tests/FlatBuffers.Test.Swift/Sources/SwiftFlatBuffers/fuzzer_generated.swift - RealtimeRoboticsGroup/test - Gitiles

 // automatically generated by the FlatBuffers compiler, do not modify
 // swiftlint:disable all
 // swiftformat:disable all

 import FlatBuffers

 public enum Color: UInt8, Enum, Verifiable {
   public typealias T = UInt8
   public static var byteSize: Int { return MemoryLayout<UInt8>.size }
   public var value: UInt8 { return self.rawValue }
   case red = 1
   ///  \brief color Green
   ///  Green is bit_flag with value (1u << 1)
   case green = 2
   ///  \brief color Blue (1u << 3)
   case blue = 8

   public static var max: Color { return .blue }
   public static var min: Color { return .red }
 }

 extension Color: Encodable {
   public func encode(to encoder: Encoder) throws {
     var container = encoder.singleValueContainer()
     switch self {
     case .red: try container.encode("Red")
     case .green: try container.encode("Green")
     case .blue: try container.encode("Blue")
     }
   }
 }

 public struct Test: NativeStruct, Verifiable, FlatbuffersInitializable {

   static func validateVersion() { FlatBuffersVersion_2_0_0() }

   private var _a: Int16
   private var _b: Int8
   private let padding0__: UInt8 = 0

   public init(_ bb: ByteBuffer, o: Int32) {
     let _accessor = Struct(bb: bb, position: o)
     _a = _accessor.readBuffer(of: Int16.self, at: 0)
     _b = _accessor.readBuffer(of: Int8.self, at: 2)
   }

   public init(a: Int16, b: Int8) {
     _a = a
     _b = b
   }

   public init() {
     _a = 0
     _b = 0
   }

   public var a: Int16 { _a }
   public var b: Int8 { _b }

   public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
     try verifier.inBuffer(position: position, of: Test.self)
   }
 }

 extension Test: Encodable {

   enum CodingKeys: String, CodingKey {
     case a = "a"
     case b = "b"
   }
   public func encode(to encoder: Encoder) throws {
     var container = encoder.container(keyedBy: CodingKeys.self)
     if a != 0 {
       try container.encodeIfPresent(a, forKey: .a)
     }
     if b != 0 {
       try container.encodeIfPresent(b, forKey: .b)
     }
   }
 }

 public struct Test_Mutable: FlatBufferObject {

   static func validateVersion() { FlatBuffersVersion_2_0_0() }
   public var __buffer: ByteBuffer! { return _accessor.bb }
   private var _accessor: Struct

   public init(_ bb: ByteBuffer, o: Int32) { _accessor = Struct(bb: bb, position: o) }

   public var a: Int16 { return _accessor.readBuffer(of: Int16.self, at: 0) }
   public var b: Int8 { return _accessor.readBuffer(of: Int8.self, at: 2) }
 }

 public struct Vec3: NativeStruct, Verifiable, FlatbuffersInitializable {

   static func validateVersion() { FlatBuffersVersion_2_0_0() }

   private var _x: Float32
   private var _y: Float32
   private var _z: Float32
   private let padding0__: UInt32 = 0
   private var _test1: Double
   private var _test2: UInt8
   private let padding1__: UInt8 = 0
   private var _test3: Test
   private let padding2__: UInt16 = 0

   public init(_ bb: ByteBuffer, o: Int32) {
     let _accessor = Struct(bb: bb, position: o)
     _x = _accessor.readBuffer(of: Float32.self, at: 0)
     _y = _accessor.readBuffer(of: Float32.self, at: 4)
     _z = _accessor.readBuffer(of: Float32.self, at: 8)
     _test1 = _accessor.readBuffer(of: Double.self, at: 16)
     _test2 = _accessor.readBuffer(of: UInt8.self, at: 24)
     _test3 = Test(_accessor.bb, o: _accessor.postion + 26)
   }

   public init(x: Float32, y: Float32, z: Float32, test1: Double, test2: Color, test3: Test) {
     _x = x
     _y = y
     _z = z
     _test1 = test1
     _test2 = test2.value
     _test3 = test3
   }

   public init() {
     _x = 0.0
     _y = 0.0
     _z = 0.0
     _test1 = 0.0
     _test2 = 0
     _test3 = Test()
   }

