// @ts-nocheck /* eslint-disable */ /** * Generated by the protoc-gen-ts. DO NOT EDIT! * compiler version: 3.14.0 * source: google/protobuf/descriptor.proto * git: https://github.com/thesayyn/protoc-gen-ts */ import * as pb_1 from "google-protobuf"; export namespace google.protobuf { export class FileDescriptorSet extends pb_1.Message { constructor(data?: any[] | { file: FileDescriptorProto[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], []); if (!Array.isArray(data) && typeof data == "object") { this.file = data.file; } } get file() { return pb_1.Message.getRepeatedWrapperField(this, FileDescriptorProto, 1) as FileDescriptorProto[]; } set file(value: FileDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 1, value); } static fromObject(data: { file: ReturnType[]; }) { const message = new FileDescriptorSet({ file: data.file.map(item => FileDescriptorProto.fromObject(item)) }); return message; } toObject() { const data: { file: ReturnType[]; } = { file: this.file.map((item: FileDescriptorProto) => item.toObject()) }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.file !== undefined) writer.writeRepeatedMessage(1, this.file, (item: FileDescriptorProto) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): FileDescriptorSet { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new FileDescriptorSet(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: reader.readMessage(message.file, () => pb_1.Message.addToRepeatedWrapperField(message, 1, FileDescriptorProto.deserialize(reader), FileDescriptorProto)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): FileDescriptorSet { return FileDescriptorSet.deserialize(bytes); } } export class FileDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; package?: string; dependency: string[]; public_dependency: number[]; weak_dependency: number[]; message_type: DescriptorProto[]; enum_type: EnumDescriptorProto[]; service: ServiceDescriptorProto[]; extension: FieldDescriptorProto[]; options?: FileOptions; source_code_info?: SourceCodeInfo; syntax?: string; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [3, 10, 11, 4, 5, 6, 7], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } if ("package" in data && data.package != undefined) { this.package = data.package; } this.dependency = data.dependency; this.public_dependency = data.public_dependency; this.weak_dependency = data.weak_dependency; this.message_type = data.message_type; this.enum_type = data.enum_type; this.service = data.service; this.extension = data.extension; if ("options" in data && data.options != undefined) { this.options = data.options; } if ("source_code_info" in data && data.source_code_info != undefined) { this.source_code_info = data.source_code_info; } if ("syntax" in data && data.syntax != undefined) { this.syntax = data.syntax; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get package() { return pb_1.Message.getField(this, 2) as string; } set package(value: string) { pb_1.Message.setField(this, 2, value); } get dependency() { return pb_1.Message.getField(this, 3) as string[]; } set dependency(value: string[]) { pb_1.Message.setField(this, 3, value); } get public_dependency() { return pb_1.Message.getField(this, 10) as number[]; } set public_dependency(value: number[]) { pb_1.Message.setField(this, 10, value); } get weak_dependency() { return pb_1.Message.getField(this, 11) as number[]; } set weak_dependency(value: number[]) { pb_1.Message.setField(this, 11, value); } get message_type() { return pb_1.Message.getRepeatedWrapperField(this, DescriptorProto, 4) as DescriptorProto[]; } set message_type(value: DescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 4, value); } get enum_type() { return pb_1.Message.getRepeatedWrapperField(this, EnumDescriptorProto, 5) as EnumDescriptorProto[]; } set enum_type(value: EnumDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 5, value); } get service() { return pb_1.Message.getRepeatedWrapperField(this, ServiceDescriptorProto, 6) as ServiceDescriptorProto[]; } set service(value: ServiceDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 6, value); } get extension() { return pb_1.Message.getRepeatedWrapperField(this, FieldDescriptorProto, 7) as FieldDescriptorProto[]; } set extension(value: FieldDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 7, value); } get options() { return pb_1.Message.getWrapperField(this, FileOptions, 8) as FileOptions; } set options(value: FileOptions) { pb_1.Message.setWrapperField(this, 8, value); } get source_code_info() { return pb_1.Message.getWrapperField(this, SourceCodeInfo, 9) as SourceCodeInfo; } set source_code_info(value: SourceCodeInfo) { pb_1.Message.setWrapperField(this, 9, value); } get syntax() { return pb_1.Message.getField(this, 12) as string; } set syntax(value: string) { pb_1.Message.setField(this, 12, value); } static fromObject(data: { name?: string; package?: string; dependency: string[]; public_dependency: number[]; weak_dependency: number[]; message_type: ReturnType[]; enum_type: ReturnType[]; service: ReturnType[]; extension: ReturnType[]; options?: ReturnType; source_code_info?: ReturnType; syntax?: string; }) { const message = new FileDescriptorProto({ dependency: data.dependency, public_dependency: data.public_dependency, weak_dependency: data.weak_dependency, message_type: data.message_type.map(item => DescriptorProto.fromObject(item)), enum_type: data.enum_type.map(item => EnumDescriptorProto.fromObject(item)), service: data.service.map(item => ServiceDescriptorProto.fromObject(item)), extension: data.extension.map(item => FieldDescriptorProto.fromObject(item)) }); if (data.name != null) { message.name = data.name; } if (data.package != null) { message.package = data.package; } if (data.options != null) { message.options = FileOptions.fromObject(data.options); } if (data.source_code_info != null) { message.source_code_info = SourceCodeInfo.fromObject(data.source_code_info); } if (data.syntax != null) { message.syntax = data.syntax; } return message; } toObject() { const data: { name?: string; package?: string; dependency: string[]; public_dependency: number[]; weak_dependency: number[]; message_type: ReturnType[]; enum_type: ReturnType[]; service: ReturnType[]; extension: ReturnType[]; options?: ReturnType; source_code_info?: ReturnType; syntax?: string; } = { dependency: this.dependency, public_dependency: this.public_dependency, weak_dependency: this.weak_dependency, message_type: this.message_type.map((item: DescriptorProto) => item.toObject()), enum_type: this.enum_type.map((item: EnumDescriptorProto) => item.toObject()), service: this.service.map((item: ServiceDescriptorProto) => item.toObject()), extension: this.extension.map((item: FieldDescriptorProto) => item.toObject()) }; if (this.name != null) { data.name = this.name; } if (this.package != null) { data.package = this.package; } if (this.options != null) { data.options = this.options.toObject(); } if (this.source_code_info != null) { data.source_code_info = this.source_code_info.toObject(); } if (this.syntax != null) { data.syntax = this.syntax; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (typeof this.package === "string" && this.package.length) writer.writeString(2, this.package); if (this.dependency !== undefined) writer.writeRepeatedString(3, this.dependency); if (this.public_dependency !== undefined) writer.writeRepeatedInt32(10, this.public_dependency); if (this.weak_dependency !== undefined) writer.writeRepeatedInt32(11, this.weak_dependency); if (this.message_type !== undefined) writer.writeRepeatedMessage(4, this.message_type, (item: DescriptorProto) => item.serialize(writer)); if (this.enum_type !== undefined) writer.writeRepeatedMessage(5, this.enum_type, (item: EnumDescriptorProto) => item.serialize(writer)); if (this.service !== undefined) writer.writeRepeatedMessage(6, this.service, (item: ServiceDescriptorProto) => item.serialize(writer)); if (this.extension !== undefined) writer.writeRepeatedMessage(7, this.extension, (item: FieldDescriptorProto) => item.serialize(writer)); if (this.options !== undefined) writer.writeMessage(8, this.options, () => this.options.serialize(writer)); if (this.source_code_info !== undefined) writer.writeMessage(9, this.source_code_info, () => this.source_code_info.serialize(writer)); if (typeof this.syntax === "string" && this.syntax.length) writer.writeString(12, this.syntax); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): FileDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new FileDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: message.package = reader.readString(); break; case 3: pb_1.Message.addToRepeatedField(message, 3, reader.readString()); break; case 10: pb_1.Message.addToRepeatedField(message, 10, reader.readInt32()); break; case 11: pb_1.Message.addToRepeatedField(message, 11, reader.readInt32()); break; case 4: reader.readMessage(message.message_type, () => pb_1.Message.addToRepeatedWrapperField(message, 4, DescriptorProto.deserialize(reader), DescriptorProto)); break; case 5: reader.readMessage(message.enum_type, () => pb_1.Message.addToRepeatedWrapperField(message, 5, EnumDescriptorProto.deserialize(reader), EnumDescriptorProto)); break; case 6: reader.readMessage(message.service, () => pb_1.Message.addToRepeatedWrapperField(message, 6, ServiceDescriptorProto.deserialize(reader), ServiceDescriptorProto)); break; case 7: reader.readMessage(message.extension, () => pb_1.Message.addToRepeatedWrapperField(message, 7, FieldDescriptorProto.deserialize(reader), FieldDescriptorProto)); break; case 8: reader.readMessage(message.options, () => message.options = FileOptions.deserialize(reader)); break; case 9: reader.readMessage(message.source_code_info, () => message.source_code_info = SourceCodeInfo.deserialize(reader)); break; case 12: message.syntax = reader.readString(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): FileDescriptorProto { return FileDescriptorProto.deserialize(bytes); } } export class DescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; field: FieldDescriptorProto[]; extension: FieldDescriptorProto[]; nested_type: DescriptorProto[]; enum_type: EnumDescriptorProto[]; extension_range: DescriptorProto.ExtensionRange[]; oneof_decl: OneofDescriptorProto[]; options?: MessageOptions; reserved_range: DescriptorProto.ReservedRange[]; reserved_name: string[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [2, 6, 3, 4, 5, 8, 9, 10], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } this.field = data.field; this.extension = data.extension; this.nested_type = data.nested_type; this.enum_type = data.enum_type; this.extension_range = data.extension_range; this.oneof_decl = data.oneof_decl; if ("options" in data && data.options != undefined) { this.options = data.options; } this.reserved_range = data.reserved_range; this.reserved_name = data.reserved_name; } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get field() { return pb_1.Message.getRepeatedWrapperField(this, FieldDescriptorProto, 2) as FieldDescriptorProto[]; } set field(value: FieldDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 2, value); } get extension() { return pb_1.Message.getRepeatedWrapperField(this, FieldDescriptorProto, 6) as FieldDescriptorProto[]; } set extension(value: FieldDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 6, value); } get nested_type() { return pb_1.Message.getRepeatedWrapperField(this, DescriptorProto, 3) as DescriptorProto[]; } set nested_type(value: DescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 3, value); } get