/** * Generated by the protoc-gen-ts. DO NOT EDIT! * compiler version: 3.19.1 * source: google/firestore/v1/common.proto * git: https://github.com/thesayyn/protoc-gen-ts */ import * as dependency_1 from "./../../protobuf/timestamp"; import * as pb_1 from "google-protobuf"; export class DocumentMask extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { field_paths?: string[]; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("field_paths" in data && data.field_paths != undefined) { this.field_paths = data.field_paths; } } } get field_paths() { return pb_1.Message.getFieldWithDefault(this, 1, []) as string[]; } set field_paths(value: string[]) { pb_1.Message.setField(this, 1, value); } static fromObject(data: { field_paths?: string[]; }): DocumentMask { const message = new DocumentMask({}); if (data.field_paths != null) { message.field_paths = data.field_paths; } return message; } toObject() { const data: { field_paths?: string[]; } = {}; if (this.field_paths != null) { data.field_paths = this.field_paths; } 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.field_paths.length) writer.writeRepeatedString(1, this.field_paths); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): DocumentMask { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new DocumentMask(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: pb_1.Message.addToRepeatedField(message, 1, reader.readString()); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static override deserializeBinary(bytes: Uint8Array): DocumentMask { return DocumentMask.deserialize(bytes); } } export class Precondition extends pb_1.Message { #one_of_decls: number[][] = [[1, 2]]; constructor(data?: any[] | ({} & (({ exists?: boolean; update_time?: never; } | { exists?: never; update_time?: dependency_1.Timestamp; })))) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("exists" in data && data.exists != undefined) { this.exists = data.exists; } if ("update_time" in data && data.update_time != undefined) { this.update_time = data.update_time; } } } get exists() { return pb_1.Message.getFieldWithDefault(this, 1, false) as boolean; } set exists(value: boolean) { pb_1.Message.setOneofField(this, 1, this.#one_of_decls[0], value); } get has_exists() { return pb_1.Message.getField(this, 1) != null; } get update_time() { return pb_1.Message.getWrapperField(this, dependency_1.Timestamp, 2) as dependency_1.Timestamp; } set update_time(value: dependency_1.Timestamp) { pb_1.Message.setOneofWrapperField(this, 2, this.#one_of_decls[0], value); } get has_update_time() { return pb_1.Message.getField(this, 2) != null; } get condition_type() { const cases: { [index: number]: "none" | "exists" | "update_time"; } = { 0: "none", 1: "exists", 2: "update_time" }; return cases[pb_1.Message.computeOneofCase(this, [1, 2])]; } static fromObject(data: { exists?: boolean; update_time?: ReturnType; }): Precondition { const message = new Precondition({}); if (data.exists != null) { message.exists = data.exists; } if (data.update_time != null) { message.update_time = dependency_1.Timestamp.fromObject(data.update_time); } return message; } toObject() { const data: { exists?: boolean; update_time?: ReturnType; } = {}; if (this.exists != null) { data.exists = this.exists; } if (this.update_time != null) { data.update_time = this.update_time.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.has_exists) writer.writeBool(1, this.exists); if (this.has_update_time) writer.writeMessage(2, this.update_time, () => this.update_time.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): Precondition { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new Precondition(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.exists = reader.readBool(); break; case 2: reader.readMessage(message.update_time, () => message.update_time = dependency_1.Timestamp.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static override deserializeBinary(bytes: Uint8Array): Precondition { return Precondition.deserialize(bytes); } } export class TransactionOptions extends pb_1.Message { #one_of_decls: number[][] = [[2, 3]]; constructor(data?: any[] | ({} & (({ read_only?: TransactionOptionsReadOnly; read_write?: never; } | { read_only?: never; read_write?: TransactionOptionsReadWrite; })))) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("read_only" in data && data.read_only != undefined) { this.read_only = data.read_only; } if ("read_write" in data && data.read_write != undefined) { this.read_write = data.read_write; } } } get read_only() { return pb_1.Message.getWrapperField(this, TransactionOptionsReadOnly, 2) as TransactionOptionsReadOnly; } set read_only(value: TransactionOptionsReadOnly) { pb_1.Message.setOneofWrapperField(this, 2, this.#one_of_decls[0], value); } get has_read_only() { return pb_1.Message.getField(this, 2) != null; } get read_write() { return pb_1.Message.getWrapperField(this, TransactionOptionsReadWrite, 3) as TransactionOptionsReadWrite; } set read_write(value: TransactionOptionsReadWrite) { pb_1.Message.setOneofWrapperField(this, 3, this.