   public var x: Float32 { _x }
   public var y: Float32 { _y }
   public var z: Float32 { _z }
   public var test1: Double { _test1 }
   public var test2: Color { Color(rawValue: _test2)! }
   public var test3: Test { _test3 }

   public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
     try verifier.inBuffer(position: position, of: Vec3.self)
   }
 }

 extension Vec3: Encodable {

   enum CodingKeys: String, CodingKey {
     case x = "x"
     case y = "y"
     case z = "z"
     case test1 = "test1"
     case test2 = "test2"
     case test3 = "test3"
   }
   public func encode(to encoder: Encoder) throws {
     var container = encoder.container(keyedBy: CodingKeys.self)
     if x != 0.0 {
       try container.encodeIfPresent(x, forKey: .x)
     }
     if y != 0.0 {
       try container.encodeIfPresent(y, forKey: .y)
     }
     if z != 0.0 {
       try container.encodeIfPresent(z, forKey: .z)
     }
     if test1 != 0.0 {
       try container.encodeIfPresent(test1, forKey: .test1)
     }
     if test2 != .red {
       try container.encodeIfPresent(test2, forKey: .test2)
     }
     try container.encodeIfPresent(test3, forKey: .test3)
   }
 }

 public struct Vec3_Mutable: FlatBufferObject {

   static func validateVersion() { FlatBuffersVersion_2_0_0() }
   public var __buffer: ByteBuffer! { return _accessor.bb }
   private var _accessor: Struct

   public init(_ bb: ByteBuffer, o: Int32) { _accessor = Struct(bb: bb, position: o) }

   public var x: Float32 { return _accessor.readBuffer(of: Float32.self, at: 0) }
   public var y: Float32 { return _accessor.readBuffer(of: Float32.self, at: 4) }
   public var z: Float32 { return _accessor.readBuffer(of: Float32.self, at: 8) }
   public var test1: Double { return _accessor.readBuffer(of: Double.self, at: 16) }
   public var test2: Color { return Color(rawValue: _accessor.readBuffer(of: UInt8.self, at: 24)) ?? .red }
   public var test3: Test_Mutable { return Test_Mutable(_accessor.bb, o: _accessor.postion + 26) }
 }

 ///  an example documentation comment: "monster object"
 public struct Monster: FlatBufferObject, Verifiable {

   static func validateVersion() { FlatBuffersVersion_2_0_0() }
   public var __buffer: ByteBuffer! { return _accessor.bb }
   private var _accessor: Table

   public static func getRootAsMonster(bb: ByteBuffer) -> Monster { return Monster(Table(bb: bb, position: Int32(bb.read(def: UOffset.self, position: bb.reader)) + Int32(bb.reader))) }

   private init(_ t: Table) { _accessor = t }
   public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }

   private enum VTOFFSET: VOffset {
     case pos = 4
     case mana = 6
     case hp = 8
     case name = 10
     case testarrayoftables = 12
     case inventory = 14
     case color = 16
     var v: Int32 { Int32(self.rawValue) }
     var p: VOffset { self.rawValue }
   }