enum_type() { return pb_1.Message.getRepeatedWrapperField(this, EnumDescriptorProto, 4) as EnumDescriptorProto[]; } set enum_type(value: EnumDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 4, value); } get extension_range() { return pb_1.Message.getRepeatedWrapperField(this, DescriptorProto.ExtensionRange, 5) as DescriptorProto.ExtensionRange[]; } set extension_range(value: DescriptorProto.ExtensionRange[]) { pb_1.Message.setRepeatedWrapperField(this, 5, value); } get oneof_decl() { return pb_1.Message.getRepeatedWrapperField(this, OneofDescriptorProto, 8) as OneofDescriptorProto[]; } set oneof_decl(value: OneofDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 8, value); } get options() { return pb_1.Message.getWrapperField(this, MessageOptions, 7) as MessageOptions; } set options(value: MessageOptions) { pb_1.Message.setWrapperField(this, 7, value); } get reserved_range() { return pb_1.Message.getRepeatedWrapperField(this, DescriptorProto.ReservedRange, 9) as DescriptorProto.ReservedRange[]; } set reserved_range(value: DescriptorProto.ReservedRange[]) { pb_1.Message.setRepeatedWrapperField(this, 9, value); } get reserved_name() { return pb_1.Message.getField(this, 10) as string[]; } set reserved_name(value: string[]) { pb_1.Message.setField(this, 10, value); } static fromObject(data: { name?: string; field: ReturnType[]; extension: ReturnType[]; nested_type: ReturnType[]; enum_type: ReturnType[]; extension_range: ReturnType[]; oneof_decl: ReturnType[]; options?: ReturnType; reserved_range: ReturnType[]; reserved_name: string[]; }) { const message = new DescriptorProto({ field: data.field.map(item => FieldDescriptorProto.fromObject(item)), extension: data.extension.map(item => FieldDescriptorProto.fromObject(item)), nested_type: data.nested_type.map(item => DescriptorProto.fromObject(item)), enum_type: data.enum_type.map(item => EnumDescriptorProto.fromObject(item)), extension_range: data.extension_range.map(item => DescriptorProto.ExtensionRange.fromObject(item)), oneof_decl: data.oneof_decl.map(item => OneofDescriptorProto.fromObject(item)), reserved_range: data.reserved_range.map(item => DescriptorProto.ReservedRange.fromObject(item)), reserved_name: data.reserved_name }); if (data.name != null) { message.name = data.name; } if (data.options != null) { message.options = MessageOptions.fromObject(data.options); } return message; } toObject() { const data: { name?: string; field: ReturnType[]; extension: ReturnType[]; nested_type: ReturnType[]; enum_type: ReturnType[]; extension_range: ReturnType[]; oneof_decl: ReturnType[]; options?: ReturnType; reserved_range: ReturnType[]; reserved_name: string[]; } = { field: this.field.map((item: FieldDescriptorProto) => item.toObject()), extension: this.extension.map((item: FieldDescriptorProto) => item.toObject()), nested_type: this.nested_type.map((item: DescriptorProto) => item.toObject()), enum_type: this.enum_type.map((item: EnumDescriptorProto) => item.toObject()), extension_range: this.extension_range.map((item: DescriptorProto.ExtensionRange) => item.toObject()), oneof_decl: this.oneof_decl.map((item: OneofDescriptorProto) => item.toObject()), reserved_range: this.reserved_range.map((item: DescriptorProto.ReservedRange) => item.toObject()), reserved_name: this.reserved_name }; if (this.name != null) { data.name = this.name; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.field !== undefined) writer.writeRepeatedMessage(2, this.field, (item: FieldDescriptorProto) => item.serialize(writer)); if (this.extension !== undefined) writer.writeRepeatedMessage(6, this.extension, (item: FieldDescriptorProto) => item.serialize(writer)); if (this.nested_type !== undefined) writer.writeRepeatedMessage(3, this.nested_type, (item: DescriptorProto) => item.serialize(writer)); if (this.enum_type !== undefined) writer.writeRepeatedMessage(4, this.enum_type, (item: EnumDescriptorProto) => item.serialize(writer)); if (this.extension_range !== undefined) writer.writeRepeatedMessage(5, this.extension_range, (item: DescriptorProto.ExtensionRange) => item.serialize(writer)); if (this.oneof_decl !== undefined) writer.writeRepeatedMessage(8, this.oneof_decl, (item: OneofDescriptorProto) => item.serialize(writer)); if (this.options !== undefined) writer.writeMessage(7, this.options, () => this.options.serialize(writer)); if (this.reserved_range !== undefined) writer.writeRepeatedMessage(9, this.reserved_range, (item: DescriptorProto.ReservedRange) => item.serialize(writer)); if (this.reserved_name !== undefined) writer.writeRepeatedString(10, this.reserved_name); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): DescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new DescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: reader.readMessage(message.field, () => pb_1.Message.addToRepeatedWrapperField(message, 2, FieldDescriptorProto.deserialize(reader), FieldDescriptorProto)); break; case 6: reader.readMessage(message.extension, () => pb_1.Message.addToRepeatedWrapperField(message, 6, FieldDescriptorProto.deserialize(reader), FieldDescriptorProto)); break; case 3: reader.readMessage(message.nested_type, () => pb_1.Message.addToRepeatedWrapperField(message, 3, DescriptorProto.deserialize(reader), DescriptorProto)); break; case 4: reader.readMessage(message.enum_type, () => pb_1.Message.addToRepeatedWrapperField(message, 4, EnumDescriptorProto.deserialize(reader), EnumDescriptorProto)); break; case 5: reader.readMessage(message.extension_range, () => pb_1.Message.addToRepeatedWrapperField(message, 5, DescriptorProto.ExtensionRange.deserialize(reader), DescriptorProto.ExtensionRange)); break; case 8: reader.readMessage(message.oneof_decl, () => pb_1.Message.addToRepeatedWrapperField(message, 8, OneofDescriptorProto.deserialize(reader), OneofDescriptorProto)); break; case 7: reader.readMessage(message.options, () => message.options = MessageOptions.deserialize(reader)); break; case 9: reader.readMessage(message.reserved_range, () => pb_1.Message.addToRepeatedWrapperField(message, 9, DescriptorProto.ReservedRange.deserialize(reader), DescriptorProto.ReservedRange)); break; case 10: pb_1.Message.addToRepeatedField(message, 10, reader.readString()); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): DescriptorProto { return DescriptorProto.deserialize(bytes); } } export namespace DescriptorProto { export class ExtensionRange extends pb_1.Message { constructor(data?: any[] | { start?: number; end?: number; options?: ExtensionRangeOptions; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("start" in data && data.start != undefined) { this.start = data.start; } if ("end" in data && data.end != undefined) { this.end = data.end; } if ("options" in data && data.options != undefined) { this.options = data.options; } } } get start() { return pb_1.Message.getField(this, 1) as number; } set start(value: number) { pb_1.Message.setField(this, 1, value); } get end() { return pb_1.Message.getField(this, 2) as number; } set end(value: number) { pb_1.Message.setField(this, 2, value); } get options() { return pb_1.Message.getWrapperField(this, ExtensionRangeOptions, 3) as ExtensionRangeOptions; } set options(value: ExtensionRangeOptions) { pb_1.Message.setWrapperField(this, 3, value); } static fromObject(data: { start?: number; end?: number; options?: ReturnType; }) { const message = new ExtensionRange({}); if (data.start != null) { message.start = data.start; } if (data.end != null) { message.end = data.end; } if (data.options != null) { message.options = ExtensionRangeOptions.fromObject(data.options); } return message; } toObject() { const data: { start?: number; end?: number; options?: ReturnType; } = {}; if (this.start != null) { data.start = this.start; } if (this.end != null) { data.end = this.end; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.start !== undefined) writer.writeInt32(1, this.start); if (this.end !== undefined) writer.writeInt32(2, this.end); if (this.options !== undefined) writer.writeMessage(3, this.options, () => this.options.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ExtensionRange { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ExtensionRange(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.start = reader.readInt32(); break; case 2: message.end = reader.readInt32(); break; case 3: reader.readMessage(message.options, () => message.options = ExtensionRangeOptions.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ExtensionRange { return ExtensionRange.deserialize(bytes); } } export class ReservedRange extends pb_1.Message { constructor(data?: any[] | { start?: number; end?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("start" in data && data.start != undefined) { this.start = data.start; } if ("end" in data && data.end != undefined) { this.end = data.end; } } } get start() { return pb_1.Message.getField(this, 1) as number; } set start(value: number) { pb_1.Message.setField(this, 1, value); } get end() { return pb_1.Message.getField(this, 2) as number; } set end(value: number) { pb_1.Message.setField(this, 2, value); } static fromObject(data: { start?: number; end?: number; }) { const message = new ReservedRange({}); if (data.start != null) { message.start = data.start; } if (data.end != null) { message.end = data.end; } return message; } toObject() { const data: { start?: number; end?: number; } = {}; if (this.start != null) { data.start = this.start; } if (this.end != null) { data.end = this.end; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.start !== undefined) writer.writeInt32(1, this.start); if (this.end !== undefined) writer.writeInt32(2, this.end); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ReservedRange { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ReservedRange(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.start = reader.readInt32(); break; case 2: message.end = reader.readInt32(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ReservedRange { return ReservedRange.deserialize(bytes); } } } export class ExtensionRangeOptions extends pb_1.Message { constructor(data?: any[] | { uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { this.uninterpreted_option = data.uninterpreted_option; } } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { uninterpreted_option: ReturnType[]; }) { const message = new ExtensionRangeOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); return message; } toObject() { const data: { uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ExtensionRangeOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ExtensionRangeOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ExtensionRangeOptions { return ExtensionRangeOptions.deserialize(bytes); } } export class FieldDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; number?: number; label?: FieldDescriptorProto.Label; type?: FieldDescriptorProto.Type; type_name?: string; extendee?: string; default_value?: string; oneof_index?: number; json_name?: string; options?: FieldOptions; proto3_optional?: boolean; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } if ("number" in data && data.number != undefined) { this.number = data.number; } if ("label" in data && data.label != undefined) { this.label = data.label; } if ("type" in data && data.type != undefined) { this.type = data.type; } if ("type_name" in data && data.type_name != undefined) { this.type_name = data.type_name; } if ("extendee" in data && data.extendee != undefined) { this.extendee = data.extendee; } if ("default_value" in data && data.default_value != undefined) { this.default_value = data.default_value; } if ("oneof_index" in data && data.oneof_index != undefined) { this.oneof_index = data.oneof_index; } if ("json_name" in data && data.json_name != undefined) { this.json_name = data.json_name; } if ("options" in data && data.options != undefined) { this.options = data.options; } if ("proto3_optional" in data && data.proto3_optional != undefined) { this.proto3_optional = data.proto3_optional; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get number() { return pb_1.Message.getField(this, 3) as number; } set number(value: number) { pb_1.Message.setField(this, 3, value); } get label() { return pb_1.Message.getField(this, 4) as FieldDescriptorProto.Label; } set label(value: FieldDescriptorProto.Label) { pb_1.Message.setField(this, 4, value); } get type() { return pb_1.Message.getField(this, 5) as FieldDescriptorProto.Type; } set type(value: FieldDescriptorProto.Type) { pb_1.Message.setField(this, 5, value); } get type_name() { return pb_1.Message.getField(this, 6) as string; } set type_name(value: string) { pb_1.Message.setField(this, 6, value); } get extendee() { return pb_1.Message.getField(this, 2) as string; } set extendee(value: string) { pb_1.Message.setField(this, 2, value); } get default_value() { return pb_1.Message.getField(this, 7) as string; } set default_value(value: string) { pb_1.Message.setField(this, 7, value); } get oneof_index() { return pb_1.Message.getField(this, 9) as number; } set oneof_index(value: number) { pb_1.Message.setField(this, 9, value); } get json_name() { return pb_1.Message.getField(this, 10) as string; } set json_name(value: string) { pb_1.Message.setField(this, 10, value); } get options() { return pb_1.Message.getWrapperField(this, FieldOptions, 8) as FieldOptions; } set options(value: FieldOptions) { pb_1.Message.setWrapperField(this, 8, value); } get proto3_optional() { return pb_1.Message.getField(this, 17) as boolean; } set proto3_optional(value: boolean) { pb_1.Message.setField(this, 17, value); } static fromObject(data: { name?: string; number?: number; label?: FieldDescriptorProto.Label; type?: FieldDescriptorProto.Type; type_name?: string; extendee?: string; default_value?: string; oneof_index?: number; json_name?: string; options?: ReturnType; proto3_optional?: boolean; }) { const message = new FieldDescriptorProto({}); if (data.name != null) { message.name = data.name; } if (data.number != null) { message.number = data.number; } if (data.label != null) { message.label = data.label; } if (data.type != null) { message.type = data.type; } if (data.type_name != null) { message.type_name = data.type_name; } if (data.extendee != null) { message.extendee = data.extendee; } if (data.default_value != null) { message.default_value = data.default_value; } if (data.oneof_index != null) { message.oneof_index = data.oneof_index; } if (data.json_name != null) { message.json_name = data.json_name; } if (data.options != null) { message.options = FieldOptions.fromObject(data.options); } if (data.proto3_optional != null) { message.proto3_optional = data.proto3_optional; } return message; } toObject() { const data: { name?: string; number?: number; label?: FieldDescriptorProto.Label; type?: FieldDescriptorProto.Type; type_name?: string; extendee?: string; default_value?: string; oneof_index?: number; json_name?: string; options?: ReturnType; proto3_optional?: boolean; } = {}; if (this.name != null) { data.name = this.name; } if (this.number != null) { data.number = this.number; } if (this.label != null) { data.label = this.label; } if (this.type != null) { data.type = this.type; } if (this.type_name != null) { data.type_name = this.type_name; } if (this.extendee != null) { data.extendee = this.extendee; } if (this.default_value != null) { data.default_value = this.default_value; } if (this.oneof_index != null) { data.oneof_index = this.oneof_index; } if (this.json_name != null) { data.json_name = this.json_name; } if (this.options != null) { data.options = this.options.toObject(); } if (this.proto3_optional != null) { data.proto3_optional = this.proto3_optional; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.number !== undefined) writer.writeInt32(3, this.number); if (this.label !== undefined) writer.writeEnum(4, this.label); if (this.type !== undefined) writer.writeEnum(5, this.type); if (typeof this.type_name === "string" && this.type_name.length) writer.writeString(6, this.type_name); if (typeof this.extendee === "string" && this.extendee.length) writer.writeString(2, this.extendee); if (typeof this.default_value === "string" && this.default_value.length) writer.writeString(7, this.default_value); if (this.oneof_index !== undefined) writer.writeInt32(9, this.oneof_index); if (typeof this.json_name === "string" && this.json_name.length) writer.writeString(10, this.json_name); if (this.options !== undefined) writer.writeMessage(8, this.options, () => this.options.serialize(writer)); if (this.proto3_optional !== undefined) writer.writeBool(17, this.proto3_optional); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): FieldDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new FieldDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 3: message.number = reader.readInt32(); break; case 4: message.label = reader.readEnum(); break; case 5: message.type = reader.readEnum(); break; case 6: message.type_name = reader.readString(); break; case 2: message.extendee = reader.readString(); break; case 7: message.default_value = reader.readString(); break; case 9: message.oneof_index = reader.readInt32(); break; case 10: message.json_name = reader.readString(); break; case 8: reader.readMessage(message.options, () => message.options = FieldOptions.deserialize(reader)); break; case 17: message.proto3_optional = reader.readBool(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): FieldDescriptorProto { return FieldDescriptorProto.deserialize(bytes); } } export namespace FieldDescriptorProto { export enum Type { TYPE_DOUBLE = 1, TYPE_FLOAT = 2, TYPE_INT64 = 3, TYPE_UINT64 = 4, TYPE_INT32 = 5, TYPE_FIXED64 = 6, TYPE_FIXED32 = 7, TYPE_BOOL = 8, TYPE_STRING = 9, TYPE_GROUP = 10, TYPE_MESSAGE = 11, TYPE_BYTES = 12, TYPE_UINT32 = 13, TYPE_ENUM = 14, TYPE_SFIXED32 = 15, TYPE_SFIXED64 = 16, TYPE_SINT32 = 17, TYPE_SINT64 = 18 } export enum Label { LABEL_OPTIONAL = 1, LABEL_REQUIRED = 2, LABEL_REPEATED = 3 } } export class OneofDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; options?: OneofOptions; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } if ("options" in data && data.options != undefined) { this.options = data.options; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get options() { return pb_1.Message.getWrapperField(this, OneofOptions, 2) as OneofOptions; } set options(value: OneofOptions) { pb_1.Message.setWrapperField(this, 2, value); } static fromObject(data: { name?: string; options?: ReturnType; }) { const message = new OneofDescriptorProto({}); if (data.name != null) { message.name = data.name; } if (data.options != null) { message.options = OneofOptions.fromObject(data.options); } return message; } toObject() { const data: { name?: string; options?: ReturnType; } = {}; if (this.name != null) { data.name = this.name; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.options !== undefined) writer.writeMessage(2, this.options, () => this.options.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): OneofDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new OneofDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: reader.readMessage(message.options, () => message.options = OneofOptions.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): OneofDescriptorProto { return OneofDescriptorProto.deserialize(bytes); } } export class EnumDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; value: EnumValueDescriptorProto[]; options?: EnumOptions; reserved_range: EnumDescriptorProto.EnumReservedRange[]; reserved_name: string[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [2, 4, 5], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } this.value = data.value; if ("options" in data && data.options != undefined) { this.options = data.options; } this.reserved_range = data.reserved_range; this.reserved_name = data.reserved_name; } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get value() { return pb_1.Message.getRepeatedWrapperField(this, EnumValueDescriptorProto, 2) as EnumValueDescriptorProto[]; } set value(value: EnumValueDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 2, value); } get options() { return pb_1.Message.getWrapperField(this, EnumOptions, 3) as EnumOptions; } set options(value: EnumOptions) { pb_1.Message.setWrapperField(this, 3, value); } get reserved_range() { return pb_1.Message.getRepeatedWrapperField(this, EnumDescriptorProto.EnumReservedRange, 4) as EnumDescriptorProto.EnumReservedRange[]; } set reserved_range(value: EnumDescriptorProto.EnumReservedRange[]) { pb_1.Message.setRepeatedWrapperField(this, 4, value); } get reserved_name() { return pb_1.Message.getField(this, 5) as string[]; } set reserved_name(value: string[]) { pb_1.Message.setField(this, 5, value); } static fromObject(data: { name?: string; value: ReturnType[]; options?: ReturnType; reserved_range: ReturnType[]; reserved_name: string[]; }) { const message = new EnumDescriptorProto({ value: data.value.map(item => EnumValueDescriptorProto.fromObject(item)), reserved_range: data.reserved_range.map(item => EnumDescriptorProto.EnumReservedRange.fromObject(item)), reserved_name: data.reserved_name }); if (data.name != null) { message.name = data.name; } if (data.options != null) { message.options = EnumOptions.fromObject(data.options); } return message; } toObject() { const data: { name?: string; value: ReturnType[]; options?: ReturnType; reserved_range: ReturnType[]; reserved_name: string[]; } = { value: this.value.map((item: EnumValueDescriptorProto) => item.toObject()), reserved_range: this.reserved_range.map((item: EnumDescriptorProto.EnumReservedRange) => item.toObject()), reserved_name: this.reserved_name }; if (this.name != null) { data.name = this.name; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.value !== undefined) writer.writeRepeatedMessage(2, this.value, (item: EnumValueDescriptorProto) => item.serialize(writer)); if (this.options !== undefined) writer.writeMessage(3, this.options, () => this.options.serialize(writer)); if (this.reserved_range !== undefined) writer.writeRepeatedMessage(4, this.reserved_range, (item: EnumDescriptorProto.EnumReservedRange) => item.serialize(writer)); if (this.reserved_name !== undefined) writer.writeRepeatedString(5, this.reserved_name); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): EnumDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new EnumDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: reader.readMessage(message.value, () => pb_1.Message.addToRepeatedWrapperField(message, 2, EnumValueDescriptorProto.deserialize(reader), EnumValueDescriptorProto)); break; case 3: reader.readMessage(message.options, () => message.options = EnumOptions.deserialize(reader)); break; case 4: reader.readMessage(message.reserved_range, () => pb_1.Message.addToRepeatedWrapperField(message, 4, EnumDescriptorProto.EnumReservedRange.deserialize(reader), EnumDescriptorProto.EnumReservedRange)); break; case 5: pb_1.Message.addToRepeatedField(message, 5, reader.readString()); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): EnumDescriptorProto { return EnumDescriptorProto.deserialize(bytes); } } export namespace EnumDescriptorProto { export class EnumReservedRange extends pb_1.Message { constructor(data?: any[] | { start?: number; end?