format/Schema.fbs - arrow-experimental-rs-parquet2 - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License.  You may obtain a copy of the License at
 //
 //   http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing,
 // software distributed under the License is distributed on an
 // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 // KIND, either express or implied.  See the License for the
 // specific language governing permissions and limitations
 // under the License.

 /// Logical types, vector layouts, and schemas

 namespace org.apache.arrow.flatbuf;

 enum MetadataVersion:short {
   /// 0.1.0 (October 2016).
   V1,

   /// 0.2.0 (February 2017). Non-backwards compatible with V1.
   V2,

   /// 0.3.0 -> 0.7.1 (May - December 2017). Non-backwards compatible with V2.
   V3,

   /// >= 0.8.0 (December 2017). Non-backwards compatible with V3.
   V4,

   /// >= 1.0.0 (July 2020. Backwards compatible with V4 (V5 readers can read V4
   /// metadata and IPC messages). Implementations are recommended to provide a
   /// V4 compatibility mode with V5 format changes disabled.
   ///
   /// Incompatible changes between V4 and V5:
   /// - Union buffer layout has changed. In V5, Unions don't have a validity
   ///   bitmap buffer.
   V5,
 }

 /// Represents Arrow Features that might not have full support
 /// within implementations. This is intended to be used in
 /// two scenarios:
 ///  1.  A mechanism for readers of Arrow Streams
 ///      and files to understand that the stream or file makes
 ///      use of a feature that isn't supported or unknown to
 ///      the implementation (and therefore can meet the Arrow
 ///      forward compatibility guarantees).
 ///  2.  A means of negotiating between a client and server
 ///      what features a stream is allowed to use. The enums
 ///      values here are intented to represent higher level
 ///      features, additional details maybe negotiated
 ///      with key-value pairs specific to the protocol.
 ///
 /// Enums added to this list should be assigned power-of-two values
 /// to facilitate exchanging and comparing bitmaps for supported
 /// features.
 enum Feature : long {
   /// Needed to make flatbuffers happy.
   UNUSED = 0,
   /// The stream makes use of multiple full dictionaries with the
   /// same ID and assumes clients implement dictionary replacement
   /// correctly.
   DICTIONARY_REPLACEMENT = 1,
   /// The stream makes use of compressed bodies as described
   /// in Message.fbs.
   COMPRESSED_BODY = 2
 }

 /// These are stored in the flatbuffer in the Type union below

 table Null {
 }

 /// A Struct_ in the flatbuffer metadata is the same as an Arrow Struct
 /// (according to the physical memory layout). We used Struct_ here as
 /// Struct is a reserved word in Flatbuffers
 table Struct_ {
 }

 table List {
 }

 /// Same as List, but with 64-bit offsets, allowing to represent
 /// extremely large data values.
 table LargeList {
 }

 table FixedSizeList {
   /// Number of list items per value
   listSize: int;
 }

 /// A Map is a logical nested type that is represented as
 ///
 /// List<entries: Struct<key: K, value: V>>
 ///
 /// In this layout, the keys and values are each respectively contiguous. We do
 /// not constrain the key and value types, so the application is responsible
 /// for ensuring that the keys are hashable and unique. Whether the keys are sorted
 /// may be set in the metadata for this field.
 ///
 /// In a field with Map type, the field has a child Struct field, which then
 /// has two children: key type and the second the value type. The names of the
 /// child fields may be respectively "entries", "key", and "value", but this is
 /// not enforced.
 ///
 /// Map
 /// ```text
 ///   - child[0] entries: Struct
 ///     - child[0] key: K
 ///     - child[1] value: V
 /// ```
 /// Neither the "entries" field nor the "key" field may be nullable.
 ///
 /// The metadata is structured so that Arrow systems without special handling
 /// for Map can make Map an alias for List. The "layout" attribute for the Map
 /// field must have the same contents as a List.
 table Map {
   /// Set to true if the keys within each value are sorted
   keysSorted: bool;
 }

 enum UnionMode:short { Sparse, Dense }

 /// A union is a complex type with children in Field
 /// By default ids in the type vector refer to the offsets in the children
 /// optionally typeIds provides an indirection between the child offset and the type id
 /// for each child `typeIds[offset]` is the id used in the type vector
 table Union {
   mode: UnionMode;
   typeIds: [ int ]; // optional, describes typeid of each child.
 }

 table Int {
   bitWidth: int; // restricted to 8, 16, 32, and 64 in v1
   is_signed: bool;
 }

 enum Precision:short {HALF, SINGLE, DOUBLE}

 table FloatingPoint {
   precision: Precision;
 }

 /// Unicode with UTF-8 encoding
 table Utf8 {
 }

 /// Opaque binary data
 table Binary {
 }

 /// Same as Utf8, but with 64-bit offsets, allowing to represent
 /// extremely large data values.
 table LargeUtf8 {
 }