   public var pos: Vec3? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : _accessor.readBuffer(of: Vec3.self, at: o) }
   public var mutablePos: Vec3_Mutable? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : Vec3_Mutable(_accessor.bb, o: o + _accessor.postion) }
   public var mana: Int16 { let o = _accessor.offset(VTOFFSET.mana.v); return o == 0 ? 150 : _accessor.readBuffer(of: Int16.self, at: o) }
   public var hp: Int16 { let o = _accessor.offset(VTOFFSET.hp.v); return o == 0 ? 100 : _accessor.readBuffer(of: Int16.self, at: o) }
   public var name: String! { let o = _accessor.offset(VTOFFSET.name.v); return _accessor.string(at: o) }
   public var nameSegmentArray: [UInt8]! { return _accessor.getVector(at: VTOFFSET.name.v) }
   public var testarrayoftablesCount: Int32 { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? 0 : _accessor.vector(count: o) }
   public func testarrayoftables(at index: Int32) -> Monster? { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? nil : Monster(_accessor.bb, o: _accessor.indirect(_accessor.vector(at: o) + index * 4)) }
   public func testarrayoftablesBy(key: String) -> Monster? { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? nil : Monster.lookupByKey(vector: _accessor.vector(at: o), key: key, fbb: _accessor.bb) }
   public var inventoryCount: Int32 { let o = _accessor.offset(VTOFFSET.inventory.v); return o == 0 ? 0 : _accessor.vector(count: o) }
   public func inventory(at index: Int32) -> UInt8 { let o = _accessor.offset(VTOFFSET.inventory.v); return o == 0 ? 0 : _accessor.directRead(of: UInt8.self, offset: _accessor.vector(at: o) + index * 1) }
   public var inventory: [UInt8] { return _accessor.getVector(at: VTOFFSET.inventory.v) ?? [] }
   public var color: Color { let o = _accessor.offset(VTOFFSET.color.v); return o == 0 ? .blue : Color(rawValue: _accessor.readBuffer(of: UInt8.self, at: o)) ?? .blue }
   public static func startMonster(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 7) }
   public static func add(pos: Vec3?, _ fbb: inout FlatBufferBuilder) { guard let pos = pos else { return }; fbb.create(struct: pos, position: VTOFFSET.pos.p) }
   public static func add(mana: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: mana, def: 150, at: VTOFFSET.mana.p) }
   public static func add(hp: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: hp, def: 100, at: VTOFFSET.hp.p) }
   public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VTOFFSET.name.p) }
   public static func addVectorOf(testarrayoftables: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: testarrayoftables, at: VTOFFSET.testarrayoftables.p) }
   public static func addVectorOf(inventory: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: inventory, at: VTOFFSET.inventory.p) }
   public static func add(color: Color, _ fbb: inout FlatBufferBuilder) { fbb.add(element: color.rawValue, def: 8, at: VTOFFSET.color.p) }
   public static func endMonster(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); fbb.require(table: end, fields: [10]); return end }
   public static func createMonster(
     _ fbb: inout FlatBufferBuilder,
     pos: Vec3? = nil,
     mana: Int16 = 150,
     hp: Int16 = 100,
     nameOffset name: Offset = Offset(),
     testarrayoftablesVectorOffset testarrayoftables: Offset = Offset(),
     inventoryVectorOffset inventory: Offset = Offset(),
     color: Color = .blue
   ) -> Offset {
     let __start = Monster.startMonster(&fbb)
     Monster.add(pos: pos, &fbb)
     Monster.add(mana: mana, &fbb)
     Monster.add(hp: hp, &fbb)
     Monster.add(name: name, &fbb)
     Monster.addVectorOf(testarrayoftables: testarrayoftables, &fbb)
     Monster.addVectorOf(inventory: inventory, &fbb)
     Monster.add(color: color, &fbb)
     return Monster.endMonster(&fbb, start: __start)
   }
   public static func sortVectorOfMonster(offsets:[Offset], _ fbb: inout FlatBufferBuilder) -> Offset {
     var off = offsets
     off.sort { Table.compare(Table.offset(Int32($1.o), vOffset: 10, fbb: fbb.buffer), Table.offset(Int32($0.o), vOffset: 10, fbb: fbb.buffer), fbb: fbb.buffer) < 0 }
     return fbb.createVector(ofOffsets: off)
   }
   fileprivate static func lookupByKey(vector: Int32, key: String, fbb: ByteBuffer) -> Monster? {
     let key = key.utf8.map { $0 }
     var span = fbb.read(def: Int32.self, position: Int(vector - 4))
     var start: Int32 = 0
     while span != 0 {
       var middle = span / 2
       let tableOffset = Table.indirect(vector + 4 * (start + middle), fbb)
       let comp = Table.compare(Table.offset(Int32(fbb.capacity) - tableOffset, vOffset: 10, fbb: fbb), key, fbb: fbb)
       if comp > 0 {
         span = middle
       } else if comp < 0 {
         middle += 1
         start += middle
         span -= middle
       } else {
         return Monster(fbb, o: tableOffset)
       }
     }
     return nil
   }