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("start" in data && data.start != undefined) { this.start = data.start; } if ("end" in data && data.end != undefined) { this.end = data.end; } } } get start() { return pb_1.Message.getField(this, 1) as number; } set start(value: number) { pb_1.Message.setField(this, 1, value); } get end() { return pb_1.Message.getField(this, 2) as number; } set end(value: number) { pb_1.Message.setField(this, 2, value); } static fromObject(data: { start?: number; end?: number; }) { const message = new EnumReservedRange({}); if (data.start != null) { message.start = data.start; } if (data.end != null) { message.end = data.end; } return message; } toObject() { const data: { start?: number; end?: number; } = {}; if (this.start != null) { data.start = this.start; } if (this.end != null) { data.end = this.end; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.start !== undefined) writer.writeInt32(1, this.start); if (this.end !== undefined) writer.writeInt32(2, this.end); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): EnumReservedRange { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new EnumReservedRange(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.start = reader.readInt32(); break; case 2: message.end = reader.readInt32(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): EnumReservedRange { return EnumReservedRange.deserialize(bytes); } } } export class EnumValueDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; number?: number; options?: EnumValueOptions; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } if ("number" in data && data.number != undefined) { this.number = data.number; } if ("options" in data && data.options != undefined) { this.options = data.options; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get number() { return pb_1.Message.getField(this, 2) as number; } set number(value: number) { pb_1.Message.setField(this, 2, value); } get options() { return pb_1.Message.getWrapperField(this, EnumValueOptions, 3) as EnumValueOptions; } set options(value: EnumValueOptions) { pb_1.Message.setWrapperField(this, 3, value); } static fromObject(data: { name?: string; number?: number; options?: ReturnType; }) { const message = new EnumValueDescriptorProto({}); if (data.name != null) { message.name = data.name; } if (data.number != null) { message.number = data.number; } if (data.options != null) { message.options = EnumValueOptions.fromObject(data.options); } return message; } toObject() { const data: { name?: string; number?: number; options?: ReturnType; } = {}; if (this.name != null) { data.name = this.name; } if (this.number != null) { data.number = this.number; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.number !== undefined) writer.writeInt32(2, this.number); if (this.options !== undefined) writer.writeMessage(3, this.options, () => this.options.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): EnumValueDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new EnumValueDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: message.number = reader.readInt32(); break; case 3: reader.readMessage(message.options, () => message.options = EnumValueOptions.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): EnumValueDescriptorProto { return EnumValueDescriptorProto.deserialize(bytes); } } export class ServiceDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; method: MethodDescriptorProto[]; options?: ServiceOptions; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [2], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } this.method = data.method; if ("options" in data && data.options != undefined) { this.options = data.options; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get method() { return pb_1.Message.getRepeatedWrapperField(this, MethodDescriptorProto, 2) as MethodDescriptorProto[]; } set method(value: MethodDescriptorProto[]) { pb_1.Message.setRepeatedWrapperField(this, 2, value); } get options() { return pb_1.Message.getWrapperField(this, ServiceOptions, 3) as ServiceOptions; } set options(value: ServiceOptions) { pb_1.Message.setWrapperField(this, 3, value); } static fromObject(data: { name?: string; method: ReturnType[]; options?: ReturnType; }) { const message = new ServiceDescriptorProto({ method: data.method.map(item => MethodDescriptorProto.fromObject(item)) }); if (data.name != null) { message.name = data.name; } if (data.options != null) { message.options = ServiceOptions.fromObject(data.options); } return message; } toObject() { const data: { name?: string; method: ReturnType[]; options?: ReturnType; } = { method: this.method.map((item: MethodDescriptorProto) => item.toObject()) }; if (this.name != null) { data.name = this.name; } if (this.options != null) { data.options = this.options.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (this.method !== undefined) writer.writeRepeatedMessage(2, this.method, (item: MethodDescriptorProto) => item.serialize(writer)); if (this.options !== undefined) writer.writeMessage(3, this.options, () => this.options.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ServiceDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ServiceDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: reader.readMessage(message.method, () => pb_1.Message.addToRepeatedWrapperField(message, 2, MethodDescriptorProto.deserialize(reader), MethodDescriptorProto)); break; case 3: reader.readMessage(message.options, () => message.options = ServiceOptions.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ServiceDescriptorProto { return ServiceDescriptorProto.deserialize(bytes); } } export class MethodDescriptorProto extends pb_1.Message { constructor(data?: any[] | { name?: string; input_type?: string; output_type?: string; options?: MethodOptions; client_streaming?: boolean; server_streaming?: boolean; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { if ("name" in data && data.name != undefined) { this.name = data.name; } if ("input_type" in data && data.input_type != undefined) { this.input_type = data.input_type; } if ("output_type" in data && data.output_type != undefined) { this.output_type = data.output_type; } if ("options" in data && data.options != undefined) { this.options = data.options; } if ("client_streaming" in data && data.client_streaming != undefined) { this.client_streaming = data.client_streaming; } if ("server_streaming" in data && data.server_streaming != undefined) { this.server_streaming = data.server_streaming; } } } get name() { return pb_1.Message.getField(this, 1) as string; } set name(value: string) { pb_1.Message.setField(this, 1, value); } get input_type() { return pb_1.Message.getField(this, 2) as string; } set input_type(value: string) { pb_1.Message.setField(this, 2, value); } get output_type() { return pb_1.Message.getField(this, 3) as string; } set output_type(value: string) { pb_1.Message.setField(this, 3, value); } get options() { return pb_1.Message.getWrapperField(this, MethodOptions, 4) as MethodOptions; } set options(value: MethodOptions) { pb_1.Message.setWrapperField(this, 4, value); } get client_streaming() { return pb_1.Message.getFieldWithDefault(this, 5, false) as boolean; } set client_streaming(value: boolean) { pb_1.Message.setField(this, 5, value); } get server_streaming() { return pb_1.Message.getFieldWithDefault(this, 6, false) as boolean; } set server_streaming(value: boolean) { pb_1.Message.setField(this, 6, value); } static fromObject(data: { name?: string; input_type?: string; output_type?: string; options?: ReturnType; client_streaming?: boolean; server_streaming?: boolean; }) { const message = new MethodDescriptorProto({}); if (data.name != null) { message.name = data.name; } if (data.input_type != null) { message.input_type = data.input_type; } if (data.output_type != null) { message.output_type = data.output_type; } if (data.options != null) { message.options = MethodOptions.fromObject(data.options); } if (data.client_streaming != null) { message.client_streaming = data.client_streaming; } if (data.server_streaming != null) { message.server_streaming = data.server_streaming; } return message; } toObject() { const data: { name?: string; input_type?: string; output_type?: string; options?: ReturnType; client_streaming?: boolean; server_streaming?: boolean; } = {}; if (this.name != null) { data.name = this.name; } if (this.input_type != null) { data.input_type = this.input_type; } if (this.output_type != null) { data.output_type = this.output_type; } if (this.options != null) { data.options = this.options.toObject(); } if (this.client_streaming != null) { data.client_streaming = this.client_streaming; } if (this.server_streaming != null) { data.server_streaming = this.server_streaming; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name === "string" && this.name.length) writer.writeString(1, this.name); if (typeof this.input_type === "string" && this.input_type.length) writer.writeString(2, this.input_type); if (typeof this.output_type === "string" && this.output_type.length) writer.writeString(3, this.output_type); if (this.options !== undefined) writer.writeMessage(4, this.options, () => this.options.serialize(writer)); if (this.client_streaming !== undefined) writer.writeBool(5, this.client_streaming); if (this.server_streaming !== undefined) writer.writeBool(6, this.server_streaming); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MethodDescriptorProto { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MethodDescriptorProto(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name = reader.readString(); break; case 2: message.input_type = reader.readString(); break; case 3: message.output_type = reader.readString(); break; case 4: reader.readMessage(message.options, () => message.options = MethodOptions.deserialize(reader)); break; case 5: message.client_streaming = reader.readBool(); break; case 6: message.server_streaming = reader.readBool(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): MethodDescriptorProto { return MethodDescriptorProto.deserialize(bytes); } } export class FileOptions extends pb_1.Message { constructor(data?: any[] | { java_package?: string; java_outer_classname?: string; java_multiple_files?: boolean; /** @deprecated*/ java_generate_equals_and_hash?: boolean; java_string_check_utf8?: boolean; optimize_for?: FileOptions.OptimizeMode; go_package?: string; cc_generic_services?: boolean; java_generic_services?: boolean; py_generic_services?: boolean; php_generic_services?: boolean; deprecated?: boolean; cc_enable_arenas?: boolean; objc_class_prefix?: string; csharp_namespace?: string; swift_prefix?: string; php_class_prefix?: string; php_namespace?: string; php_metadata_namespace?: string; ruby_package?: string; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("java_package" in data && data.java_package != undefined) { this.java_package = data.java_package; } if ("java_outer_classname" in data && data.java_outer_classname != undefined) { this.java_outer_classname = data.java_outer_classname; } if ("java_multiple_files" in data && data.java_multiple_files != undefined) { this.java_multiple_files = data.java_multiple_files; } if ("java_generate_equals_and_hash" in data && data.java_generate_equals_and_hash != undefined) { this.java_generate_equals_and_hash = data.java_generate_equals_and_hash; } if ("java_string_check_utf8" in data && data.java_string_check_utf8 != undefined) { this.java_string_check_utf8 = data.java_string_check_utf8; } if ("optimize_for" in data && data.optimize_for != undefined) { this.optimize_for = data.optimize_for; } if ("go_package" in data && data.go_package != undefined) { this.go_package = data.go_package; } if ("cc_generic_services" in data && data.cc_generic_services != undefined) { this.cc_generic_services = data.cc_generic_services; } if ("java_generic_services" in data && data.java_generic_services != undefined) { this.java_generic_services = data.java_generic_services; } if ("py_generic_services" in data && data.py_generic_services != undefined) { this.py_generic_services = data.py_generic_services; } if ("php_generic_services" in data && data.php_generic_services != undefined) { this.php_generic_services = data.php_generic_services; } if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } if ("cc_enable_arenas" in data && data.cc_enable_arenas != undefined) { this.cc_enable_arenas = data.cc_enable_arenas; } if ("objc_class_prefix" in data && data.objc_class_prefix != undefined) { this.objc_class_prefix = data.objc_class_prefix; } if ("csharp_namespace" in data && data.csharp_namespace != undefined) { this.csharp_namespace = data.csharp_namespace; } if ("swift_prefix" in data && data.swift_prefix != undefined) { this.swift_prefix = data.swift_prefix; } if ("php_class_prefix" in data && data.php_class_prefix != undefined) { this.php_class_prefix = data.php_class_prefix; } if ("php_namespace" in data && data.php_namespace != undefined) { this.php_namespace = data.php_namespace; } if ("php_metadata_namespace" in data && data.php_metadata_namespace != undefined) { this.php_metadata_namespace = data.php_metadata_namespace; } if ("ruby_package" in data && data.ruby_package != undefined) { this.ruby_package = data.ruby_package; } this.uninterpreted_option = data.uninterpreted_option; } } get java_package() { return pb_1.Message.getField(this, 1) as string; } set java_package(value: string) { pb_1.Message.setField(this, 1, value); } get java_outer_classname() { return pb_1.Message.getField(this, 8) as string; } set java_outer_classname(value: string) { pb_1.Message.setField(this, 8, value); } get java_multiple_files() { return pb_1.Message.getFieldWithDefault(this, 10, false) as boolean; } set java_multiple_files(value: boolean) { pb_1.Message.setField(this, 10, value); } /** @deprecated*/ get java_generate_equals_and_hash() { return pb_1.Message.getField(this, 20) as boolean; } /** @deprecated*/ set java_generate_equals_and_hash(value: boolean) { pb_1.Message.setField(this, 20, value); } get java_string_check_utf8() { return pb_1.Message.getFieldWithDefault(this, 27, false) as boolean; } set java_string_check_utf8(value: boolean) { pb_1.Message.setField(this, 27, value); } get optimize_for() { return pb_1.Message.getFieldWithDefault(this, 9, FileOptions.OptimizeMode.SPEED) as FileOptions.OptimizeMode; } set optimize_for(value: FileOptions.OptimizeMode) { pb_1.Message.setField(this, 9, value); } get go_package() { return pb_1.Message.getField(this, 11) as string; } set go_package(value: string) { pb_1.Message.setField(this, 11, value); } get cc_generic_services() { return pb_1.Message.getFieldWithDefault(this, 16, false) as boolean; } set cc_generic_services(value: boolean) { pb_1.Message.setField(this, 16, value); } get java_generic_services() { return pb_1.Message.getFieldWithDefault(this, 17, false) as boolean; } set java_generic_services(value: boolean) { pb_1.Message.setField(this, 17, value); } get py_generic_services() { return pb_1.Message.getFieldWithDefault(this, 18, false) as boolean; } set py_generic_services(value: boolean) { pb_1.Message.setField(this, 18, value); } get php_generic_services() { return pb_1.Message.getFieldWithDefault(this, 42, false) as boolean; } set php_generic_services(value: boolean) { pb_1.Message.setField(this, 42, value); } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 23, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 23, value); } get cc_enable_arenas() { return pb_1.Message.getFieldWithDefault(this, 31, true) as boolean; } set cc_enable_arenas(value: boolean) { pb_1.Message.setField(this, 31, value); } get objc_class_prefix() { return pb_1.Message.getField(this, 36) as string; } set objc_class_prefix(value: string) { pb_1.Message.setField(this, 36, value); } get csharp_namespace() { return pb_1.Message.getField(this, 37) as string; } set csharp_namespace(value: string) { pb_1.Message.setField(this, 37, value); } get swift_prefix() { return pb_1.Message.getField(this, 39) as string; } set swift_prefix(value: string) { pb_1.Message.setField(this, 39, value); } get php_class_prefix() { return pb_1.Message.getField(this, 40) as string; } set php_class_prefix(value: string) { pb_1.Message.setField(this, 40, value); } get php_namespace() { return pb_1.Message.getField(this, 41) as string; } set php_namespace(value: string) { pb_1.Message.setField(this, 41, value); } get php_metadata_namespace() { return pb_1.Message.getField(this, 44) as string; } set php_metadata_namespace(value: string) { pb_1.Message.setField(this, 44, value); } get ruby_package() { return pb_1.Message.getField(this, 45) as string; } set ruby_package(value: string) { pb_1.Message.setField(this, 45, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { java_package?: string; java_outer_classname?: string; java_multiple_files?: boolean; java_generate_equals_and_hash?: boolean; java_string_check_utf8?: boolean; optimize_for?: FileOptions.OptimizeMode; go_package?: string; cc_generic_services?: boolean; java_generic_services?: boolean; py_generic_services?: boolean; php_generic_services?: boolean; deprecated?: boolean; cc_enable_arenas?: boolean; objc_class_prefix?: string; csharp_namespace?: string; swift_prefix?: string; php_class_prefix?: string; php_namespace?: string; php_metadata_namespace?: string; ruby_package?: string; uninterpreted_option: ReturnType[]; }) { const message = new FileOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.java_package != null) { message.java_package = data.java_package; } if (data.java_outer_classname != null) { message.java_outer_classname = data.java_outer_classname; } if (data.java_multiple_files != null) { message.java_multiple_files = data.java_multiple_files; } if (data.java_generate_equals_and_hash != null) { message.java_generate_equals_and_hash = data.java_generate_equals_and_hash; } if (data.java_string_check_utf8 != null) { message.java_string_check_utf8 = data.java_string_check_utf8; } if (data.optimize_for != null) { message.optimize_for = data.optimize_for; } if (data.go_package != null) { message.go_package = data.go_package; } if (data.cc_generic_services != null) { message.cc_generic_services = data.cc_generic_services; } if (data.java_generic_services != null) { message.java_generic_services = data.java_generic_services; } if (data.py_generic_services != null) { message.py_generic_services = data.py_generic_services; } if (data.php_generic_services != null) { message.php_generic_services = data.php_generic_services; } if (data.deprecated != null) { message.deprecated = data.deprecated; } if (data.cc_enable_arenas != null) { message.cc_enable_arenas = data.cc_enable_arenas; } if (data.objc_class_prefix != null) { message.objc_class_prefix = data.objc_class_prefix; } if (data.csharp_namespace != null) { message.csharp_namespace = data.csharp_namespace; } if (data.swift_prefix != null) { message.swift_prefix = data.swift_prefix; } if (data.php_class_prefix != null) { message.php_class_prefix = data.php_class_prefix; } if (data.php_namespace != null) { message.php_namespace = data.php_namespace; } if (data.php_metadata_namespace != null) { message.php_metadata_namespace = data.php_metadata_namespace; } if (data.ruby_package != null) { message.ruby_package = data.ruby_package; } return message; } toObject() { const data: { java_package?: string; java_outer_classname?: string; java_multiple_files?: boolean; java_generate_equals_and_hash?: boolean; java_string_check_utf8?: boolean; optimize_for?: FileOptions.OptimizeMode; go_package?: string; cc_generic_services?: boolean; java_generic_services?: boolean; py_generic_services?: boolean; php_generic_services?: boolean; deprecated?: boolean; cc_enable_arenas?: boolean; objc_class_prefix?: string; csharp_namespace?: string; swift_prefix?: string; php_class_prefix?: string; php_namespace?: string; php_metadata_namespace?: string; ruby_package?: string; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.java_package != null) { data.java_package = this.java_package; } if (this.java_outer_classname != null) { data.java_outer_classname = this.java_outer_classname; } if (this.java_multiple_files != null) { data.java_multiple_files = this.java_multiple_files; } if (this.java_generate_equals_and_hash != null) { data.java_generate_equals_and_hash = this.java_generate_equals_and_hash; } if (this.java_string_check_utf8 != null) { data.java_string_check_utf8 = this.java_string_check_utf8; } if (this.optimize_for != null) { data.optimize_for = this.optimize_for; } if (this.go_package != null) { data.go_package = this.go_package; } if (this.cc_generic_services != null) { data.cc_generic_services = this.cc_generic_services; } if (this.java_generic_services != null) { data.java_generic_services = this.java_generic_services; } if (this.py_generic_services != null) { data.py_generic_services = this.py_generic_services; } if (this.php_generic_services != null) { data.php_generic_services = this.php_generic_services; } if (this.deprecated != null) { data.deprecated = this.deprecated; } if (this.cc_enable_arenas != null) { data.cc_enable_arenas = this.cc_enable_arenas; } if (this.objc_class_prefix != null) { data.objc_class_prefix = this.objc_class_prefix; } if (this.csharp_namespace != null) { data.csharp_namespace = this.csharp_namespace; } if (this.swift_prefix != null) { data.swift_prefix = this.swift_prefix; } if (this.php_class_prefix != null) { data.php_class_prefix = this.php_class_prefix; } if (this.php_namespace != null) { data.php_namespace = this.php_namespace; } if (this.php_metadata_namespace != null) { data.php_metadata_namespace = this.php_metadata_namespace; } if (this.ruby_package != null) { data.ruby_package = this.ruby_package; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.java_package === "string" && this.java_package.length) writer.writeString(1, this.java_package); if (typeof this.java_outer_classname === "string" && this.java_outer_classname.length) writer.writeString(8, this.java_outer_classname); if (this.java_multiple_files !== undefined) writer.writeBool(10, this.java_multiple_files); if (this.java_generate_equals_and_hash !== undefined) writer.writeBool(20, this.java_generate_equals_and_hash); if (this.java_string_check_utf8 !== undefined) writer.writeBool(27, this.java_string_check_utf8); if (this.optimize_for !== undefined) writer.writeEnum(9, this.optimize_for); if (typeof this.go_package === "string" && this.go_package.length) writer.writeString(11, this.go_package); if (this.cc_generic_services !== undefined) writer.writeBool(16, this.cc_generic_services); if (this.java_generic_services !== undefined) writer.writeBool(17, this.java_generic_services); if (this.py_generic_services !== undefined) writer.writeBool(18, this.py_generic_services); if (this.php_generic_services !== undefined) writer.writeBool(42, this.php_generic_services); if (this.deprecated !== undefined) writer.writeBool(23, this.deprecated); if (this.cc_enable_arenas !