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Swiftgram/submodules/TelegramApi/Sources/Api24.swift
Ali c0dbb68a3c [WIP] Folders
2023-03-21 23:38:48 +04:00

1187 lines
48 KiB
Swift
Raw Blame History

public extension Api.auth {
enum CodeType: TypeConstructorDescription {
case codeTypeCall
case codeTypeFlashCall
case codeTypeFragmentSms
case codeTypeMissedCall
case codeTypeSms
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .codeTypeCall:
if boxed {
buffer.appendInt32(1948046307)
}
break
case .codeTypeFlashCall:
if boxed {
buffer.appendInt32(577556219)
}
break
case .codeTypeFragmentSms:
if boxed {
buffer.appendInt32(116234636)
}
break
case .codeTypeMissedCall:
if boxed {
buffer.appendInt32(-702884114)
}
break
case .codeTypeSms:
if boxed {
buffer.appendInt32(1923290508)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .codeTypeCall:
return ("codeTypeCall", [])
case .codeTypeFlashCall:
return ("codeTypeFlashCall", [])
case .codeTypeFragmentSms:
return ("codeTypeFragmentSms", [])
case .codeTypeMissedCall:
return ("codeTypeMissedCall", [])
case .codeTypeSms:
return ("codeTypeSms", [])
}
}
public static func parse_codeTypeCall(_ reader: BufferReader) -> CodeType? {
return Api.auth.CodeType.codeTypeCall
}
public static func parse_codeTypeFlashCall(_ reader: BufferReader) -> CodeType? {
return Api.auth.CodeType.codeTypeFlashCall
}
public static func parse_codeTypeFragmentSms(_ reader: BufferReader) -> CodeType? {
return Api.auth.CodeType.codeTypeFragmentSms
}
public static func parse_codeTypeMissedCall(_ reader: BufferReader) -> CodeType? {
return Api.auth.CodeType.codeTypeMissedCall
}
public static func parse_codeTypeSms(_ reader: BufferReader) -> CodeType? {
return Api.auth.CodeType.codeTypeSms
}
}
}
public extension Api.auth {
enum ExportedAuthorization: TypeConstructorDescription {
case exportedAuthorization(id: Int64, bytes: Buffer)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .exportedAuthorization(let id, let bytes):
if boxed {
buffer.appendInt32(-1271602504)
}
serializeInt64(id, buffer: buffer, boxed: false)
serializeBytes(bytes, buffer: buffer, boxed: false)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .exportedAuthorization(let id, let bytes):
return ("exportedAuthorization", [("id", id as Any), ("bytes", bytes as Any)])
}
}
public static func parse_exportedAuthorization(_ reader: BufferReader) -> ExportedAuthorization? {
var _1: Int64?
_1 = reader.readInt64()
var _2: Buffer?
_2 = parseBytes(reader)
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.auth.ExportedAuthorization.exportedAuthorization(id: _1!, bytes: _2!)
}
else {
return nil
}
}
}
}
public extension Api.auth {
enum LoggedOut: TypeConstructorDescription {
case loggedOut(flags: Int32, futureAuthToken: Buffer?)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .loggedOut(let flags, let futureAuthToken):
if boxed {
buffer.appendInt32(-1012759713)
}
serializeInt32(flags, buffer: buffer, boxed: false)
if Int(flags) & Int(1 << 0) != 0 {serializeBytes(futureAuthToken!, buffer: buffer, boxed: false)}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .loggedOut(let flags, let futureAuthToken):
return ("loggedOut", [("flags", flags as Any), ("futureAuthToken", futureAuthToken as Any)])
}
}
public static func parse_loggedOut(_ reader: BufferReader) -> LoggedOut? {
var _1: Int32?