#one_of_decls[0], value); } get has_read_write() { return pb_1.Message.getField(this, 3) != null; } get mode() { const cases: { [index: number]: "none" | "read_only" | "read_write"; } = { 0: "none", 2: "read_only", 3: "read_write" }; return cases[pb_1.Message.computeOneofCase(this, [2, 3])]; } static fromObject(data: { read_only?: ReturnType; read_write?: ReturnType; }): TransactionOptions { const message = new TransactionOptions({}); if (data.read_only != null) { message.read_only = TransactionOptionsReadOnly.fromObject(data.read_only); } if (data.read_write != null) { message.read_write = TransactionOptionsReadWrite.fromObject(data.read_write); } return message; } toObject() { const data: { read_only?: ReturnType; read_write?: ReturnType; } = {}; if (this.read_only != null) { data.read_only = this.read_only.toObject(); } if (this.read_write != null) { data.read_write = this.read_write.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.has_read_only) writer.writeMessage(2, this.read_only, () => this.read_only.serialize(writer)); if (this.has_read_write) writer.writeMessage(3, this.read_write, () => this.read_write.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): TransactionOptions { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new TransactionOptions(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 2: reader.readMessage(message.read_only, () => message.read_only = TransactionOptionsReadOnly.deserialize(reader)); break; case 3: reader.readMessage(message.read_write, () => message.read_write = TransactionOptionsReadWrite.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static override deserializeBinary(bytes: Uint8Array): TransactionOptions { return TransactionOptions.deserialize(bytes); } } export class TransactionOptionsReadWrite extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { retry_transaction?: Uint8Array; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("retry_transaction" in data && data.retry_transaction != undefined) { this.retry_transaction = data.retry_transaction; } } } get retry_transaction() { return pb_1.Message.getFieldWithDefault(this, 1, new Uint8Array(0)) as Uint8Array; } set retry_transaction(value: Uint8Array) { pb_1.Message.setField(this, 1, value); } static fromObject(data: { retry_transaction?: Uint8Array; }): TransactionOptionsReadWrite { const message = new TransactionOptionsReadWrite({}); if (data.retry_transaction != null) { message.retry_transaction = data.retry_transaction; } return message; } toObject() { const data: { retry_transaction?: Uint8Array; } = {}; if (this.retry_transaction != null) { data.retry_transaction = this.retry_transaction; } 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.retry_transaction.length) writer.writeBytes(1, this.retry_transaction); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): TransactionOptionsReadWrite { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new TransactionOptionsReadWrite(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.retry_transaction = reader.readBytes(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static override deserializeBinary(bytes: Uint8Array): TransactionOptionsReadWrite { return TransactionOptionsReadWrite.deserialize(bytes); } } export class TransactionOptionsReadOnly extends pb_1.Message { #one_of_decls: number[][] = [[2]]; constructor(data?: any[] | ({} & (({ read_time?: dependency_1.Timestamp; })))) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("read_time" in data && data.read_time != undefined) { this.read_time = data.read_time; } } } get read_time() { return pb_1.Message.getWrapperField(this, dependency_1.Timestamp, 2) as dependency_1.Timestamp; } set read_time(value: dependency_1.Timestamp) { pb_1.Message.setOneofWrapperField(this, 2, this.#one_of_decls[0], value); } get has_read_time() { return pb_1.Message.getField(this, 2) != null; } get consistency_selector() { const cases: { [index: number]: "none" | "read_time"; } = { 0: "none", 2: "read_time" }; return cases[pb_1.Message.computeOneofCase(this, [2])]; } static fromObject(data: { read_time?: ReturnType; }): TransactionOptionsReadOnly { const message = new TransactionOptionsReadOnly({}); if (data.read_time != null) { message.read_time = dependency_1.Timestamp.fromObject(data.read_time); } return message; } toObject() { const data: { read_time?: ReturnType; } = {}; if (this.read_time != null) { data.read_time = this.read_time.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.has_read_time) writer.writeMessage(2, this.read_time, () => this.read_time.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): TransactionOptionsReadOnly { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new TransactionOptionsReadOnly(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 2: reader.readMessage(message.read_time, () => message.read_time = dependency_1.Timestamp.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static override deserializeBinary(bytes: Uint8Array): TransactionOptionsReadOnly { return TransactionOptionsReadOnly.deserialize(bytes); } }