== undefined) writer.writeBool(31, this.cc_enable_arenas); if (typeof this.objc_class_prefix === "string" && this.objc_class_prefix.length) writer.writeString(36, this.objc_class_prefix); if (typeof this.csharp_namespace === "string" && this.csharp_namespace.length) writer.writeString(37, this.csharp_namespace); if (typeof this.swift_prefix === "string" && this.swift_prefix.length) writer.writeString(39, this.swift_prefix); if (typeof this.php_class_prefix === "string" && this.php_class_prefix.length) writer.writeString(40, this.php_class_prefix); if (typeof this.php_namespace === "string" && this.php_namespace.length) writer.writeString(41, this.php_namespace); if (typeof this.php_metadata_namespace === "string" && this.php_metadata_namespace.length) writer.writeString(44, this.php_metadata_namespace); if (typeof this.ruby_package === "string" && this.ruby_package.length) writer.writeString(45, this.ruby_package); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): FileOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new FileOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.java_package = reader.readString(); break; case 8: message.java_outer_classname = reader.readString(); break; case 10: message.java_multiple_files = reader.readBool(); break; case 20: message.java_generate_equals_and_hash = reader.readBool(); break; case 27: message.java_string_check_utf8 = reader.readBool(); break; case 9: message.optimize_for = reader.readEnum(); break; case 11: message.go_package = reader.readString(); break; case 16: message.cc_generic_services = reader.readBool(); break; case 17: message.java_generic_services = reader.readBool(); break; case 18: message.py_generic_services = reader.readBool(); break; case 42: message.php_generic_services = reader.readBool(); break; case 23: message.deprecated = reader.readBool(); break; case 31: message.cc_enable_arenas = reader.readBool(); break; case 36: message.objc_class_prefix = reader.readString(); break; case 37: message.csharp_namespace = reader.readString(); break; case 39: message.swift_prefix = reader.readString(); break; case 40: message.php_class_prefix = reader.readString(); break; case 41: message.php_namespace = reader.readString(); break; case 44: message.php_metadata_namespace = reader.readString(); break; case 45: message.ruby_package = reader.readString(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): FileOptions { return FileOptions.deserialize(bytes); } } export namespace FileOptions { export enum OptimizeMode { SPEED = 1, CODE_SIZE = 2, LITE_RUNTIME = 3 } } export class MessageOptions extends pb_1.Message { constructor(data?: any[] | { message_set_wire_format?: boolean; no_standard_descriptor_accessor?: boolean; deprecated?: boolean; map_entry?: boolean; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("message_set_wire_format" in data && data.message_set_wire_format != undefined) { this.message_set_wire_format = data.message_set_wire_format; } if ("no_standard_descriptor_accessor" in data && data.no_standard_descriptor_accessor != undefined) { this.no_standard_descriptor_accessor = data.no_standard_descriptor_accessor; } if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } if ("map_entry" in data && data.map_entry != undefined) { this.map_entry = data.map_entry; } this.uninterpreted_option = data.uninterpreted_option; } } get message_set_wire_format() { return pb_1.Message.getFieldWithDefault(this, 1, false) as boolean; } set message_set_wire_format(value: boolean) { pb_1.Message.setField(this, 1, value); } get no_standard_descriptor_accessor() { return pb_1.Message.getFieldWithDefault(this, 2, false) as boolean; } set no_standard_descriptor_accessor(value: boolean) { pb_1.Message.setField(this, 2, value); } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 3, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 3, value); } get map_entry() { return pb_1.Message.getField(this, 7) as boolean; } set map_entry(value: boolean) { pb_1.Message.setField(this, 7, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { message_set_wire_format?: boolean; no_standard_descriptor_accessor?: boolean; deprecated?: boolean; map_entry?: boolean; uninterpreted_option: ReturnType[]; }) { const message = new MessageOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.message_set_wire_format != null) { message.message_set_wire_format = data.message_set_wire_format; } if (data.no_standard_descriptor_accessor != null) { message.no_standard_descriptor_accessor = data.no_standard_descriptor_accessor; } if (data.deprecated != null) { message.deprecated = data.deprecated; } if (data.map_entry != null) { message.map_entry = data.map_entry; } return message; } toObject() { const data: { message_set_wire_format?: boolean; no_standard_descriptor_accessor?: boolean; deprecated?: boolean; map_entry?: boolean; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.message_set_wire_format != null) { data.message_set_wire_format = this.message_set_wire_format; } if (this.no_standard_descriptor_accessor != null) { data.no_standard_descriptor_accessor = this.no_standard_descriptor_accessor; } if (this.deprecated != null) { data.deprecated = this.deprecated; } if (this.map_entry != null) { data.map_entry = this.map_entry; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.message_set_wire_format !== undefined) writer.writeBool(1, this.message_set_wire_format); if (this.no_standard_descriptor_accessor !== undefined) writer.writeBool(2, this.no_standard_descriptor_accessor); if (this.deprecated !== undefined) writer.writeBool(3, this.deprecated); if (this.map_entry !== undefined) writer.writeBool(7, this.map_entry); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MessageOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MessageOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.message_set_wire_format = reader.readBool(); break; case 2: message.no_standard_descriptor_accessor = reader.readBool(); break; case 3: message.deprecated = reader.readBool(); break; case 7: message.map_entry = reader.readBool(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): MessageOptions { return MessageOptions.deserialize(bytes); } } export class FieldOptions extends pb_1.Message { constructor(data?: any[] | { ctype?: FieldOptions.CType; packed?: boolean; jstype?: FieldOptions.JSType; lazy?: boolean; deprecated?: boolean; weak?: boolean; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("ctype" in data && data.ctype != undefined) { this.ctype = data.ctype; } if ("packed" in data && data.packed != undefined) { this.packed = data.packed; } if ("jstype" in data && data.jstype != undefined) { this.jstype = data.jstype; } if ("lazy" in data && data.lazy != undefined) { this.lazy = data.lazy; } if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } if ("weak" in data && data.weak != undefined) { this.weak = data.weak; } this.uninterpreted_option = data.uninterpreted_option; } } get ctype() { return pb_1.Message.getFieldWithDefault(this, 1, FieldOptions.CType.STRING) as FieldOptions.CType; } set ctype(value: FieldOptions.CType) { pb_1.Message.setField(this, 1, value); } get packed() { return pb_1.Message.getField(this, 2) as boolean; } set packed(value: boolean) { pb_1.Message.setField(this, 2, value); } get jstype() { return pb_1.Message.getFieldWithDefault(this, 6, FieldOptions.JSType.JS_NORMAL) as FieldOptions.JSType; } set jstype(value: FieldOptions.JSType) { pb_1.Message.setField(this, 6, value); } get lazy() { return pb_1.Message.getFieldWithDefault(this, 5, false) as boolean; } set lazy(value: boolean) { pb_1.Message.setField(this, 5, value); } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 3, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 3, value); } get weak() { return pb_1.Message.getFieldWithDefault(this, 10, false) as boolean; } set weak(value: boolean) { pb_1.Message.setField(this, 10, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { ctype?: FieldOptions.CType; packed?: boolean; jstype?: FieldOptions.JSType; lazy?: boolean; deprecated?: boolean; weak?: boolean; uninterpreted_option: ReturnType[]; }) { const message = new FieldOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.ctype != null) { message.ctype = data.ctype; } if (data.packed != null) { message.packed = data.packed; } if (data.jstype != null) { message.jstype = data.jstype; } if (data.lazy != null) { message.lazy = data.lazy; } if (data.deprecated != null) { message.deprecated = data.deprecated; } if (data.weak != null) { message.weak = data.weak; } return message; } toObject() { const data: { ctype?: FieldOptions.CType; packed?: boolean; jstype?: FieldOptions.JSType; lazy?: boolean; deprecated?: boolean; weak?: boolean; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.ctype != null) { data.ctype = this.ctype; } if (this.packed != null) { data.packed = this.packed; } if (this.jstype != null) { data.jstype = this.jstype; } if (this.lazy != null) { data.lazy = this.lazy; } if (this.deprecated != null) { data.deprecated = this.deprecated; } if (this.weak != null) { data.weak = this.weak; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.ctype !== undefined) writer.writeEnum(1, this.ctype); if (this.packed !== undefined) writer.writeBool(2, this.packed); if (this.jstype !== undefined) writer.writeEnum(6, this.jstype); if (this.lazy !== undefined) writer.writeBool(5, this.lazy); if (this.deprecated !== undefined) writer.writeBool(3, this.deprecated); if (this.weak !== undefined) writer.writeBool(10, this.weak); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): FieldOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new FieldOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.ctype = reader.readEnum(); break; case 2: message.packed = reader.readBool(); break; case 6: message.jstype = reader.readEnum(); break; case 5: message.lazy = reader.readBool(); break; case 3: message.deprecated = reader.readBool(); break; case 10: message.weak = reader.readBool(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): FieldOptions { return FieldOptions.deserialize(bytes); } } export namespace FieldOptions { export enum CType { STRING = 0, CORD = 1, STRING_PIECE = 2 } export enum JSType { JS_NORMAL = 0, JS_STRING = 1, JS_NUMBER = 2 } } export class OneofOptions extends pb_1.Message { constructor(data?: any[] | { uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { this.uninterpreted_option = data.uninterpreted_option; } } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { uninterpreted_option: ReturnType[]; }) { const message = new OneofOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); return message; } toObject() { const data: { uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): OneofOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new OneofOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): OneofOptions { return OneofOptions.deserialize(bytes); } } export class EnumOptions extends pb_1.Message { constructor(data?: any[] | { allow_alias?: boolean; deprecated?: boolean; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("allow_alias" in data && data.allow_alias != undefined) { this.allow_alias = data.allow_alias; } if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } this.uninterpreted_option = data.uninterpreted_option; } } get allow_alias() { return pb_1.Message.getField(this, 2) as boolean; } set allow_alias(value: boolean) { pb_1.Message.setField(this, 2, value); } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 3, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 3, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { allow_alias?: boolean; deprecated?: boolean; uninterpreted_option: ReturnType[]; }) { const message = new EnumOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.allow_alias != null) { message.allow_alias = data.allow_alias; } if (data.deprecated != null) { message.deprecated = data.deprecated; } return message; } toObject() { const data: { allow_alias?: boolean; deprecated?: boolean; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.allow_alias != null) { data.allow_alias = this.allow_alias; } if (this.deprecated != null) { data.deprecated = this.deprecated; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.allow_alias !