_1 = reader.readInt32()
var _2: Buffer?
if Int(_1!) & Int(1 << 0) != 0 {_2 = parseBytes(reader) }
let _c1 = _1 != nil
let _c2 = (Int(_1!) & Int(1 << 0) == 0) || _2 != nil
if _c1 && _c2 {
return Api.auth.LoggedOut.loggedOut(flags: _1!, futureAuthToken: _2)
}
else {
return nil
}
}
}
}
public extension Api.auth {
enum LoginToken: TypeConstructorDescription {
case loginToken(expires: Int32, token: Buffer)
case loginTokenMigrateTo(dcId: Int32, token: Buffer)
case loginTokenSuccess(authorization: Api.auth.Authorization)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .loginToken(let expires, let token):
if boxed {
buffer.appendInt32(1654593920)
}
serializeInt32(expires, buffer: buffer, boxed: false)
serializeBytes(token, buffer: buffer, boxed: false)
break
case .loginTokenMigrateTo(let dcId, let token):
if boxed {
buffer.appendInt32(110008598)
}
serializeInt32(dcId, buffer: buffer, boxed: false)
serializeBytes(token, buffer: buffer, boxed: false)
break
case .loginTokenSuccess(let authorization):
if boxed {
buffer.appendInt32(957176926)
}
authorization.serialize(buffer, true)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .loginToken(let expires, let token):
return ("loginToken", [("expires", expires as Any), ("token", token as Any)])
case .loginTokenMigrateTo(let dcId, let token):
return ("loginTokenMigrateTo", [("dcId", dcId as Any), ("token", token as Any)])
case .loginTokenSuccess(let authorization):
return ("loginTokenSuccess", [("authorization", authorization as Any)])
}
}
public static func parse_loginToken(_ reader: BufferReader) -> LoginToken? {
var _1: Int32?
_1 = reader.readInt32()
var _2: Buffer?
_2 = parseBytes(reader)
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.auth.LoginToken.loginToken(expires: _1!, token: _2!)
}
else {
return nil
}
}
public static func parse_loginTokenMigrateTo(_ reader: BufferReader) -> LoginToken? {
var _1: Int32?
_1 = reader.readInt32()
var _2: Buffer?
_2 = parseBytes(reader)
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.auth.LoginToken.loginTokenMigrateTo(dcId: _1!, token: _2!)
}
else {
return nil
}
}
public static func parse_loginTokenSuccess(_ reader: BufferReader) -> LoginToken? {
var _1: Api.auth.Authorization?
if let signature = reader.readInt32() {
_1 = Api.parse(reader, signature: signature) as? Api.auth.Authorization
}
let _c1 = _1 != nil
if _c1 {
return Api.auth.LoginToken.loginTokenSuccess(authorization: _1!)
}
else {
return nil
}
}
}
}
public extension Api.auth {
enum PasswordRecovery: TypeConstructorDescription {
case passwordRecovery(emailPattern: String)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .passwordRecovery(let emailPattern):
if boxed {
buffer.appendInt32(326715557)
}
serializeString(emailPattern, buffer: buffer, boxed: false)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .passwordRecovery(let emailPattern):
return ("passwordRecovery", [("emailPattern", emailPattern as Any)])
}
}
public static func parse_passwordRecovery(_ reader: BufferReader) -> PasswordRecovery? {
var _1: String?
_1 = parseString(reader)
let _c1 = _1 != nil
if _c1 {
return Api.auth.PasswordRecovery.passwordRecovery(emailPattern: _1!)
}
else {
return nil
}
}
}
}
public extension Api.auth {
enum SentCode: TypeConstructorDescription {
case sentCode(flags: Int32, type: Api.auth.SentCodeType, phoneCodeHash: String, nextType: Api.auth.CodeType?, timeout: Int32?)
case sentCodeSuccess(authorization: Api.auth.Authorization)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .sentCode(let flags, let type, let phoneCodeHash, let nextType, let timeout):
if boxed {
buffer.appendInt32(1577067778)
}
serializeInt32(flags, buffer: buffer, boxed: false)
type.serialize(buffer, true)
serializeString(phoneCodeHash, buffer: buffer, boxed: false)
if Int(flags) & Int(1 << 1) != 0 {nextType!.serialize(buffer, true)}
if Int(flags) & Int(1 << 2) != 0 {serializeInt32(timeout!, buffer: buffer, boxed: false)}
break
case .sentCodeSuccess(let authorization):
if boxed {
buffer.appendInt32(596704836)
}
authorization.serialize(buffer, true)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .sentCode(let flags, let type, let phoneCodeHash, let nextType, let timeout):
return ("sentCode", [("flags", flags as Any), ("type", type as Any), ("phoneCodeHash", phoneCodeHash as Any), ("nextType", nextType as Any), ("timeout", timeout as Any)])
case .sentCodeSuccess(let authorization):
return ("sentCodeSuccess", [("authorization", authorization as Any)])
}
}
public static func parse_sentCode(_ reader: BufferReader) -> SentCode? {
var _1: Int32?