   public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
     var _v = try verifier.visitTable(at: position)
     try _v.visit(field: VTOFFSET.pos.p, fieldName: "pos", required: false, type: Vec3.self)
     try _v.visit(field: VTOFFSET.mana.p, fieldName: "mana", required: false, type: Int16.self)
     try _v.visit(field: VTOFFSET.hp.p, fieldName: "hp", required: false, type: Int16.self)
     try _v.visit(field: VTOFFSET.name.p, fieldName: "name", required: true, type: ForwardOffset<String>.self)
     try _v.visit(field: VTOFFSET.testarrayoftables.p, fieldName: "testarrayoftables", required: false, type: ForwardOffset<Vector<ForwardOffset<Monster>, Monster>>.self)
     try _v.visit(field: VTOFFSET.inventory.p, fieldName: "inventory", required: false, type: ForwardOffset<Vector<UInt8, UInt8>>.self)
     try _v.visit(field: VTOFFSET.color.p, fieldName: "color", required: false, type: Color.self)
     _v.finish()
   }
 }

 extension Monster: Encodable {

   enum CodingKeys: String, CodingKey {
     case pos = "pos"
     case mana = "mana"
     case hp = "hp"
     case name = "name"
     case testarrayoftables = "testarrayoftables"
     case inventory = "inventory"
     case color = "color"
   }
   public func encode(to encoder: Encoder) throws {
     var container = encoder.container(keyedBy: CodingKeys.self)
     try container.encodeIfPresent(pos, forKey: .pos)
     if mana != 150 {
       try container.encodeIfPresent(mana, forKey: .mana)
     }
     if hp != 100 {
       try container.encodeIfPresent(hp, forKey: .hp)
     }
     try container.encodeIfPresent(name, forKey: .name)
     if testarrayoftablesCount > 0 {
       var contentEncoder = container.nestedUnkeyedContainer(forKey: .testarrayoftables)
       for index in 0..<testarrayoftablesCount {
         guard let type = testarrayoftables(at: index) else { continue }
         try contentEncoder.encode(type)
       }
     }
     if inventoryCount > 0 {
       try container.encodeIfPresent(inventory, forKey: .inventory)
     }
     if color != .blue {
       try container.encodeIfPresent(color, forKey: .color)
     }
   }
 }
	// automatically generated by the FlatBuffers compiler, do not modify
	// swiftlint:disable all
	// swiftformat:disable all

	import FlatBuffers

	public enum Color: UInt8, Enum, Verifiable {
	public typealias T = UInt8
	public static var byteSize: Int { return MemoryLayout<UInt8>.size }
	public var value: UInt8 { return self.rawValue }
	case red = 1
	/// \brief color Green
	/// Green is bit_flag with value (1u << 1)
	case green = 2
	/// \brief color Blue (1u << 3)
	case blue = 8

	public static var max: Color { return .blue }
	public static var min: Color { return .red }
	}

	extension Color: Encodable {
	public func encode(to encoder: Encoder) throws {
	var container = encoder.singleValueContainer()
	switch self {
	case .red: try container.encode("Red")
	case .green: try container.encode("Green")
	case .blue: try container.encode("Blue")
	}
	}
	}

	public struct Test: NativeStruct, Verifiable, FlatbuffersInitializable {

	static func validateVersion() { FlatBuffersVersion_2_0_0() }

	private var _a: Int16
	private var _b: Int8
	private let padding0__: UInt8 = 0

	public init(_ bb: ByteBuffer, o: Int32) {
	let _accessor = Struct(bb: bb, position: o)
	_a = _accessor.readBuffer(of: Int16.self, at: 0)
	_b = _accessor.readBuffer(of: Int8.self, at: 2)
	}

	public init(a: Int16, b: Int8) {
	_a = a
	_b = b
	}

	public init() {
	_a = 0
	_b = 0
	}

	public var a: Int16 { _a }
	public var b: Int8 { _b }

	public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
	try verifier.inBuffer(position: position, of: Test.self)
	}
	}

	extension Test: Encodable {

	enum CodingKeys: String, CodingKey {
	case a = "a"
	case b = "b"
	}
	public func encode(to encoder: Encoder) throws {
	var container = encoder.container(keyedBy: CodingKeys.self)
	if a != 0 {
	try container.encodeIfPresent(a, forKey: .a)
	}
	if b != 0 {
	try container.encodeIfPresent(b, forKey: .b)
	}
	}
	}

	public struct Test_Mutable: FlatBufferObject {

	static func validateVersion() { FlatBuffersVersion_2_0_0() }
	public var __buffer: ByteBuffer! { return _accessor.bb }
	private var _accessor: Struct