 /// Same as Binary, but with 64-bit offsets, allowing to represent
 /// extremely large data values.
 table LargeBinary {
 }

 table FixedSizeBinary {
   /// Number of bytes per value
   byteWidth: int;
 }

 table Bool {
 }

 /// Exact decimal value represented as an integer value in two's
 /// complement. Currently only 128-bit (16-byte) and 256-bit (32-byte) integers
 /// are used. The representation uses the endianness indicated
 /// in the Schema.
 table Decimal {
   /// Total number of decimal digits
   precision: int;

   /// Number of digits after the decimal point "."
   scale: int;

   /// Number of bits per value. The only accepted widths are 128 and 256.
   /// We use bitWidth for consistency with Int::bitWidth.
   bitWidth: int = 128;
 }

 enum DateUnit: short {
   DAY,
   MILLISECOND
 }

 /// Date is either a 32-bit or 64-bit type representing elapsed time since UNIX
 /// epoch (1970-01-01), stored in either of two units:
 ///
 /// * Milliseconds (64 bits) indicating UNIX time elapsed since the epoch (no
 ///   leap seconds), where the values are evenly divisible by 86400000
 /// * Days (32 bits) since the UNIX epoch
 table Date {
   unit: DateUnit = MILLISECOND;
 }

 enum TimeUnit: short { SECOND, MILLISECOND, MICROSECOND, NANOSECOND }

 /// Time type. The physical storage type depends on the unit
 /// - SECOND and MILLISECOND: 32 bits
 /// - MICROSECOND and NANOSECOND: 64 bits
 table Time {
   unit: TimeUnit = MILLISECOND;
   bitWidth: int = 32;
 }

 /// Time elapsed from the Unix epoch, 00:00:00.000 on 1 January 1970, excluding
 /// leap seconds, as a 64-bit integer. Note that UNIX time does not include
 /// leap seconds.
 ///
 /// The Timestamp metadata supports both "time zone naive" and "time zone
 /// aware" timestamps. Read about the timezone attribute for more detail
 table Timestamp {
   unit: TimeUnit;

   /// The time zone is a string indicating the name of a time zone, one of:
   ///
   /// * As used in the Olson time zone database (the "tz database" or
   ///   "tzdata"), such as "America/New_York"
   /// * An absolute time zone offset of the form +XX:XX or -XX:XX, such as +07:30
   ///
   /// Whether a timezone string is present indicates different semantics about
   /// the data:
   ///
   /// * If the time zone is null or equal to an empty string, the data is "time
   ///   zone naive" and shall be displayed *as is* to the user, not localized
   ///   to the locale of the user. This data can be though of as UTC but
   ///   without having "UTC" as the time zone, it is not considered to be
   ///   localized to any time zone
   ///
   /// * If the time zone is set to a valid value, values can be displayed as
   ///   "localized" to that time zone, even though the underlying 64-bit
   ///   integers are identical to the same data stored in UTC. Converting
   ///   between time zones is a metadata-only operation and does not change the
   ///   underlying values
   timezone: string;
 }

 enum IntervalUnit: short { YEAR_MONTH, DAY_TIME}
 // A "calendar" interval which models types that don't necessarily
 // have a precise duration without the context of a base timestamp (e.g.
 // days can differ in length during day light savings time transitions).
 // YEAR_MONTH - Indicates the number of elapsed whole months, stored as
 //   4-byte integers.
 // DAY_TIME - Indicates the number of elapsed days and milliseconds,
 //   stored as 2 contiguous 32-bit integers (8-bytes in total).  Support
 //   of this IntervalUnit is not required for full arrow compatibility.
 table Interval {
   unit: IntervalUnit;
 }