_1 = reader.readInt32()
var _2: Api.auth.SentCodeType?
if let signature = reader.readInt32() {
_2 = Api.parse(reader, signature: signature) as? Api.auth.SentCodeType
}
var _3: String?
_3 = parseString(reader)
var _4: Api.auth.CodeType?
if Int(_1!) & Int(1 << 1) != 0 {if let signature = reader.readInt32() {
_4 = Api.parse(reader, signature: signature) as? Api.auth.CodeType
} }
var _5: Int32?
if Int(_1!) & Int(1 << 2) != 0 {_5 = reader.readInt32() }
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = (Int(_1!) & Int(1 << 1) == 0) || _4 != nil
let _c5 = (Int(_1!) & Int(1 << 2) == 0) || _5 != nil
if _c1 && _c2 && _c3 && _c4 && _c5 {
return Api.auth.SentCode.sentCode(flags: _1!, type: _2!, phoneCodeHash: _3!, nextType: _4, timeout: _5)
}
else {
return nil
}
}
public static func parse_sentCodeSuccess(_ reader: BufferReader) -> SentCode? {
var _1: Api.auth.Authorization?
if let signature = reader.readInt32() {
_1 = Api.parse(reader, signature: signature) as? Api.auth.Authorization
}
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCode.sentCodeSuccess(authorization: _1!)
}
else {
return nil
}
}
}
}
public extension Api.auth {
enum SentCodeType: TypeConstructorDescription {
case sentCodeTypeApp(length: Int32)
case sentCodeTypeCall(length: Int32)
case sentCodeTypeEmailCode(flags: Int32, emailPattern: String, length: Int32, resetAvailablePeriod: Int32?, resetPendingDate: Int32?)
case sentCodeTypeFirebaseSms(flags: Int32, nonce: Buffer?, receipt: String?, pushTimeout: Int32?, length: Int32)
case sentCodeTypeFlashCall(pattern: String)
case sentCodeTypeFragmentSms(url: String, length: Int32)
case sentCodeTypeMissedCall(prefix: String, length: Int32)
case sentCodeTypeSetUpEmailRequired(flags: Int32)
case sentCodeTypeSms(length: Int32)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .sentCodeTypeApp(let length):
if boxed {
buffer.appendInt32(1035688326)
}
serializeInt32(length, buffer: buffer, boxed: false)
break
case .sentCodeTypeCall(let length):
if boxed {
buffer.appendInt32(1398007207)
}
serializeInt32(length, buffer: buffer, boxed: false)
break
case .sentCodeTypeEmailCode(let flags, let emailPattern, let length, let resetAvailablePeriod, let resetPendingDate):
if boxed {
buffer.appendInt32(-196020837)
}
serializeInt32(flags, buffer: buffer, boxed: false)
serializeString(emailPattern, buffer: buffer, boxed: false)
serializeInt32(length, buffer: buffer, boxed: false)
if Int(flags) & Int(1 << 3) != 0 {serializeInt32(resetAvailablePeriod!, buffer: buffer, boxed: false)}
if Int(flags) & Int(1 << 4) != 0 {serializeInt32(resetPendingDate!, buffer: buffer, boxed: false)}
break
case .sentCodeTypeFirebaseSms(let flags, let nonce, let receipt, let pushTimeout, let length):
if boxed {
buffer.appendInt32(-444918734)
}
serializeInt32(flags, buffer: buffer, boxed: false)
if Int(flags) & Int(1 << 0) != 0 {serializeBytes(nonce!, buffer: buffer, boxed: false)}
if Int(flags) & Int(1 << 1) != 0 {serializeString(receipt!, buffer: buffer, boxed: false)}
if Int(flags) & Int(1 << 1) != 0 {serializeInt32(pushTimeout!, buffer: buffer, boxed: false)}
serializeInt32(length, buffer: buffer, boxed: false)
break
case .sentCodeTypeFlashCall(let pattern):
if boxed {
buffer.appendInt32(-1425815847)
}
serializeString(pattern, buffer: buffer, boxed: false)
break
case .sentCodeTypeFragmentSms(let url, let length):
if boxed {
buffer.appendInt32(-648651719)
}
serializeString(url, buffer: buffer, boxed: false)
serializeInt32(length, buffer: buffer, boxed: false)
break
case .sentCodeTypeMissedCall(let prefix, let length):
if boxed {
buffer.appendInt32(-2113903484)
}
serializeString(prefix, buffer: buffer, boxed: false)