	public init(_ bb: ByteBuffer, o: Int32) { _accessor = Struct(bb: bb, position: o) }

	public var a: Int16 { return _accessor.readBuffer(of: Int16.self, at: 0) }
	public var b: Int8 { return _accessor.readBuffer(of: Int8.self, at: 2) }
	}

	public struct Vec3: NativeStruct, Verifiable, FlatbuffersInitializable {

	static func validateVersion() { FlatBuffersVersion_2_0_0() }

	private var _x: Float32
	private var _y: Float32
	private var _z: Float32
	private let padding0__: UInt32 = 0
	private var _test1: Double
	private var _test2: UInt8
	private let padding1__: UInt8 = 0
	private var _test3: Test
	private let padding2__: UInt16 = 0

	public init(_ bb: ByteBuffer, o: Int32) {
	let _accessor = Struct(bb: bb, position: o)
	_x = _accessor.readBuffer(of: Float32.self, at: 0)
	_y = _accessor.readBuffer(of: Float32.self, at: 4)
	_z = _accessor.readBuffer(of: Float32.self, at: 8)
	_test1 = _accessor.readBuffer(of: Double.self, at: 16)
	_test2 = _accessor.readBuffer(of: UInt8.self, at: 24)
	_test3 = Test(_accessor.bb, o: _accessor.postion + 26)
	}

	public init(x: Float32, y: Float32, z: Float32, test1: Double, test2: Color, test3: Test) {
	_x = x
	_y = y
	_z = z
	_test1 = test1
	_test2 = test2.value
	_test3 = test3
	}

	public init() {
	_x = 0.0
	_y = 0.0
	_z = 0.0
	_test1 = 0.0
	_test2 = 0
	_test3 = Test()
	}

	public var x: Float32 { _x }
	public var y: Float32 { _y }
	public var z: Float32 { _z }
	public var test1: Double { _test1 }
	public var test2: Color { Color(rawValue: _test2)! }
	public var test3: Test { _test3 }

	public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
	try verifier.inBuffer(position: position, of: Vec3.self)
	}
	}

	extension Vec3: Encodable {

	enum CodingKeys: String, CodingKey {
	case x = "x"
	case y = "y"
	case z = "z"
	case test1 = "test1"
	case test2 = "test2"
	case test3 = "test3"
	}
	public func encode(to encoder: Encoder) throws {
	var container = encoder.container(keyedBy: CodingKeys.self)
	if x != 0.0 {
	try container.encodeIfPresent(x, forKey: .x)
	}
	if y != 0.0 {
	try container.encodeIfPresent(y, forKey: .y)
	}
	if z != 0.0 {
	try container.encodeIfPresent(z, forKey: .z)
	}
	if test1 != 0.0 {
	try container.encodeIfPresent(test1, forKey: .test1)
	}
	if test2 != .red {
	try container.encodeIfPresent(test2, forKey: .test2)
	}
	try container.encodeIfPresent(test3, forKey: .test3)
	}
	}

	public struct Vec3_Mutable: FlatBufferObject {

	static func validateVersion() { FlatBuffersVersion_2_0_0() }
	public var __buffer: ByteBuffer! { return _accessor.bb }
	private var _accessor: Struct

	public init(_ bb: ByteBuffer, o: Int32) { _accessor = Struct(bb: bb, position: o) }

	public var x: Float32 { return _accessor.readBuffer(of: Float32.self, at: 0) }
	public var y: Float32 { return _accessor.readBuffer(of: Float32.self, at: 4) }
	public var z: Float32 { return _accessor.readBuffer(of: Float32.self, at: 8) }
	public var test1: Double { return _accessor.readBuffer(of: Double.self, at: 16) }
	public var test2: Color { return Color(rawValue: _accessor.readBuffer(of: UInt8.self, at: 24)) ?? .red }
	public var test3: Test_Mutable { return Test_Mutable(_accessor.bb, o: _accessor.postion + 26) }
	}