 // An absolute length of time unrelated to any calendar artifacts.
 //
 // For the purposes of Arrow Implementations, adding this value to a Timestamp
 // ("t1") naively (i.e. simply summing the two number) is acceptable even
 // though in some cases the resulting Timestamp (t2) would not account for
 // leap-seconds during the elapsed time between "t1" and "t2".  Similarly,
 // representing the difference between two Unix timestamp is acceptable, but
 // would yield a value that is possibly a few seconds off from the true elapsed
 // time.
 //
 //  The resolution defaults to millisecond, but can be any of the other
 //  supported TimeUnit values as with Timestamp and Time types.  This type is
 //  always represented as an 8-byte integer.
 table Duration {
   unit: TimeUnit = MILLISECOND;
 }

 /// ----------------------------------------------------------------------
 /// Top-level Type value, enabling extensible type-specific metadata. We can
 /// add new logical types to Type without breaking backwards compatibility

 union Type {
   Null,
   Int,
   FloatingPoint,
   Binary,
   Utf8,
   Bool,
   Decimal,
   Date,
   Time,
   Timestamp,
   Interval,
   List,
   Struct_,
   Union,
   FixedSizeBinary,
   FixedSizeList,
   Map,
   Duration,
   LargeBinary,
   LargeUtf8,
   LargeList,
 }

 /// ----------------------------------------------------------------------
 /// user defined key value pairs to add custom metadata to arrow
 /// key namespacing is the responsibility of the user

 table KeyValue {
   key: string;
   value: string;
 }

 /// ----------------------------------------------------------------------
 /// Dictionary encoding metadata
 /// Maintained for forwards compatibility, in the future
 /// Dictionaries might be explicit maps between integers and values
 /// allowing for non-contiguous index values
 enum DictionaryKind : short { DenseArray }
 table DictionaryEncoding {
   /// The known dictionary id in the application where this data is used. In
   /// the file or streaming formats, the dictionary ids are found in the
   /// DictionaryBatch messages
   id: long;

   /// The dictionary indices are constrained to be non-negative integers. If
   /// this field is null, the indices must be signed int32. To maximize
   /// cross-language compatibility and performance, implementations are
   /// recommended to prefer signed integer types over unsigned integer types
   /// and to avoid uint64 indices unless they are required by an application.
   indexType: Int;

   /// By default, dictionaries are not ordered, or the order does not have
   /// semantic meaning. In some statistical, applications, dictionary-encoding
   /// is used to represent ordered categorical data, and we provide a way to
   /// preserve that metadata here
   isOrdered: bool;

   dictionaryKind: DictionaryKind;
 }

 /// ----------------------------------------------------------------------
 /// A field represents a named column in a record / row batch or child of a
 /// nested type.

 table Field {
   /// Name is not required, in i.e. a List
   name: string;

   /// Whether or not this field can contain nulls. Should be true in general.
   nullable: bool;

   /// This is the type of the decoded value if the field is dictionary encoded.
   type: Type;

   /// Present only if the field is dictionary encoded.
   dictionary: DictionaryEncoding;

   /// children apply only to nested data types like Struct, List and Union. For
   /// primitive types children will have length 0.
   children: [ Field ];

   /// User-defined metadata
   custom_metadata: [ KeyValue ];
 }

 /// ----------------------------------------------------------------------
 /// Endianness of the platform producing the data

 enum Endianness:short { Little, Big }

 /// ----------------------------------------------------------------------
 /// A Buffer represents a single contiguous memory segment
 struct Buffer {
   /// The relative offset into the shared memory page where the bytes for this
   /// buffer starts
   offset: long;

   /// The absolute length (in bytes) of the memory buffer. The memory is found
   /// from offset (inclusive) to offset + length (non-inclusive). When building
   /// messages using the encapsulated IPC message, padding bytes may be written
   /// after a buffer, but such padding bytes do not need to be accounted for in
   /// the size here.
   length: long;
 }

 /// ----------------------------------------------------------------------
 /// A Schema describes the columns in a row batch

 table Schema {

   /// endianness of the buffer
   /// it is Little Endian by default
   /// if endianness doesn't match the underlying system then the vectors need to be converted
   endianness: Endianness=Little;

   fields: [Field];
   // User-defined metadata
   custom_metadata: [ KeyValue ];

   /// Features used in the stream/file.
   features : [ Feature ];
 }

 root_type Schema;
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing,
	// software distributed under the License is distributed on an
	// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	// KIND, either express or implied. See the License for the
	// specific language governing permissions and limitations
	// under the License.