serializeInt32(length, buffer: buffer, boxed: false)
break
case .sentCodeTypeSetUpEmailRequired(let flags):
if boxed {
buffer.appendInt32(-1521934870)
}
serializeInt32(flags, buffer: buffer, boxed: false)
break
case .sentCodeTypeSms(let length):
if boxed {
buffer.appendInt32(-1073693790)
}
serializeInt32(length, buffer: buffer, boxed: false)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .sentCodeTypeApp(let length):
return ("sentCodeTypeApp", [("length", length as Any)])
case .sentCodeTypeCall(let length):
return ("sentCodeTypeCall", [("length", length as Any)])
case .sentCodeTypeEmailCode(let flags, let emailPattern, let length, let resetAvailablePeriod, let resetPendingDate):
return ("sentCodeTypeEmailCode", [("flags", flags as Any), ("emailPattern", emailPattern as Any), ("length", length as Any), ("resetAvailablePeriod", resetAvailablePeriod as Any), ("resetPendingDate", resetPendingDate as Any)])
case .sentCodeTypeFirebaseSms(let flags, let nonce, let receipt, let pushTimeout, let length):
return ("sentCodeTypeFirebaseSms", [("flags", flags as Any), ("nonce", nonce as Any), ("receipt", receipt as Any), ("pushTimeout", pushTimeout as Any), ("length", length as Any)])
case .sentCodeTypeFlashCall(let pattern):
return ("sentCodeTypeFlashCall", [("pattern", pattern as Any)])
case .sentCodeTypeFragmentSms(let url, let length):
return ("sentCodeTypeFragmentSms", [("url", url as Any), ("length", length as Any)])
case .sentCodeTypeMissedCall(let prefix, let length):
return ("sentCodeTypeMissedCall", [("prefix", prefix as Any), ("length", length as Any)])
case .sentCodeTypeSetUpEmailRequired(let flags):
return ("sentCodeTypeSetUpEmailRequired", [("flags", flags as Any)])
case .sentCodeTypeSms(let length):
return ("sentCodeTypeSms", [("length", length as Any)])
}
}
public static func parse_sentCodeTypeApp(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCodeType.sentCodeTypeApp(length: _1!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeCall(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCodeType.sentCodeTypeCall(length: _1!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeEmailCode(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
var _2: String?
_2 = parseString(reader)
var _3: Int32?
_3 = reader.readInt32()
var _4: Int32?
if Int(_1!) & Int(1 << 3) != 0 {_4 = reader.readInt32() }
var _5: Int32?
if Int(_1!) & Int(1 << 4) != 0 {_5 = reader.readInt32() }
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = (Int(_1!) & Int(1 << 3) == 0) || _4 != nil
let _c5 = (Int(_1!) & Int(1 << 4) == 0) || _5 != nil
if _c1 && _c2 && _c3 && _c4 && _c5 {
return Api.auth.SentCodeType.sentCodeTypeEmailCode(flags: _1!, emailPattern: _2!, length: _3!, resetAvailablePeriod: _4, resetPendingDate: _5)
}
else {
return nil
}
}
public static func parse_sentCodeTypeFirebaseSms(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
var _2: Buffer?
if Int(_1!) & Int(1 << 0) != 0 {_2 = parseBytes(reader) }
var _3: String?
if Int(_1!) & Int(1 << 1) != 0 {_3 = parseString(reader) }
var _4: Int32?
if Int(_1!) & Int(1 << 1) != 0 {_4 = reader.readInt32() }
var _5: Int32?
_5 = reader.readInt32()
let _c1 = _1 != nil
let _c2 = (Int(_1!) & Int(1 << 0) == 0) || _2 != nil
let _c3 = (Int(_1!) & Int(1 << 1) == 0) || _3 != nil
let _c4 = (Int(_1!) & Int(1 << 1) == 0) || _4 != nil
let _c5 = _5 != nil
if _c1 && _c2 && _c3 && _c4 && _c5 {
return Api.auth.SentCodeType.sentCodeTypeFirebaseSms(flags: _1!, nonce: _2, receipt: _3, pushTimeout: _4, length: _5!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeFlashCall(_ reader: BufferReader) -> SentCodeType? {
var _1: String?