	/// an example documentation comment: "monster object"
	public struct Monster: FlatBufferObject, Verifiable {

	static func validateVersion() { FlatBuffersVersion_2_0_0() }
	public var __buffer: ByteBuffer! { return _accessor.bb }
	private var _accessor: Table

	public static func getRootAsMonster(bb: ByteBuffer) -> Monster { return Monster(Table(bb: bb, position: Int32(bb.read(def: UOffset.self, position: bb.reader)) + Int32(bb.reader))) }

	private init(_ t: Table) { _accessor = t }
	public init(_ bb: ByteBuffer, o: Int32) { _accessor = Table(bb: bb, position: o) }

	private enum VTOFFSET: VOffset {
	case pos = 4
	case mana = 6
	case hp = 8
	case name = 10
	case testarrayoftables = 12
	case inventory = 14
	case color = 16
	var v: Int32 { Int32(self.rawValue) }
	var p: VOffset { self.rawValue }
	}

	public var pos: Vec3? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : _accessor.readBuffer(of: Vec3.self, at: o) }
	public var mutablePos: Vec3_Mutable? { let o = _accessor.offset(VTOFFSET.pos.v); return o == 0 ? nil : Vec3_Mutable(_accessor.bb, o: o + _accessor.postion) }
	public var mana: Int16 { let o = _accessor.offset(VTOFFSET.mana.v); return o == 0 ? 150 : _accessor.readBuffer(of: Int16.self, at: o) }
	public var hp: Int16 { let o = _accessor.offset(VTOFFSET.hp.v); return o == 0 ? 100 : _accessor.readBuffer(of: Int16.self, at: o) }
	public var name: String! { let o = _accessor.offset(VTOFFSET.name.v); return _accessor.string(at: o) }
	public var nameSegmentArray: [UInt8]! { return _accessor.getVector(at: VTOFFSET.name.v) }
	public var testarrayoftablesCount: Int32 { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? 0 : _accessor.vector(count: o) }
	public func testarrayoftables(at index: Int32) -> Monster? { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? nil : Monster(_accessor.bb, o: _accessor.indirect(_accessor.vector(at: o) + index * 4)) }
	public func testarrayoftablesBy(key: String) -> Monster? { let o = _accessor.offset(VTOFFSET.testarrayoftables.v); return o == 0 ? nil : Monster.lookupByKey(vector: _accessor.vector(at: o), key: key, fbb: _accessor.bb) }
	public var inventoryCount: Int32 { let o = _accessor.offset(VTOFFSET.inventory.v); return o == 0 ? 0 : _accessor.vector(count: o) }
	public func inventory(at index: Int32) -> UInt8 { let o = _accessor.offset(VTOFFSET.inventory.v); return o == 0 ? 0 : _accessor.directRead(of: UInt8.self, offset: _accessor.vector(at: o) + index * 1) }
	public var inventory: [UInt8] { return _accessor.getVector(at: VTOFFSET.inventory.v) ?? [] }
	public var color: Color { let o = _accessor.offset(VTOFFSET.color.v); return o == 0 ? .blue : Color(rawValue: _accessor.readBuffer(of: UInt8.self, at: o)) ?? .blue }
	public static func startMonster(_ fbb: inout FlatBufferBuilder) -> UOffset { fbb.startTable(with: 7) }
	public static func add(pos: Vec3?, _ fbb: inout FlatBufferBuilder) { guard let pos = pos else { return }; fbb.create(struct: pos, position: VTOFFSET.pos.p) }
	public static func add(mana: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: mana, def: 150, at: VTOFFSET.mana.p) }
	public static func add(hp: Int16, _ fbb: inout FlatBufferBuilder) { fbb.add(element: hp, def: 100, at: VTOFFSET.hp.p) }
	public static func add(name: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: name, at: VTOFFSET.name.p) }
	public static func addVectorOf(testarrayoftables: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: testarrayoftables, at: VTOFFSET.testarrayoftables.p) }
	public static func addVectorOf(inventory: Offset, _ fbb: inout FlatBufferBuilder) { fbb.add(offset: inventory, at: VTOFFSET.inventory.p) }
	public static func add(color: Color, _ fbb: inout FlatBufferBuilder) { fbb.add(element: color.rawValue, def: 8, at: VTOFFSET.color.p) }
	public static func endMonster(_ fbb: inout FlatBufferBuilder, start: UOffset) -> Offset { let end = Offset(offset: fbb.endTable(at: start)); fbb.require(table: end, fields: [10]); return end }
	public static func createMonster(
	_ fbb: inout FlatBufferBuilder,
	pos: Vec3? = nil,
	mana: Int16 = 150,
	hp: Int16 = 100,
	nameOffset name: Offset = Offset(),
	testarrayoftablesVectorOffset testarrayoftables: Offset = Offset(),
	inventoryVectorOffset inventory: Offset = Offset(),
	color: Color = .blue
	) -> Offset {
	let __start = Monster.startMonster(&fbb)
	Monster.add(pos: pos, &fbb)
	Monster.add(mana: mana, &fbb)
	Monster.add(hp: hp, &fbb)
	Monster.add(name: name, &fbb)
	Monster.addVectorOf(testarrayoftables: testarrayoftables, &fbb)
	Monster.addVectorOf(inventory: inventory, &fbb)
	Monster.add(color: color, &fbb)
	return Monster.endMonster(&fbb, start: __start)
	}
	public static func sortVectorOfMonster(offsets:[Offset], _ fbb: inout FlatBufferBuilder) -> Offset {
	var off = offsets
	off.sort { Table.compare(Table.offset(Int32($1.o), vOffset: 10, fbb: fbb.buffer), Table.offset(Int32($0.o), vOffset: 10, fbb: fbb.buffer), fbb: fbb.buffer) < 0 }
	return fbb.createVector(ofOffsets: off)
	}
	fileprivate static func lookupByKey(vector: Int32, key: String, fbb: ByteBuffer) -> Monster? {
	let key = key.utf8.map { $0 }
	var span = fbb.read(def: Int32.self, position: Int(vector - 4))
	var start: Int32 = 0
	while span != 0 {
	var middle = span / 2
	let tableOffset = Table.indirect(vector + 4 * (start + middle), fbb)
	let comp = Table.compare(Table.offset(Int32(fbb.capacity) - tableOffset, vOffset: 10, fbb: fbb), key, fbb: fbb)
	if comp > 0 {
	span = middle
	} else if comp < 0 {
	middle += 1
	start += middle
	span -= middle
	} else {
	return Monster(fbb, o: tableOffset)
	}
	}
	return nil
	}

