implicit conversions.
operator TString() const;
operator TStringBuf() const;
operator std::string() const;
Y_SAVELOAD_DEFINE(Name_, SortOrder_);
};
///
/// @brief List of @ref TSortColumn
///
/// Contains a bunch of helper methods such as constructing from single object.
class TSortColumns
: public TOneOrMany<TSortColumn, TSortColumns>
{
public:
using TOneOrMany<TSortColumn, TSortColumns>::TOneOrMany;
/// Construct empty list.
TSortColumns();
///
/// @{
///
/// @brief Construct list of ascending sort order columns by their names.
///
/// Required for backward compatibility.
///
/// @ref TSortOrder_backward_compatibility
TSortColumns(const TVector<TString>& names);
TSortColumns(const TColumnNames& names);
/// @}
///
/// @brief Implicit conversion to column list.
///
/// If all columns has ascending sort order return list of their names.
/// Throw exception otherwise.
///
/// Required for backward compatibility.
///
/// @ref TSortOrder_backward_compatibility
operator TColumnNames() const;
/// Make sure that all columns are of ascending sort order.
const TSortColumns& EnsureAscending() const;
/// Get list of column names.
TVector<TString> GetNames() const;
};
////////////////////////////////////////////////////////////////////////////////
/// Helper function to create new style type from old style one.
NTi::TTypePtr ToTypeV3(EValueType type, bool required);
///
/// @brief Single column description
///
/// Each field describing column has setter and getter.
///
/// Example reading field:
/// ```
/// ... columnSchema.Name() ...
/// ```
///
/// Example setting field:
/// ```
/// columnSchema.Name("my-column").Type(VT_INT64); // set name and type
/// ```
///
/// @ref https://ytsaurus.tech/docs/en/user-guide/storage/static-schema
class TColumnSchema
{
public:
/// @cond Doxygen_Suppress
using TSelf = TColumnSchema;
/// @endcond
///
/// @brief Construct empty column schemas
///
/// @note
/// Such schema cannot be used in schema as it it doesn't have name.
TColumnSchema();
///
/// @{
///
/// @brief Copy and move constructors are default.
TColumnSchema(const TColumnSchema&) = default;
TColumnSchema& operator=(const TColumnSchema&) = default;
/// @}
FLUENT_FIELD_ENCAPSULATED(TString, Name);
///
/// @brief Functions to work with type in old manner.
///
/// @deprecated New code is recommended to work with types using @ref NTi::TTypePtr from type_info library.
TColumnSchema& Type(EValueType type) &;
TColumnSchema Type(EValueType type) &&;
EValueType Type() const;
/// @brief Set and get column type.
/// @{
TColumnSchema& Type(const NTi::TTypePtr& type) &;
TColumnSchema Type(const NTi::TTypePtr& type) &&;
TColumnSchema& TypeV3(const NTi::TTypePtr& type) &;
TColumnSchema TypeV3(const NTi::TTypePtr& type) &&;
NTi::TTypePtr TypeV3() const;
/// @}
///
/// @brief Raw yson representation of column type
/// @deprecated Prefer to use `TypeV3` methods.
FLUENT_FIELD_OPTION_ENCAPSULATED(TNode, RawTypeV3);
/// Column sort order
FLUENT_FIELD_OPTION_ENCAPSULATED(ESortOrder, SortOrder);
///
/// @brief Lock group name
///
/// @ref https://ytsaurus.tech/docs/en/user-guide/dynamic-tables/sorted-dynamic-tables#locking-rows
FLUENT_FIELD_OPTION_ENCAPSULATED(TString, Lock);
/// Expression defining column value
FLUENT_FIELD_OPTION_ENCAPSULATED(TString, Expression);
/// Aggregating function name
FLUENT_FIELD_OPTION_ENCAPSULATED(TString, Aggregate);
///
/// @brief Storage group name
///
/// @ref https://ytsaurus.tech/docs/en/user-guide/storage/static-schema
FLUENT_FIELD_OPTION_ENCAPSULATED(TString, Group);
///
/// @brief Column requiredness.