_1 = parseString(reader)
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCodeType.sentCodeTypeFlashCall(pattern: _1!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeFragmentSms(_ reader: BufferReader) -> SentCodeType? {
var _1: String?
_1 = parseString(reader)
var _2: Int32?
_2 = reader.readInt32()
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.auth.SentCodeType.sentCodeTypeFragmentSms(url: _1!, length: _2!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeMissedCall(_ reader: BufferReader) -> SentCodeType? {
var _1: String?
_1 = parseString(reader)
var _2: Int32?
_2 = reader.readInt32()
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.auth.SentCodeType.sentCodeTypeMissedCall(prefix: _1!, length: _2!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeSetUpEmailRequired(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCodeType.sentCodeTypeSetUpEmailRequired(flags: _1!)
}
else {
return nil
}
}
public static func parse_sentCodeTypeSms(_ reader: BufferReader) -> SentCodeType? {
var _1: Int32?
_1 = reader.readInt32()
let _c1 = _1 != nil
if _c1 {
return Api.auth.SentCodeType.sentCodeTypeSms(length: _1!)
}
else {
return nil
}
}
}
}
public extension Api.channels {
enum AdminLogResults: TypeConstructorDescription {
case adminLogResults(events: [Api.ChannelAdminLogEvent], chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .adminLogResults(let events, let chats, let users):
if boxed {
buffer.appendInt32(-309659827)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(events.count))
for item in events {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .adminLogResults(let events, let chats, let users):
return ("adminLogResults", [("events", events as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_adminLogResults(_ reader: BufferReader) -> AdminLogResults? {
var _1: [Api.ChannelAdminLogEvent]?
if let _ = reader.readInt32() {
_1 = Api.parseVector(reader, elementSignature: 0, elementType: Api.ChannelAdminLogEvent.self)
}
var _2: [Api.Chat]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _3: [Api.User]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
if _c1 && _c2 && _c3 {
return Api.channels.AdminLogResults.adminLogResults(events: _1!, chats: _2!, users: _3!)
}
else {
return nil
}
}
}
}
public extension Api.channels {
enum ChannelParticipant: TypeConstructorDescription {
case channelParticipant(participant: Api.ChannelParticipant, chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .channelParticipant(let participant, let chats, let users):
if boxed {
buffer.appendInt32(-541588713)
}
participant.serialize(buffer, true)
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .channelParticipant(let participant, let chats, let users):
return ("channelParticipant", [("participant", participant as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_channelParticipant(_ reader: BufferReader) -> ChannelParticipant? {
var _1: Api.ChannelParticipant?
if let signature = reader.readInt32() {
_1 = Api.parse(reader, signature: signature) as? Api.ChannelParticipant
}
var _2: [Api.Chat]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _3: [Api.User]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
if _c1 && _c2 && _c3 {
return Api.channels.ChannelParticipant.channelParticipant(participant: _1!, chats: _2!, users: _3!)
}
else {
return nil
}
}
}
}
public extension Api.channels {
enum ChannelParticipants: TypeConstructorDescription {
case channelParticipants(count: Int32, participants: [Api.ChannelParticipant], chats: [Api.Chat], users: [Api.User])
case channelParticipantsNotModified
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .channelParticipants(let count, let participants, let chats, let users):
if boxed {
buffer.appendInt32(-1699676497)
}
serializeInt32(count, buffer: buffer, boxed: false)
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(participants.count))
for item in participants {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
case .channelParticipantsNotModified:
if boxed {
buffer.appendInt32(-266911767)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .channelParticipants(let count, let participants, let chats, let users):
return ("channelParticipants", [("count", count as Any), ("participants", participants as Any), ("chats", chats as Any), ("users", users as Any)])
case .channelParticipantsNotModified:
return ("channelParticipantsNotModified", [])
}
}
public static func parse_channelParticipants(_ reader: BufferReader) -> ChannelParticipants? {
var _1: Int32?
_1 = reader.readInt32()
var _2: [Api.ChannelParticipant]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.ChannelParticipant.self)
}
var _3: [Api.Chat]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _4: [Api.User]?
if let _ = reader.readInt32() {
_4 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = _4 != nil
if _c1 && _c2 && _c3 && _c4 {
return Api.channels.ChannelParticipants.channelParticipants(count: _1!, participants: _2!, chats: _3!, users: _4!)