	/// Logical types, vector layouts, and schemas

	namespace org.apache.arrow.flatbuf;

	enum MetadataVersion:short {
	/// 0.1.0 (October 2016).
	V1,

	/// 0.2.0 (February 2017). Non-backwards compatible with V1.
	V2,

	/// 0.3.0 -> 0.7.1 (May - December 2017). Non-backwards compatible with V2.
	V3,

	/// >= 0.8.0 (December 2017). Non-backwards compatible with V3.
	V4,

	/// >= 1.0.0 (July 2020. Backwards compatible with V4 (V5 readers can read V4
	/// metadata and IPC messages). Implementations are recommended to provide a
	/// V4 compatibility mode with V5 format changes disabled.
	///
	/// Incompatible changes between V4 and V5:
	/// - Union buffer layout has changed. In V5, Unions don't have a validity
	/// bitmap buffer.
	V5,
	}

	/// Represents Arrow Features that might not have full support
	/// within implementations. This is intended to be used in
	/// two scenarios:
	/// 1. A mechanism for readers of Arrow Streams
	/// and files to understand that the stream or file makes
	/// use of a feature that isn't supported or unknown to
	/// the implementation (and therefore can meet the Arrow
	/// forward compatibility guarantees).
	/// 2. A means of negotiating between a client and server
	/// what features a stream is allowed to use. The enums
	/// values here are intented to represent higher level
	/// features, additional details maybe negotiated
	/// with key-value pairs specific to the protocol.
	///
	/// Enums added to this list should be assigned power-of-two values
	/// to facilitate exchanging and comparing bitmaps for supported
	/// features.
	enum Feature : long {
	/// Needed to make flatbuffers happy.
	UNUSED = 0,
	/// The stream makes use of multiple full dictionaries with the
	/// same ID and assumes clients implement dictionary replacement
	/// correctly.
	DICTIONARY_REPLACEMENT = 1,
	/// The stream makes use of compressed bodies as described
	/// in Message.fbs.
	COMPRESSED_BODY = 2
	}

	/// These are stored in the flatbuffer in the Type union below

	table Null {
	}

	/// A Struct_ in the flatbuffer metadata is the same as an Arrow Struct
	/// (according to the physical memory layout). We used Struct_ here as
	/// Struct is a reserved word in Flatbuffers
	table Struct_ {
	}

	table List {
	}

	/// Same as List, but with 64-bit offsets, allowing to represent
	/// extremely large data values.
	table LargeList {
	}

	table FixedSizeList {
	/// Number of list items per value
	listSize: int;
	}

	/// A Map is a logical nested type that is represented as
	///
	/// List<entries: Struct<key: K, value: V>>
	///
	/// In this layout, the keys and values are each respectively contiguous. We do
	/// not constrain the key and value types, so the application is responsible
	/// for ensuring that the keys are hashable and unique. Whether the keys are sorted
	/// may be set in the metadata for this field.
	///
	/// In a field with Map type, the field has a child Struct field, which then
	/// has two children: key type and the second the value type. The names of the
	/// child fields may be respectively "entries", "key", and "value", but this is
	/// not enforced.
	///
	/// Map
	/// ```text
	/// - child[0] entries: Struct
	/// - child[0] key: K
	/// - child[1] value: V
	/// ```
	/// Neither the "entries" field nor the "key" field may be nullable.
	///
	/// The metadata is structured so that Arrow systems without special handling
	/// for Map can make Map an alias for List. The "layout" attribute for the Map
	/// field must have the same contents as a List.
	table Map {
	/// Set to true if the keys within each value are sorted
	keysSorted: bool;
	}

	enum UnionMode:short { Sparse, Dense }

	/// A union is a complex type with children in Field
	/// By default ids in the type vector refer to the offsets in the children
	/// optionally typeIds provides an indirection between the child offset and the type id
	/// for each child `typeIds[offset]` is the id used in the type vector
	table Union {
	mode: UnionMode;
	typeIds: [ int ]; // optional, describes typeid of each child.
	}

	table Int {
	bitWidth: int; // restricted to 8, 16, 32, and 64 in v1
	is_signed: bool;
	}

	enum Precision:short {HALF, SINGLE, DOUBLE}

	table FloatingPoint {
	precision: Precision;
	}

	/// Unicode with UTF-8 encoding
	table Utf8 {
	}

	/// Opaque binary data
	table Binary {
	}

	/// Same as Utf8, but with 64-bit offsets, allowing to represent
	/// extremely large data values.
	table LargeUtf8 {
	}