///
/// Required columns doesn't accept NULL values.
/// Usually if column is required it means that it has Optional<...> type
bool Required() const;
///
/// @{
///
/// @brief Set type in old-style manner
TColumnSchema& Type(EValueType type, bool required) &;
TColumnSchema Type(EValueType type, bool required) &&;
/// @}
private:
friend void Deserialize(TColumnSchema& columnSchema, const TNode& node);
NTi::TTypePtr TypeV3_;
bool Required_ = false;
};
/// Equality check checks all fields of column schema.
bool operator==(const TColumnSchema& lhs, const TColumnSchema& rhs);
///
/// @brief Description of table schema
///
/// @see https://ytsaurus.tech/docs/en/user-guide/storage/static-schema
class TTableSchema
{
public:
/// @cond Doxygen_Suppress
using TSelf = TTableSchema;
/// @endcond
/// Column schema
FLUENT_VECTOR_FIELD_ENCAPSULATED(TColumnSchema, Column);
///
/// @brief Strictness of the schema
///
/// Strict schemas are not allowed to have columns not described in schema.
/// Nonstrict schemas are allowed to have such columns, all such missing columns are assumed to have
FLUENT_FIELD_DEFAULT_ENCAPSULATED(bool, Strict, true);
///
/// @brief Whether keys are unique
///
/// This flag can be set only for schemas that have sorted columns.
/// If flag is set table cannot have multiple rows with same key.
FLUENT_FIELD_DEFAULT_ENCAPSULATED(bool, UniqueKeys, false);
/// Get modifiable column list
TVector<TColumnSchema>& MutableColumns();
/// Check if schema has any described column
[[nodiscard]] bool Empty() const;
/// Add column
TTableSchema& AddColumn(const TString& name, const NTi::TTypePtr& type, ESortOrder sortOrder) &;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, const NTi::TTypePtr&, ESortOrder)&;
TTableSchema AddColumn(const TString& name, const NTi::TTypePtr& type, ESortOrder sortOrder) &&;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, const NTi::TTypePtr&, ESortOrder)&;
TTableSchema& AddColumn(const TString& name, const NTi::TTypePtr& type) &;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, const NTi::TTypePtr&, ESortOrder)&;
TTableSchema AddColumn(const TString& name, const NTi::TTypePtr& type) &&;
/// Add optional column of specified type
TTableSchema& AddColumn(const TString& name, EValueType type, ESortOrder sortOrder) &;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, EValueType, ESortOrder)&;
TTableSchema AddColumn(const TString& name, EValueType type, ESortOrder sortOrder) &&;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, EValueType, ESortOrder)&;
TTableSchema& AddColumn(const TString& name, EValueType type) &;
/// @copydoc NYT::TTableSchema::AddColumn(const TString&, EValueType, ESortOrder)&;
TTableSchema AddColumn(const TString& name, EValueType type) &&;
///
/// @brief Make table schema sorted by specified columns
///
/// Resets old key columns if any
TTableSchema& SortBy(const TSortColumns& columns) &;
/// @copydoc NYT::TTableSchema::SortBy(const TSortColumns&)&;
TTableSchema SortBy(const TSortColumns& columns) &&;
/// Get yson description of table schema
[[nodiscard]] TNode ToNode() const;
/// Parse schema from yson node
static NYT::TTableSchema FromNode(const TNode& node);
friend void Deserialize(TTableSchema& tableSchema, const TNode& node);
};
/// Check for equality of all columns and all schema attributes
bool operator==(const TTableSchema& lhs, const TTableSchema& rhs);
// Pretty printer for unittests
void PrintTo(const TTableSchema& schema, std::ostream* out);
/// Create table schema by protobuf message descriptor
TTableSchema CreateTableSchema(
const ::google::protobuf::Descriptor& messageDescriptor,
const TSortColumns& sortColumns = TSortColumns(),
bool keepFieldsWithoutExtension = true);
/// Create table schema by protobuf message type
template <class TProtoType, typename = std::enable_if_t<std::is_base_of_v<::google::protobuf::Message, TProtoType>>>
inline TTableSchema CreateTableSchema(
const TSortColumns& sortColumns = TSortColumns(),
bool keepFieldsWithoutExtension = true)
{
static_assert(
std::is_base_of_v<::google::protobuf::Message, TProtoType>,
"Template argument must be derived from ::google::protobuf::Message");
return CreateTableSchema(
*TProtoType::descriptor(),
sortColumns,
keepFieldsWithoutExtension);
}
///
/// @brief Create strict table schema from `struct` type.