}
else {
return nil
}
}
public static func parse_channelParticipantsNotModified(_ reader: BufferReader) -> ChannelParticipants? {
return Api.channels.ChannelParticipants.channelParticipantsNotModified
}
}
}
public extension Api.channels {
enum SendAsPeers: TypeConstructorDescription {
case sendAsPeers(peers: [Api.SendAsPeer], chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .sendAsPeers(let peers, let chats, let users):
if boxed {
buffer.appendInt32(-191450938)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(peers.count))
for item in peers {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .sendAsPeers(let peers, let chats, let users):
return ("sendAsPeers", [("peers", peers as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_sendAsPeers(_ reader: BufferReader) -> SendAsPeers? {
var _1: [Api.SendAsPeer]?
if let _ = reader.readInt32() {
_1 = Api.parseVector(reader, elementSignature: 0, elementType: Api.SendAsPeer.self)
}
var _2: [Api.Chat]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _3: [Api.User]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
if _c1 && _c2 && _c3 {
return Api.channels.SendAsPeers.sendAsPeers(peers: _1!, chats: _2!, users: _3!)
}
else {
return nil
}
}
}
}
public extension Api.communities {
enum ExportedCommunityInvite: TypeConstructorDescription {
case exportedCommunityInvite(filter: Api.DialogFilter, invite: Api.ExportedCommunityInvite)
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .exportedCommunityInvite(let filter, let invite):
if boxed {
buffer.appendInt32(1805101290)
}
filter.serialize(buffer, true)
invite.serialize(buffer, true)
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .exportedCommunityInvite(let filter, let invite):
return ("exportedCommunityInvite", [("filter", filter as Any), ("invite", invite as Any)])
}
}
public static func parse_exportedCommunityInvite(_ reader: BufferReader) -> ExportedCommunityInvite? {
var _1: Api.DialogFilter?
if let signature = reader.readInt32() {
_1 = Api.parse(reader, signature: signature) as? Api.DialogFilter
}
var _2: Api.ExportedCommunityInvite?
if let signature = reader.readInt32() {
_2 = Api.parse(reader, signature: signature) as? Api.ExportedCommunityInvite
}
let _c1 = _1 != nil
let _c2 = _2 != nil
if _c1 && _c2 {
return Api.communities.ExportedCommunityInvite.exportedCommunityInvite(filter: _1!, invite: _2!)
}
else {
return nil
}
}
}
}
public extension Api.communities {
enum ExportedInvites: TypeConstructorDescription {
case exportedInvites(invites: [Api.ExportedCommunityInvite], chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .exportedInvites(let invites, let chats, let users):
if boxed {
buffer.appendInt32(-2662489)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(invites.count))
for item in invites {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .exportedInvites(let invites, let chats, let users):
return ("exportedInvites", [("invites", invites as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_exportedInvites(_ reader: BufferReader) -> ExportedInvites? {
var _1: [Api.ExportedCommunityInvite]?
if let _ = reader.readInt32() {
_1 = Api.parseVector(reader, elementSignature: 0, elementType: Api.ExportedCommunityInvite.self)
}
var _2: [Api.Chat]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _3: [Api.User]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
if _c1 && _c2 && _c3 {
return Api.communities.ExportedInvites.exportedInvites(invites: _1!, chats: _2!, users: _3!)
}
else {
return nil
}
}
}
}
public extension Api.community {
enum CommunityInvite: TypeConstructorDescription {
case communityInvite(title: String, peers: [Api.Peer], chats: [Api.Chat], users: [Api.User])
case communityInviteAlready(filterId: Int32, missingPeers: [Api.Peer], chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .communityInvite(let title, let peers, let chats, let users):
if boxed {
buffer.appendInt32(988463765)
}
serializeString(title, buffer: buffer, boxed: false)
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(peers.count))
for item in peers {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
case .communityInviteAlready(let filterId, let missingPeers, let chats, let users):
if boxed {
buffer.appendInt32(74184410)
}
serializeInt32(filterId, buffer: buffer, boxed: false)
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(missingPeers.count))
for item in missingPeers {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .communityInvite(let title, let peers, let chats, let users):
return ("communityInvite", [("title", title as Any), ("peers", peers as Any), ("chats", chats as Any), ("users", users as Any)])
case .communityInviteAlready(let filterId, let missingPeers, let chats, let users):
return ("communityInviteAlready", [("filterId", filterId as Any), ("missingPeers", missingPeers as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_communityInvite(_ reader: BufferReader) -> CommunityInvite? {
var _1: String?