	/// Same as Binary, but with 64-bit offsets, allowing to represent
	/// extremely large data values.
	table LargeBinary {
	}

	table FixedSizeBinary {
	/// Number of bytes per value
	byteWidth: int;
	}

	table Bool {
	}

	/// Exact decimal value represented as an integer value in two's
	/// complement. Currently only 128-bit (16-byte) and 256-bit (32-byte) integers
	/// are used. The representation uses the endianness indicated
	/// in the Schema.
	table Decimal {
	/// Total number of decimal digits
	precision: int;

	/// Number of digits after the decimal point "."
	scale: int;

	/// Number of bits per value. The only accepted widths are 128 and 256.
	/// We use bitWidth for consistency with Int::bitWidth.
	bitWidth: int = 128;
	}

	enum DateUnit: short {
	DAY,
	MILLISECOND
	}

	/// Date is either a 32-bit or 64-bit type representing elapsed time since UNIX
	/// epoch (1970-01-01), stored in either of two units:
	///
	/// * Milliseconds (64 bits) indicating UNIX time elapsed since the epoch (no
	/// leap seconds), where the values are evenly divisible by 86400000
	/// * Days (32 bits) since the UNIX epoch
	table Date {
	unit: DateUnit = MILLISECOND;
	}

	enum TimeUnit: short { SECOND, MILLISECOND, MICROSECOND, NANOSECOND }

	/// Time type. The physical storage type depends on the unit
	/// - SECOND and MILLISECOND: 32 bits
	/// - MICROSECOND and NANOSECOND: 64 bits
	table Time {
	unit: TimeUnit = MILLISECOND;
	bitWidth: int = 32;
	}

	/// Time elapsed from the Unix epoch, 00:00:00.000 on 1 January 1970, excluding
	/// leap seconds, as a 64-bit integer. Note that UNIX time does not include
	/// leap seconds.
	///
	/// The Timestamp metadata supports both "time zone naive" and "time zone
	/// aware" timestamps. Read about the timezone attribute for more detail
	table Timestamp {
	unit: TimeUnit;

	/// The time zone is a string indicating the name of a time zone, one of:
	///
	/// * As used in the Olson time zone database (the "tz database" or
	/// "tzdata"), such as "America/New_York"
	/// * An absolute time zone offset of the form +XX:XX or -XX:XX, such as +07:30
	///
	/// Whether a timezone string is present indicates different semantics about
	/// the data:
	///
	/// * If the time zone is null or equal to an empty string, the data is "time
	/// zone naive" and shall be displayed as is to the user, not localized
	/// to the locale of the user. This data can be though of as UTC but
	/// without having "UTC" as the time zone, it is not considered to be
	/// localized to any time zone
	///
	/// * If the time zone is set to a valid value, values can be displayed as
	/// "localized" to that time zone, even though the underlying 64-bit
	/// integers are identical to the same data stored in UTC. Converting
	/// between time zones is a metadata-only operation and does not change the
	/// underlying values
	timezone: string;
	}

	enum IntervalUnit: short { YEAR_MONTH, DAY_TIME}
	// A "calendar" interval which models types that don't necessarily
	// have a precise duration without the context of a base timestamp (e.g.
	// days can differ in length during day light savings time transitions).
	// YEAR_MONTH - Indicates the number of elapsed whole months, stored as
	// 4-byte integers.
	// DAY_TIME - Indicates the number of elapsed days and milliseconds,
	// stored as 2 contiguous 32-bit integers (8-bytes in total). Support
	// of this IntervalUnit is not required for full arrow compatibility.
	table Interval {
	unit: IntervalUnit;
	}