///
/// Names and types of columns are taken from struct member names and types.
/// `Strict` flag is set to true, all other attribute of schema and columns
/// are left with default values
TTableSchema CreateTableSchema(NTi::TTypePtr type);
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Enumeration describing comparison operation used in key bound.
///
/// ERelation is a part of @ref NYT::TKeyBound that can be used as
/// lower or upper key limit in @ref TReadLimit.
///
/// Relations `Less` and `LessOrEqual` are for upper limit and
/// relations `Greater` and `GreaterOrEqual` are for lower limit.
///
/// It is a error to use relation in the limit of wrong kind.
///
/// @see https://ytsaurus.tech/docs/en/user-guide/storage/ypath#rich_ypath
enum class ERelation
{
///
/// @brief Relation "less"
///
/// Specifies range of keys that are before specified key.
/// Can only be used in upper limit.
Less /* "<" */,
///
/// @brief Relation "less or equal"
///
/// Specifies range of keys that are before or equal specified key.
/// Can only be used in upper limit.
LessOrEqual /* "<=" */,
///
/// @brief Relation "greater"
///
/// Specifies range of keys that are after specified key.
/// Can only be used in lower limit.
Greater /* ">" */,
///
/// @brief Relation "greater or equal"
///
/// Specifies range of keys that are after or equal than specified key.
/// Can only be used in lower limit.
GreaterOrEqual /* ">=" */,
};
///
/// @brief Key with relation specifying interval of keys in lower or upper limit of @ref NYT::TReadRange
///
/// @see https://ytsaurus.tech/docs/en/user-guide/common/ypath#rich_ypath
struct TKeyBound
{
/// @cond Doxygen_Suppress
using TSelf = TKeyBound;
explicit TKeyBound(ERelation relation = ERelation::Less, TKey key = TKey{});
FLUENT_FIELD_DEFAULT_ENCAPSULATED(ERelation, Relation, ERelation::Less);
FLUENT_FIELD_DEFAULT_ENCAPSULATED(TKey, Key, TKey{});
/// @endcond
};
///
/// @brief Description of the read limit.
///
/// It is actually a variant and must store exactly one field.
///
/// @see https://ytsaurus.tech/docs/en/user-guide/common/ypath#rich_ypath
struct TReadLimit
{
/// @cond Doxygen_Suppress
using TSelf = TReadLimit;
/// @endcond
///
/// @brief KeyBound specifies table key and whether to include it
///
/// It can be used in lower or upper limit when reading tables.
FLUENT_FIELD_OPTION(TKeyBound, KeyBound);
///
/// @brief Table key
///
/// It can be used in exact, lower or upper limit when reading tables.
FLUENT_FIELD_OPTION(TKey, Key);
///
/// @brief Row index
///
/// It can be used in exact, lower or upper limit when reading tables.
FLUENT_FIELD_OPTION(i64, RowIndex);
///
/// @brief File offset
///
/// It can be used in lower or upper limit when reading files.