_1 = parseString(reader)
var _2: [Api.Peer]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Peer.self)
}
var _3: [Api.Chat]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _4: [Api.User]?
if let _ = reader.readInt32() {
_4 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = _4 != nil
if _c1 && _c2 && _c3 && _c4 {
return Api.community.CommunityInvite.communityInvite(title: _1!, peers: _2!, chats: _3!, users: _4!)
}
else {
return nil
}
}
public static func parse_communityInviteAlready(_ reader: BufferReader) -> CommunityInvite? {
var _1: Int32?
_1 = reader.readInt32()
var _2: [Api.Peer]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Peer.self)
}
var _3: [Api.Chat]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _4: [Api.User]?
if let _ = reader.readInt32() {
_4 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = _4 != nil
if _c1 && _c2 && _c3 && _c4 {
return Api.community.CommunityInvite.communityInviteAlready(filterId: _1!, missingPeers: _2!, chats: _3!, users: _4!)
}
else {
return nil
}
}
}
}
public extension Api.contacts {
enum Blocked: TypeConstructorDescription {
case blocked(blocked: [Api.PeerBlocked], chats: [Api.Chat], users: [Api.User])
case blockedSlice(count: Int32, blocked: [Api.PeerBlocked], chats: [Api.Chat], users: [Api.User])
public func serialize(_ buffer: Buffer, _ boxed: Swift.Bool) {
switch self {
case .blocked(let blocked, let chats, let users):
if boxed {
buffer.appendInt32(182326673)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(blocked.count))
for item in blocked {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
case .blockedSlice(let count, let blocked, let chats, let users):
if boxed {
buffer.appendInt32(-513392236)
}
serializeInt32(count, buffer: buffer, boxed: false)
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(blocked.count))
for item in blocked {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(chats.count))
for item in chats {
item.serialize(buffer, true)
}
buffer.appendInt32(481674261)
buffer.appendInt32(Int32(users.count))
for item in users {
item.serialize(buffer, true)
}
break
}
}
public func descriptionFields() -> (String, [(String, Any)]) {
switch self {
case .blocked(let blocked, let chats, let users):
return ("blocked", [("blocked", blocked as Any), ("chats", chats as Any), ("users", users as Any)])
case .blockedSlice(let count, let blocked, let chats, let users):
return ("blockedSlice", [("count", count as Any), ("blocked", blocked as Any), ("chats", chats as Any), ("users", users as Any)])
}
}
public static func parse_blocked(_ reader: BufferReader) -> Blocked? {
var _1: [Api.PeerBlocked]?
if let _ = reader.readInt32() {
_1 = Api.parseVector(reader, elementSignature: 0, elementType: Api.PeerBlocked.self)
}
var _2: [Api.Chat]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _3: [Api.User]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
if _c1 && _c2 && _c3 {
return Api.contacts.Blocked.blocked(blocked: _1!, chats: _2!, users: _3!)
}
else {
return nil
}
}
public static func parse_blockedSlice(_ reader: BufferReader) -> Blocked? {
var _1: Int32?
_1 = reader.readInt32()
var _2: [Api.PeerBlocked]?
if let _ = reader.readInt32() {
_2 = Api.parseVector(reader, elementSignature: 0, elementType: Api.PeerBlocked.self)
}
var _3: [Api.Chat]?
if let _ = reader.readInt32() {
_3 = Api.parseVector(reader, elementSignature: 0, elementType: Api.Chat.self)
}
var _4: [Api.User]?
if let _ = reader.readInt32() {
_4 = Api.parseVector(reader, elementSignature: 0, elementType: Api.User.self)
}
let _c1 = _1 != nil
let _c2 = _2 != nil
let _c3 = _3 != nil
let _c4 = _4 != nil
if _c1 && _c2 && _c3 && _c4 {
return Api.contacts.Blocked.blockedSlice(count: _1!, blocked: _2!, chats: _3!, users: _4!)
}
else {
return nil
}
}
}
}
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