== undefined) writer.writeBool(2, this.allow_alias); if (this.deprecated !== undefined) writer.writeBool(3, this.deprecated); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): EnumOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new EnumOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 2: message.allow_alias = reader.readBool(); break; case 3: message.deprecated = reader.readBool(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): EnumOptions { return EnumOptions.deserialize(bytes); } } export class EnumValueOptions extends pb_1.Message { constructor(data?: any[] | { deprecated?: boolean; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } this.uninterpreted_option = data.uninterpreted_option; } } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 1, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 1, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { deprecated?: boolean; uninterpreted_option: ReturnType[]; }) { const message = new EnumValueOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.deprecated != null) { message.deprecated = data.deprecated; } return message; } toObject() { const data: { deprecated?: boolean; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.deprecated != null) { data.deprecated = this.deprecated; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.deprecated !== undefined) writer.writeBool(1, this.deprecated); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): EnumValueOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new EnumValueOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.deprecated = reader.readBool(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): EnumValueOptions { return EnumValueOptions.deserialize(bytes); } } export class ServiceOptions extends pb_1.Message { constructor(data?: any[] | { deprecated?: boolean; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } this.uninterpreted_option = data.uninterpreted_option; } } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 33, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 33, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { deprecated?: boolean; uninterpreted_option: ReturnType[]; }) { const message = new ServiceOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.deprecated != null) { message.deprecated = data.deprecated; } return message; } toObject() { const data: { deprecated?: boolean; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.deprecated != null) { data.deprecated = this.deprecated; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.deprecated !== undefined) writer.writeBool(33, this.deprecated); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ServiceOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ServiceOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 33: message.deprecated = reader.readBool(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ServiceOptions { return ServiceOptions.deserialize(bytes); } } export class MethodOptions extends pb_1.Message { constructor(data?: any[] | { deprecated?: boolean; idempotency_level?: MethodOptions.IdempotencyLevel; uninterpreted_option: UninterpretedOption[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [999], []); if (!Array.isArray(data) && typeof data == "object") { if ("deprecated" in data && data.deprecated != undefined) { this.deprecated = data.deprecated; } if ("idempotency_level" in data && data.idempotency_level != undefined) { this.idempotency_level = data.idempotency_level; } this.uninterpreted_option = data.uninterpreted_option; } } get deprecated() { return pb_1.Message.getFieldWithDefault(this, 33, false) as boolean; } set deprecated(value: boolean) { pb_1.Message.setField(this, 33, value); } get idempotency_level() { return pb_1.Message.getFieldWithDefault(this, 34, MethodOptions.IdempotencyLevel.IDEMPOTENCY_UNKNOWN) as MethodOptions.IdempotencyLevel; } set idempotency_level(value: MethodOptions.IdempotencyLevel) { pb_1.Message.setField(this, 34, value); } get uninterpreted_option() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption, 999) as UninterpretedOption[]; } set uninterpreted_option(value: UninterpretedOption[]) { pb_1.Message.setRepeatedWrapperField(this, 999, value); } static fromObject(data: { deprecated?: boolean; idempotency_level?: MethodOptions.IdempotencyLevel; uninterpreted_option: ReturnType[]; }) { const message = new MethodOptions({ uninterpreted_option: data.uninterpreted_option.map(item => UninterpretedOption.fromObject(item)) }); if (data.deprecated != null) { message.deprecated = data.deprecated; } if (data.idempotency_level != null) { message.idempotency_level = data.idempotency_level; } return message; } toObject() { const data: { deprecated?: boolean; idempotency_level?: MethodOptions.IdempotencyLevel; uninterpreted_option: ReturnType[]; } = { uninterpreted_option: this.uninterpreted_option.map((item: UninterpretedOption) => item.toObject()) }; if (this.deprecated != null) { data.deprecated = this.deprecated; } if (this.idempotency_level != null) { data.idempotency_level = this.idempotency_level; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.deprecated !== undefined) writer.writeBool(33, this.deprecated); if (this.idempotency_level !== undefined) writer.writeEnum(34, this.idempotency_level); if (this.uninterpreted_option !== undefined) writer.writeRepeatedMessage(999, this.uninterpreted_option, (item: UninterpretedOption) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MethodOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MethodOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 33: message.deprecated = reader.readBool(); break; case 34: message.idempotency_level = reader.readEnum(); break; case 999: reader.readMessage(message.uninterpreted_option, () => pb_1.Message.addToRepeatedWrapperField(message, 999, UninterpretedOption.deserialize(reader), UninterpretedOption)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): MethodOptions { return MethodOptions.deserialize(bytes); } } export namespace MethodOptions { export enum IdempotencyLevel { IDEMPOTENCY_UNKNOWN = 0, NO_SIDE_EFFECTS = 1, IDEMPOTENT = 2 } } export class UninterpretedOption extends pb_1.Message { constructor(data?: any[] | { name: UninterpretedOption.NamePart[]; identifier_value?: string; positive_int_value?: number; negative_int_value?: number; double_value?: number; string_value?: Uint8Array; aggregate_value?: string; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [2], []); if (!Array.isArray(data) && typeof data == "object") { this.name = data.name; if ("identifier_value" in data && data.identifier_value != undefined) { this.identifier_value = data.identifier_value; } if ("positive_int_value" in data && data.positive_int_value != undefined) { this.positive_int_value = data.positive_int_value; } if ("negative_int_value" in data && data.negative_int_value != undefined) { this.negative_int_value = data.negative_int_value; } if ("double_value" in data && data.double_value != undefined) { this.double_value = data.double_value; } if ("string_value" in data && data.string_value != undefined) { this.string_value = data.string_value; } if ("aggregate_value" in data && data.aggregate_value != undefined) { this.aggregate_value = data.aggregate_value; } } } get name() { return pb_1.Message.getRepeatedWrapperField(this, UninterpretedOption.NamePart, 2) as UninterpretedOption.NamePart[]; } set name(value: UninterpretedOption.NamePart[]) { pb_1.Message.setRepeatedWrapperField(this, 2, value); } get identifier_value() { return pb_1.Message.getField(this, 3) as string; } set identifier_value(value: string) { pb_1.Message.setField(this, 3, value); } get positive_int_value() { return pb_1.Message.getField(this, 4) as number; } set positive_int_value(value: number) { pb_1.Message.setField(this, 4, value); } get negative_int_value() { return pb_1.Message.getField(this, 5) as number; } set negative_int_value(value: number) { pb_1.Message.setField(this, 5, value); } get double_value() { return pb_1.Message.getField(this, 6) as number; } set double_value(value: number) { pb_1.Message.setField(this, 6, value); } get string_value() { return pb_1.Message.getField(this, 7) as Uint8Array; } set string_value(value: Uint8Array) { pb_1.Message.setField(this, 7, value); } get aggregate_value() { return pb_1.Message.getField(this, 8) as string; } set aggregate_value(value: string) { pb_1.Message.setField(this, 8, value); } static fromObject(data: { name: ReturnType[]; identifier_value?: string; positive_int_value?: number; negative_int_value?: number; double_value?: number; string_value?: Uint8Array; aggregate_value?: string; }) { const message = new UninterpretedOption({ name: data.name.map(item => UninterpretedOption.NamePart.fromObject(item)) }); if (data.identifier_value != null) { message.identifier_value = data.identifier_value; } if (data.positive_int_value != null) { message.positive_int_value = data.positive_int_value; } if (data.negative_int_value != null) { message.negative_int_value = data.negative_int_value; } if (data.double_value != null) { message.double_value = data.double_value; } if (data.string_value != null) { message.string_value = data.string_value; } if (data.aggregate_value != null) { message.aggregate_value = data.aggregate_value; } return message; } toObject() { const data: { name: ReturnType[]; identifier_value?: string; positive_int_value?: number; negative_int_value?: number; double_value?: number; string_value?: Uint8Array; aggregate_value?: string; } = { name: this.name.map((item: UninterpretedOption.NamePart) => item.toObject()) }; if (this.identifier_value != null) { data.identifier_value = this.identifier_value; } if (this.positive_int_value != null) { data.positive_int_value = this.positive_int_value; } if (this.negative_int_value != null) { data.negative_int_value = this.negative_int_value; } if (this.double_value != null) { data.double_value = this.double_value; } if (this.string_value != null) { data.string_value = this.string_value; } if (this.aggregate_value != null) { data.aggregate_value = this.aggregate_value; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.name !== undefined) writer.writeRepeatedMessage(2, this.name, (item: UninterpretedOption.NamePart) => item.serialize(writer)); if (typeof this.identifier_value === "string" && this.identifier_value.length) writer.writeString(3, this.identifier_value); if (this.positive_int_value !== undefined) writer.writeUint64(4, this.positive_int_value); if (this.negative_int_value !== undefined) writer.writeInt64(5, this.negative_int_value); if (this.double_value !== undefined) writer.writeDouble(6, this.double_value); if (this.string_value !