FLUENT_FIELD_OPTION(i64, Offset);
///
/// @brief Tablet index
///
/// It can be used in lower or upper limit in dynamic table operations
FLUENT_FIELD_OPTION(i64, TabletIndex);
};
///
/// @brief Range of a table or a file
///
/// @see https://ytsaurus.tech/docs/en/user-guide/common/ypath#rich_ypath
struct TReadRange
{
using TSelf = TReadRange;
///
/// @brief Lower limit of the range
///
/// It is usually inclusive (except when @ref NYT::TKeyBound with relation @ref NYT::ERelation::Greater is used).
FLUENT_FIELD(TReadLimit, LowerLimit);
///
/// @brief Lower limit of the range
///
/// It is usually exclusive (except when @ref NYT::TKeyBound with relation @ref NYT::ERelation::LessOrEqual is used).
FLUENT_FIELD(TReadLimit, UpperLimit);
/// Exact key or row index.
FLUENT_FIELD(TReadLimit, Exact);
/// Create read range from row indexes.
static TReadRange FromRowIndices(i64 lowerLimit, i64 upperLimit)
{
return TReadRange()
.LowerLimit(TReadLimit().RowIndex(lowerLimit))
.UpperLimit(TReadLimit().RowIndex(upperLimit));
}
/// Create read range from keys.
static TReadRange FromKeys(const TKey& lowerKeyInclusive, const TKey& upperKeyExclusive)
{
return TReadRange()
.LowerLimit(TReadLimit().Key(lowerKeyInclusive))
.UpperLimit(TReadLimit().Key(upperKeyExclusive));
}
};
///
/// @brief Path with additional attributes.
///
/// Allows to specify additional attributes for path used in some operations.
///
/// @see https://ytsaurus.tech/docs/en/user-guide/storage/ypath#rich_ypath
struct TRichYPath
{
/// @cond Doxygen_Suppress
using TSelf = TRichYPath;
/// @endcond
/// Path itself.
FLUENT_FIELD(TYPath, Path);
/// Specifies that path should be appended not overwritten
FLUENT_FIELD_OPTION(bool, Append);
/// @deprecated Deprecated attribute.
FLUENT_FIELD_OPTION(bool, PartiallySorted);
/// Specifies that path is expected to be sorted by these columns.
FLUENT_FIELD(TSortColumns, SortedBy);
/// Add range to read.
TRichYPath& AddRange(TReadRange range)
{
if (!Ranges_) {
Ranges_.ConstructInPlace();
}
Ranges_->push_back(std::move(range));
return *this;
}
TRichYPath& ResetRanges()
{
Ranges_.Clear();
return *this;
}
///
/// @{
///
/// Return ranges to read.
///
/// NOTE: Nothing (in TMaybe) and empty TVector are different ranges.
/// Nothing represents universal range (reader reads all table rows).
/// Empty TVector represents empty range (reader returns empty set of rows).
const TMaybe<TVector<TReadRange>>& GetRanges() const
{
return Ranges_;
}
TMaybe<TVector<TReadRange>>& MutableRanges()
{
return Ranges_;
}
///
/// @{
///
/// Get range view, that is convenient way to iterate through all ranges.
TArrayRef<TReadRange> MutableRangesView()
{
if (Ranges_.Defined()) {
return TArrayRef(Ranges_->data(), Ranges_->size());
} else {
return {};
}
}
TArrayRef<const TReadRange> GetRangesView() const
{
if (Ranges_.Defined()) {
return TArrayRef(Ranges_->data(), Ranges_->size());
} else {
return {};
}
}
/// @}
/// @{
///
/// Get range by index.
const TReadRange& GetRange(ssize_t i) const
{
return Ranges_.GetRef()[i];
}
TReadRange& MutableRange(ssize_t i)
{
return Ranges_.GetRef()[i];
}
/// @}
///
/// @brief Specifies columns that should be read.
///
/// If it's set to Nothing then all columns will be read.
/// If empty TColumnNames is specified then each read row will be empty.