	public static func verify<T>(_ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable {
	var _v = try verifier.visitTable(at: position)
	try _v.visit(field: VTOFFSET.pos.p, fieldName: "pos", required: false, type: Vec3.self)
	try _v.visit(field: VTOFFSET.mana.p, fieldName: "mana", required: false, type: Int16.self)
	try _v.visit(field: VTOFFSET.hp.p, fieldName: "hp", required: false, type: Int16.self)
	try _v.visit(field: VTOFFSET.name.p, fieldName: "name", required: true, type: ForwardOffset<String>.self)
	try _v.visit(field: VTOFFSET.testarrayoftables.p, fieldName: "testarrayoftables", required: false, type: ForwardOffset<Vector<ForwardOffset<Monster>, Monster>>.self)
	try _v.visit(field: VTOFFSET.inventory.p, fieldName: "inventory", required: false, type: ForwardOffset<Vector<UInt8, UInt8>>.self)
	try _v.visit(field: VTOFFSET.color.p, fieldName: "color", required: false, type: Color.self)
	_v.finish()
	}
	}

	extension Monster: Encodable {

	enum CodingKeys: String, CodingKey {
	case pos = "pos"
	case mana = "mana"
	case hp = "hp"
	case name = "name"
	case testarrayoftables = "testarrayoftables"
	case inventory = "inventory"
	case color = "color"
	}
	public func encode(to encoder: Encoder) throws {
	var container = encoder.container(keyedBy: CodingKeys.self)
	try container.encodeIfPresent(pos, forKey: .pos)
	if mana != 150 {
	try container.encodeIfPresent(mana, forKey: .mana)
	}
	if hp != 100 {
	try container.encodeIfPresent(hp, forKey: .hp)
	}
	try container.encodeIfPresent(name, forKey: .name)
	if testarrayoftablesCount > 0 {
	var contentEncoder = container.nestedUnkeyedContainer(forKey: .testarrayoftables)
	for index in 0..<testarrayoftablesCount {
	guard let type = testarrayoftables(at: index) else { continue }
	try contentEncoder.encode(type)
	}
	}
	if inventoryCount > 0 {
	try container.encodeIfPresent(inventory, forKey: .inventory)
	}
	if color != .blue {
	try container.encodeIfPresent(color, forKey: .color)
	}
	}
	}