== undefined) writer.writeBytes(7, this.string_value); if (typeof this.aggregate_value === "string" && this.aggregate_value.length) writer.writeString(8, this.aggregate_value); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): UninterpretedOption { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new UninterpretedOption(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 2: reader.readMessage(message.name, () => pb_1.Message.addToRepeatedWrapperField(message, 2, UninterpretedOption.NamePart.deserialize(reader), UninterpretedOption.NamePart)); break; case 3: message.identifier_value = reader.readString(); break; case 4: message.positive_int_value = reader.readUint64(); break; case 5: message.negative_int_value = reader.readInt64(); break; case 6: message.double_value = reader.readDouble(); break; case 7: message.string_value = reader.readBytes(); break; case 8: message.aggregate_value = reader.readString(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): UninterpretedOption { return UninterpretedOption.deserialize(bytes); } } export namespace UninterpretedOption { export class NamePart extends pb_1.Message { constructor(data?: any[] | { name_part: string; is_extension: boolean; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], []); if (!Array.isArray(data) && typeof data == "object") { this.name_part = data.name_part; this.is_extension = data.is_extension; } } get name_part() { return pb_1.Message.getField(this, 1) as string; } set name_part(value: string) { pb_1.Message.setField(this, 1, value); } get is_extension() { return pb_1.Message.getField(this, 2) as boolean; } set is_extension(value: boolean) { pb_1.Message.setField(this, 2, value); } static fromObject(data: { name_part: string; is_extension: boolean; }) { const message = new NamePart({ name_part: data.name_part, is_extension: data.is_extension }); return message; } toObject() { const data: { name_part: string; is_extension: boolean; } = { name_part: this.name_part, is_extension: this.is_extension }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (typeof this.name_part === "string" && this.name_part.length) writer.writeString(1, this.name_part); if (this.is_extension !== undefined) writer.writeBool(2, this.is_extension); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): NamePart { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new NamePart(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.name_part = reader.readString(); break; case 2: message.is_extension = reader.readBool(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): NamePart { return NamePart.deserialize(bytes); } } } export class SourceCodeInfo extends pb_1.Message { constructor(data?: any[] | { location: SourceCodeInfo.Location[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], []); if (!Array.isArray(data) && typeof data == "object") { this.location = data.location; } } get location() { return pb_1.Message.getRepeatedWrapperField(this, SourceCodeInfo.Location, 1) as SourceCodeInfo.Location[]; } set location(value: SourceCodeInfo.Location[]) { pb_1.Message.setRepeatedWrapperField(this, 1, value); } static fromObject(data: { location: ReturnType[]; }) { const message = new SourceCodeInfo({ location: data.location.map(item => SourceCodeInfo.Location.fromObject(item)) }); return message; } toObject() { const data: { location: ReturnType[]; } = { location: this.location.map((item: SourceCodeInfo.Location) => item.toObject()) }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.location !== undefined) writer.writeRepeatedMessage(1, this.location, (item: SourceCodeInfo.Location) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): SourceCodeInfo { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new SourceCodeInfo(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: reader.readMessage(message.location, () => pb_1.Message.addToRepeatedWrapperField(message, 1, SourceCodeInfo.Location.deserialize(reader), SourceCodeInfo.Location)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): SourceCodeInfo { return SourceCodeInfo.deserialize(bytes); } } export namespace SourceCodeInfo { export class Location extends pb_1.Message { constructor(data?: any[] | { path: number[]; span: number[]; leading_comments?: string; trailing_comments?: string; leading_detached_comments: string[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1, 2, 6], []); if (!Array.isArray(data) && typeof data == "object") { this.path = data.path; this.span = data.span; if ("leading_comments" in data && data.leading_comments != undefined) { this.leading_comments = data.leading_comments; } if ("trailing_comments" in data && data.trailing_comments != undefined) { this.trailing_comments = data.trailing_comments; } this.leading_detached_comments = data.leading_detached_comments; } } get path() { return pb_1.Message.getField(this, 1) as number[]; } set path(value: number[]) { pb_1.Message.setField(this, 1, value); } get span() { return pb_1.Message.getField(this, 2) as number[]; } set span(value: number[]) { pb_1.Message.setField(this, 2, value); } get leading_comments() { return pb_1.Message.getField(this, 3) as string; } set leading_comments(value: string) { pb_1.Message.setField(this, 3, value); } get trailing_comments() { return pb_1.Message.getField(this, 4) as string; } set trailing_comments(value: string) { pb_1.Message.setField(this, 4, value); } get leading_detached_comments() { return pb_1.Message.getField(this, 6) as string[]; } set leading_detached_comments(value: string[]) { pb_1.Message.setField(this, 6, value); } static fromObject(data: { path: number[]; span: number[]; leading_comments?: string; trailing_comments?: string; leading_detached_comments: string[]; }) { const message = new Location({ path: data.path, span: data.span, leading_detached_comments: data.leading_detached_comments }); if (data.leading_comments != null) { message.leading_comments = data.leading_comments; } if (data.trailing_comments != null) { message.trailing_comments = data.trailing_comments; } return message; } toObject() { const data: { path: number[]; span: number[]; leading_comments?: string; trailing_comments?: string; leading_detached_comments: string[]; } = { path: this.path, span: this.span, leading_detached_comments: this.leading_detached_comments }; if (this.leading_comments != null) { data.leading_comments = this.leading_comments; } if (this.trailing_comments != null) { data.trailing_comments = this.trailing_comments; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.path !== undefined) writer.writePackedInt32(1, this.path); if (this.span !== undefined) writer.writePackedInt32(2, this.span); if (typeof this.leading_comments === "string" && this.leading_comments.length) writer.writeString(3, this.leading_comments); if (typeof this.trailing_comments === "string" && this.trailing_comments.length) writer.writeString(4, this.trailing_comments); if (this.leading_detached_comments !== undefined) writer.writeRepeatedString(6, this.leading_detached_comments); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): Location { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new Location(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.path = reader.readPackedInt32(); break; case 2: message.span = reader.readPackedInt32(); break; case 3: message.leading_comments = reader.readString(); break; case 4: message.trailing_comments = reader.readString(); break; case 6: pb_1.Message.addToRepeatedField(message, 6, reader.readString()); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): Location { return Location.deserialize(bytes); } } } export class GeneratedCodeInfo extends pb_1.Message { constructor(data?: any[] | { annotation: GeneratedCodeInfo.Annotation[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], []); if (!Array.isArray(data) && typeof data == "object") { this.annotation = data.annotation; } } get annotation() { return pb_1.Message.getRepeatedWrapperField(this, GeneratedCodeInfo.Annotation, 1) as GeneratedCodeInfo.Annotation[]; } set annotation(value: GeneratedCodeInfo.Annotation[]) { pb_1.Message.setRepeatedWrapperField(this, 1, value); } static fromObject(data: { annotation: ReturnType[]; }) { const message = new GeneratedCodeInfo({ annotation: data.annotation.map(item => GeneratedCodeInfo.Annotation.fromObject(item)) }); return message; } toObject() { const data: { annotation: ReturnType[]; } = { annotation: this.annotation.map((item: GeneratedCodeInfo.Annotation) => item.toObject()) }; return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.annotation !== undefined) writer.writeRepeatedMessage(1, this.annotation, (item: GeneratedCodeInfo.Annotation) => item.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): GeneratedCodeInfo { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new GeneratedCodeInfo(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: reader.readMessage(message.annotation, () => pb_1.Message.addToRepeatedWrapperField(message, 1, GeneratedCodeInfo.Annotation.deserialize(reader), GeneratedCodeInfo.Annotation)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): GeneratedCodeInfo { return GeneratedCodeInfo.deserialize(bytes); } } export namespace GeneratedCodeInfo { export class Annotation extends pb_1.Message { constructor(data?: any[] | { path: number[]; source_file?: string; begin?: number; end?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], []); if (!Array.isArray(data) && typeof data == "object") { this.path = data.path; if ("source_file" in data && data.source_file != undefined) { this.source_file = data.source_file; } if ("begin" in data && data.begin != undefined) { this.begin = data.begin; } if ("end" in data && data.end != undefined) { this.end = data.end; } } } get path() { return pb_1.Message.getField(this, 1) as number[]; } set path(value: number[]) { pb_1.Message.setField(this, 1, value); } get source_file() { return pb_1.Message.getField(this, 2) as string; } set source_file(value: string) { pb_1.Message.setField(this, 2, value); } get begin() { return pb_1.Message.getField(this, 3) as number; } set begin(value: number) { pb_1.Message.setField(this, 3, value); } get end() { return pb_1.Message.getField(this, 4) as number; } set end(value: number) { pb_1.Message.setField(this, 4, value); } static fromObject(data: { path: number[]; source_file?: string; begin?: number; end?: number; }) { const message = new Annotation({ path: data.path }); if (data.source_file != null) { message.source_file = data.source_file; } if (data.begin != null) { message.begin = data.begin; } if (data.end != null) { message.end = data.end; } return message; } toObject() { const data: { path: number[]; source_file?: string; begin?: number; end?: number; } = { path: this.path }; if (this.source_file != null) { data.source_file = this.source_file; } if (this.begin != null) { data.begin = this.begin; } if (this.end != null) { data.end = this.end; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.path !== undefined) writer.writePackedInt32(1, this.path); if (typeof this.source_file === "string" && this.source_file.length) writer.writeString(2, this.source_file); if (this.begin !== undefined) writer.writeInt32(3, this.begin); if (this.end !== undefined) writer.writeInt32(4, this.end); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): Annotation { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new Annotation(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.path = reader.readPackedInt32(); break; case 2: message.source_file = reader.readString(); break; case 3: message.begin = reader.readInt32(); break; case 4: message.end = reader.readInt32(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): Annotation { return Annotation.deserialize(bytes); } } } }