FLUENT_FIELD_OPTION(TColumnNames, Columns);
FLUENT_FIELD_OPTION(bool, Teleport);
FLUENT_FIELD_OPTION(bool, Primary);
FLUENT_FIELD_OPTION(bool, Foreign);
FLUENT_FIELD_OPTION(i64, RowCountLimit);
FLUENT_FIELD_OPTION(TString, FileName);
/// Specifies original path to be shown in Web UI
FLUENT_FIELD_OPTION(TYPath, OriginalPath);
///
/// @brief Specifies that this path points to executable file
///
/// Used in operation specs.
FLUENT_FIELD_OPTION(bool, Executable);
///
/// @brief Specify format to use when loading table.
///
/// Used in operation specs.
FLUENT_FIELD_OPTION(TNode, Format);
/// @brief Specifies table schema that will be set on the path
FLUENT_FIELD_OPTION(TTableSchema, Schema);
/// Specifies compression codec that will be set on the path
FLUENT_FIELD_OPTION(TString, CompressionCodec);
/// Specifies erasure codec that will be set on the path
FLUENT_FIELD_OPTION(EErasureCodecAttr, ErasureCodec);
/// Specifies schema modification that will be set on the path
FLUENT_FIELD_OPTION(ESchemaModificationAttr, SchemaModification);
/// Specifies optimize_for attribute that will be set on the path
FLUENT_FIELD_OPTION(EOptimizeForAttr, OptimizeFor);
///
/// @brief Do not put file used in operation into node cache
///
/// If BypassArtifactCache == true, file will be loaded into the job's sandbox bypassing the cache on the YT node.
/// It helps jobs that use tmpfs to start faster,
/// because files will be loaded into tmpfs directly bypassing disk cache
FLUENT_FIELD_OPTION(bool, BypassArtifactCache);
///
/// @brief Timestamp of dynamic table.
///
/// NOTE: it is _not_ unix timestamp
/// (instead it's transaction timestamp, that is more complex structure).
FLUENT_FIELD_OPTION(i64, Timestamp);
///
/// @brief Specify transaction that should be used to access this path.
///
/// Allows to start cross-transactional operations.
FLUENT_FIELD_OPTION(TTransactionId, TransactionId);
using TRenameColumnsDescriptor = THashMap<TString, TString>;
/// Specifies columnar mapping which will be applied to columns before transfer to job.
FLUENT_FIELD_OPTION(TRenameColumnsDescriptor, RenameColumns);
/// Create empty path with no attributes
TRichYPath()
{ }
///
/// @{
///
/// @brief Create path from string
TRichYPath(const char* path)
: Path_(path)
{ }
TRichYPath(const TYPath& path)
: Path_(path)
{ }
/// @}
private:
TMaybe<TVector<TReadRange>> Ranges_;
};
///
/// @ref Create copy of @ref NYT::TRichYPath with schema derived from proto message.
///
///
template <typename TProtoType>
TRichYPath WithSchema(const TRichYPath& path, const TSortColumns& sortBy = TSortColumns())
{
static_assert(std::is_base_of_v<::google::protobuf::Message, TProtoType>, "TProtoType must be Protobuf message");
auto schemedPath = path;
if (!schemedPath.Schema_) {
schemedPath.Schema(CreateTableSchema<TProtoType>(sortBy));
}
return schemedPath;
}
///
/// @brief Create copy of @ref NYT::TRichYPath with schema derived from TRowType if possible.
///
/// If TRowType is protobuf message schema is derived from it and set to returned path.
/// Otherwise schema of original path is left unchanged (and probably unset).
template <typename TRowType>
TRichYPath MaybeWithSchema(const TRichYPath& path, const TSortColumns& sortBy = TSortColumns())
{
if constexpr (std::is_base_of_v<::google::protobuf::Message, TRowType>) {
return WithSchema<TRowType>(path, sortBy);
} else {
return path;
}
}
///
/// @brief Get the list of ranges related to path in compatibility mode.
///
/// - If path is missing ranges, empty list is returned.