	// An absolute length of time unrelated to any calendar artifacts.
	//
	// For the purposes of Arrow Implementations, adding this value to a Timestamp
	// ("t1") naively (i.e. simply summing the two number) is acceptable even
	// though in some cases the resulting Timestamp (t2) would not account for
	// leap-seconds during the elapsed time between "t1" and "t2". Similarly,
	// representing the difference between two Unix timestamp is acceptable, but
	// would yield a value that is possibly a few seconds off from the true elapsed
	// time.
	//
	// The resolution defaults to millisecond, but can be any of the other
	// supported TimeUnit values as with Timestamp and Time types. This type is
	// always represented as an 8-byte integer.
	table Duration {
	unit: TimeUnit = MILLISECOND;
	}

	/// ----------------------------------------------------------------------
	/// Top-level Type value, enabling extensible type-specific metadata. We can
	/// add new logical types to Type without breaking backwards compatibility

	union Type {
	Null,
	Int,
	FloatingPoint,
	Binary,
	Utf8,
	Bool,
	Decimal,
	Date,
	Time,
	Timestamp,
	Interval,
	List,
	Struct_,
	Union,
	FixedSizeBinary,
	FixedSizeList,
	Map,
	Duration,
	LargeBinary,
	LargeUtf8,
	LargeList,
	}

	/// ----------------------------------------------------------------------
	/// user defined key value pairs to add custom metadata to arrow
	/// key namespacing is the responsibility of the user

	table KeyValue {
	key: string;
	value: string;
	}

	/// ----------------------------------------------------------------------
	/// Dictionary encoding metadata
	/// Maintained for forwards compatibility, in the future
	/// Dictionaries might be explicit maps between integers and values
	/// allowing for non-contiguous index values
	enum DictionaryKind : short { DenseArray }
	table DictionaryEncoding {
	/// The known dictionary id in the application where this data is used. In
	/// the file or streaming formats, the dictionary ids are found in the
	/// DictionaryBatch messages
	id: long;

	/// The dictionary indices are constrained to be non-negative integers. If
	/// this field is null, the indices must be signed int32. To maximize
	/// cross-language compatibility and performance, implementations are
	/// recommended to prefer signed integer types over unsigned integer types
	/// and to avoid uint64 indices unless they are required by an application.
	indexType: Int;

	/// By default, dictionaries are not ordered, or the order does not have
	/// semantic meaning. In some statistical, applications, dictionary-encoding
	/// is used to represent ordered categorical data, and we provide a way to
	/// preserve that metadata here
	isOrdered: bool;

	dictionaryKind: DictionaryKind;
	}

	/// ----------------------------------------------------------------------
	/// A field represents a named column in a record / row batch or child of a
	/// nested type.

	table Field {
	/// Name is not required, in i.e. a List
	name: string;

	/// Whether or not this field can contain nulls. Should be true in general.
	nullable: bool;

	/// This is the type of the decoded value if the field is dictionary encoded.
	type: Type;

	/// Present only if the field is dictionary encoded.
	dictionary: DictionaryEncoding;

	/// children apply only to nested data types like Struct, List and Union. For
	/// primitive types children will have length 0.
	children: [ Field ];

	/// User-defined metadata
	custom_metadata: [ KeyValue ];
	}

	/// ----------------------------------------------------------------------
	/// Endianness of the platform producing the data

	enum Endianness:short { Little, Big }

	/// ----------------------------------------------------------------------
	/// A Buffer represents a single contiguous memory segment
	struct Buffer {
	/// The relative offset into the shared memory page where the bytes for this
	/// buffer starts
	offset: long;

	/// The absolute length (in bytes) of the memory buffer. The memory is found
	/// from offset (inclusive) to offset + length (non-inclusive). When building
	/// messages using the encapsulated IPC message, padding bytes may be written
	/// after a buffer, but such padding bytes do not need to be accounted for in
	/// the size here.
	length: long;
	}

	/// ----------------------------------------------------------------------
	/// A Schema describes the columns in a row batch

	table Schema {

	/// endianness of the buffer
	/// it is Little Endian by default
	/// if endianness doesn't match the underlying system then the vectors need to be converted
	endianness: Endianness=Little;

	fields: [Field];
	// User-defined metadata
	custom_metadata: [ KeyValue ];

	/// Features used in the stream/file.
	features : [ Feature ];
	}

	root_type Schema;