/// - If path has associated range list and the list is not empty, function returns this list.
/// - If path has associated range list and this list is empty, exception is thrown.
///
/// Before YT-17683 RichYPath didn't support empty range list and empty range actually meant universal range.
/// This function emulates this old behavior.
///
/// @see https://st.yandex-team.ru/YT-17683
const TVector<TReadRange>& GetRangesCompat(const TRichYPath& path);
////////////////////////////////////////////////////////////////////////////////
/// Statistics about table columns.
struct TTableColumnarStatistics
{
/// Total data weight for all chunks for each of requested columns.
THashMap<TString, i64> ColumnDataWeight;
/// Total weight of all old chunks that don't keep columnar statistics.
i64 LegacyChunksDataWeight = 0;
/// Timestamps total weight (only for dynamic tables).
TMaybe<i64> TimestampTotalWeight;
};
////////////////////////////////////////////////////////////////////////////////
/// Description of a partition.
struct TMultiTablePartition
{
struct TStatistics
{
i64 ChunkCount = 0;
i64 DataWeight = 0;
i64 RowCount = 0;
};
/// Ranges of input tables for this partition.
TVector<TRichYPath> TableRanges;
/// Aggregate statistics of all the table ranges in the partition.
TStatistics AggregateStatistics;
};
/// Table partitions from GetTablePartitions command.
struct TMultiTablePartitions
{
/// Disjoint partitions into which the input tables were divided.
TVector<TMultiTablePartition> Partitions;
};
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Contains information about tablet
///
/// @see NYT::IClient::GetTabletInfos
struct TTabletInfo
{
///
/// @brief Indicates the total number of rows added to the tablet (including trimmed ones).
///
/// Currently only provided for ordered tablets.
i64 TotalRowCount = 0;
///
/// @brief Contains the number of front rows that are trimmed and are not guaranteed to be accessible.
///
/// Only makes sense for ordered tablet.
i64 TrimmedRowCount = 0;
///
/// @brief Tablet cell barrier timestamp, which lags behind the current timestamp
///
/// It is guaranteed that all transactions with commit timestamp not exceeding the barrier are fully committed;
/// e.g. all their added rows are visible (and are included in @ref NYT::TTabletInfo::TotalRowCount).
/// Mostly makes sense for ordered tablets.
ui64 BarrierTimestamp;
};
////////////////////////////////////////////////////////////////////////////////
/// List of attributes to retrieve in operations like @ref NYT::ICypressClient::Get
struct TAttributeFilter
{
/// @cond Doxygen_Suppress
using TSelf = TAttributeFilter;
/// @endcond
/// List of attributes.
FLUENT_VECTOR_FIELD(TString, Attribute);
};
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Check if none of the fields of @ref NYT::TReadLimit is set.
///
/// @return true if any field of readLimit is set and false otherwise.
bool IsTrivial(const TReadLimit& readLimit);
/// Convert yson node type to table schema type
EValueType NodeTypeToValueType(TNode::EType nodeType);
////////////////////////////////////////////////////////////////////////////////
///
/// @brief Enumeration for specifying how reading from master is performed.
///
/// Used in operations like NYT::ICypressClient::Get
enum class EMasterReadKind : int
{
///
/// @brief Reading from leader.
///
/// Should almost never be used since it's expensive and for regular uses has no difference from
/// "follower" read.
Leader /* "leader" */,
/// @brief Reading from master follower (default).
Follower /* "follower" */,
Cache /* "cache" */,
MasterCache /* "master_cache" */,
};
////////////////////////////////////////////////////////////////////////////////
/// @cond Doxygen_Suppress
namespace NDetail {
// MUST NOT BE USED BY CLIENTS
// TODO: we should use default GENERATE_ENUM_SERIALIZATION
TString ToString(EValueType type);
} // namespace NDetail
/// @endcond
////////////////////////////////////////////////////////////////////////////////
} // namespace NYT
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