import 'package:selfprivacy/utils/scalars.dart'; class Input$AutoUpgradeSettingsInput { factory Input$AutoUpgradeSettingsInput({ bool? enableAutoUpgrade, bool? allowReboot, }) => Input$AutoUpgradeSettingsInput._({ if (enableAutoUpgrade != null) r'enableAutoUpgrade': enableAutoUpgrade, if (allowReboot != null) r'allowReboot': allowReboot, }); Input$AutoUpgradeSettingsInput._(this._$data); factory Input$AutoUpgradeSettingsInput.fromJson(Map data) { final result$data = {}; if (data.containsKey('enableAutoUpgrade')) { final l$enableAutoUpgrade = data['enableAutoUpgrade']; result$data['enableAutoUpgrade'] = (l$enableAutoUpgrade as bool?); } if (data.containsKey('allowReboot')) { final l$allowReboot = data['allowReboot']; result$data['allowReboot'] = (l$allowReboot as bool?); } return Input$AutoUpgradeSettingsInput._(result$data); } Map _$data; bool? get enableAutoUpgrade => (_$data['enableAutoUpgrade'] as bool?); bool? get allowReboot => (_$data['allowReboot'] as bool?); Map toJson() { final result$data = {}; if (_$data.containsKey('enableAutoUpgrade')) { final l$enableAutoUpgrade = enableAutoUpgrade; result$data['enableAutoUpgrade'] = l$enableAutoUpgrade; } if (_$data.containsKey('allowReboot')) { final l$allowReboot = allowReboot; result$data['allowReboot'] = l$allowReboot; } return result$data; } CopyWith$Input$AutoUpgradeSettingsInput get copyWith => CopyWith$Input$AutoUpgradeSettingsInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$AutoUpgradeSettingsInput) || runtimeType != other.runtimeType) { return false; } final l$enableAutoUpgrade = enableAutoUpgrade; final lOther$enableAutoUpgrade = other.enableAutoUpgrade; if (_$data.containsKey('enableAutoUpgrade') != other._$data.containsKey('enableAutoUpgrade')) { return false; } if (l$enableAutoUpgrade != lOther$enableAutoUpgrade) { return false; } final l$allowReboot = allowReboot; final lOther$allowReboot = other.allowReboot; if (_$data.containsKey('allowReboot') != other._$data.containsKey('allowReboot')) { return false; } if (l$allowReboot != lOther$allowReboot) { return false; } return true; } @override int get hashCode { final l$enableAutoUpgrade = enableAutoUpgrade; final l$allowReboot = allowReboot; return Object.hashAll([ _$data.containsKey('enableAutoUpgrade') ? l$enableAutoUpgrade : const {}, _$data.containsKey('allowReboot') ? l$allowReboot : const {}, ]); } } abstract class CopyWith$Input$AutoUpgradeSettingsInput { factory CopyWith$Input$AutoUpgradeSettingsInput( Input$AutoUpgradeSettingsInput instance, TRes Function(Input$AutoUpgradeSettingsInput) then, ) = _CopyWithImpl$Input$AutoUpgradeSettingsInput; factory CopyWith$Input$AutoUpgradeSettingsInput.stub(TRes res) = _CopyWithStubImpl$Input$AutoUpgradeSettingsInput; TRes call({ bool? enableAutoUpgrade, bool? allowReboot, }); } class _CopyWithImpl$Input$AutoUpgradeSettingsInput implements CopyWith$Input$AutoUpgradeSettingsInput { _CopyWithImpl$Input$AutoUpgradeSettingsInput( this._instance, this._then, ); final Input$AutoUpgradeSettingsInput _instance; final TRes Function(Input$AutoUpgradeSettingsInput) _then; static const _undefined = {}; TRes call({ Object? enableAutoUpgrade = _undefined, Object? allowReboot = _undefined, }) => _then(Input$AutoUpgradeSettingsInput._({ ..._instance._$data, if (enableAutoUpgrade != _undefined) 'enableAutoUpgrade': (enableAutoUpgrade as bool?), if (allowReboot != _undefined) 'allowReboot': (allowReboot as bool?), })); } class _CopyWithStubImpl$Input$AutoUpgradeSettingsInput implements CopyWith$Input$AutoUpgradeSettingsInput { _CopyWithStubImpl$Input$AutoUpgradeSettingsInput(this._res); TRes _res; call({ bool? enableAutoUpgrade, bool? allowReboot, }) => _res; } class Input$AutobackupQuotasInput { factory Input$AutobackupQuotasInput({ required int last, required int daily, required int weekly, required int monthly, required int yearly, }) => Input$AutobackupQuotasInput._({ r'last': last, r'daily': daily, r'weekly': weekly, r'monthly': monthly, r'yearly': yearly, }); Input$AutobackupQuotasInput._(this._$data); factory Input$AutobackupQuotasInput.fromJson(Map data) { final result$data = {}; final l$last = data['last']; result$data['last'] = (l$last as int); final l$daily = data['daily']; result$data['daily'] = (l$daily as int); final l$weekly = data['weekly']; result$data['weekly'] = (l$weekly as int); final l$monthly = data['monthly']; result$data['monthly'] = (l$monthly as int); final l$yearly = data['yearly']; result$data['yearly'] = (l$yearly as int); return Input$AutobackupQuotasInput._(result$data); } Map _$data; int get last => (_$data['last'] as int); int get daily => (_$data['daily'] as int); int get weekly => (_$data['weekly'] as int); int get monthly => (_$data['monthly'] as int); int get yearly => (_$data['yearly'] as int); Map toJson() { final result$data = {}; final l$last = last; result$data['last'] = l$last; final l$daily = daily; result$data['daily'] = l$daily; final l$weekly = weekly; result$data['weekly'] = l$weekly; final l$monthly = monthly; result$data['monthly'] = l$monthly; final l$yearly = yearly; result$data['yearly'] = l$yearly; return result$data; } CopyWith$Input$AutobackupQuotasInput get copyWith => CopyWith$Input$AutobackupQuotasInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$AutobackupQuotasInput) || runtimeType != other.runtimeType) { return false; } final l$last = last; final lOther$last = other.last; if (l$last != lOther$last) { return false; } final l$daily = daily; final lOther$daily = other.daily; if (l$daily != lOther$daily) { return false; } final l$weekly = weekly; final lOther$weekly = other.weekly; if (l$weekly != lOther$weekly) { return false; } final l$monthly = monthly; final lOther$monthly = other.monthly; if (l$monthly != lOther$monthly) { return false; } final l$yearly = yearly; final lOther$yearly = other.yearly; if (l$yearly != lOther$yearly) { return false; } return true; } @override int get hashCode { final l$last = last; final l$daily = daily; final l$weekly = weekly; final l$monthly = monthly; final l$yearly = yearly; return Object.hashAll([ l$last, l$daily, l$weekly, l$monthly, l$yearly, ]); } } abstract class CopyWith$Input$AutobackupQuotasInput { factory CopyWith$Input$AutobackupQuotasInput( Input$AutobackupQuotasInput instance, TRes Function(Input$AutobackupQuotasInput) then, ) = _CopyWithImpl$Input$AutobackupQuotasInput; factory CopyWith$Input$AutobackupQuotasInput.stub(TRes res) = _CopyWithStubImpl$Input$AutobackupQuotasInput; TRes call({ int? last, int? daily, int? weekly, int? monthly, int? yearly, }); } class _CopyWithImpl$Input$AutobackupQuotasInput implements CopyWith$Input$AutobackupQuotasInput { _CopyWithImpl$Input$AutobackupQuotasInput( this._instance, this._then, ); final Input$AutobackupQuotasInput _instance; final TRes Function(Input$AutobackupQuotasInput) _then; static const _undefined = {}; TRes call({ Object? last = _undefined, Object? daily = _undefined, Object? weekly = _undefined, Object? monthly = _undefined, Object? yearly = _undefined, }) => _then(Input$AutobackupQuotasInput._({ ..._instance._$data, if (last != _undefined && last != null) 'last': (last as int), if (daily != _undefined && daily != null) 'daily': (daily as int), if (weekly != _undefined && weekly != null) 'weekly': (weekly as int), if (monthly != _undefined && monthly != null) 'monthly': (monthly as int), if (yearly != _undefined && yearly != null) 'yearly': (yearly as int), })); } class _CopyWithStubImpl$Input$AutobackupQuotasInput implements CopyWith$Input$AutobackupQuotasInput { _CopyWithStubImpl$Input$AutobackupQuotasInput(this._res); TRes _res; call({ int? last, int? daily, int? weekly, int? monthly, int? yearly, }) => _res; } class Input$InitializeRepositoryInput { factory Input$InitializeRepositoryInput({ required Enum$BackupProvider provider, required String locationId, required String locationName, required String login, required String password, }) => Input$InitializeRepositoryInput._({ r'provider': provider, r'locationId': locationId, r'locationName': locationName, r'login': login, r'password': password, }); Input$InitializeRepositoryInput._(this._$data); factory Input$InitializeRepositoryInput.fromJson(Map data) { final result$data = {}; final l$provider = data['provider']; result$data['provider'] = fromJson$Enum$BackupProvider((l$provider as String)); final l$locationId = data['locationId']; result$data['locationId'] = (l$locationId as String); final l$locationName = data['locationName']; result$data['locationName'] = (l$locationName as String); final l$login = data['login']; result$data['login'] = (l$login as String); final l$password = data['password']; result$data['password'] = (l$password as String); return Input$InitializeRepositoryInput._(result$data); } Map _$data; Enum$BackupProvider get provider => (_$data['provider'] as Enum$BackupProvider); String get locationId => (_$data['locationId'] as String); String get locationName => (_$data['locationName'] as String); String get login => (_$data['login'] as String); String get password => (_$data['password'] as String); Map toJson() { final result$data = {}; final l$provider = provider; result$data['provider'] = toJson$Enum$BackupProvider(l$provider); final l$locationId = locationId; result$data['locationId'] = l$locationId; final l$locationName = locationName; result$data['locationName'] = l$locationName; final l$login = login; result$data['login'] = l$login; final l$password = password; result$data['password'] = l$password; return result$data; } CopyWith$Input$InitializeRepositoryInput get copyWith => CopyWith$Input$InitializeRepositoryInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$InitializeRepositoryInput) || runtimeType != other.runtimeType) { return false; } final l$provider = provider; final lOther$provider = other.provider; if (l$provider != lOther$provider) { return false; } final l$locationId = locationId; final lOther$locationId = other.locationId; if (l$locationId != lOther$locationId) { return false; } final l$locationName = locationName; final lOther$locationName = other.locationName; if (l$locationName != lOther$locationName) { return false; } final l$login = login; final lOther$login = other.login; if (l$login != lOther$login) { return false; } final l$password = password; final lOther$password = other.password; if (l$password != lOther$password) { return false; } return true; } @override int get hashCode { final l$provider = provider; final l$locationId = locationId; final l$locationName = locationName; final l$login = login; final l$password = password; return Object.hashAll([ l$provider, l$locationId, l$locationName, l$login, l$password, ]); } } abstract class CopyWith$Input$InitializeRepositoryInput { factory CopyWith$Input$InitializeRepositoryInput( Input$InitializeRepositoryInput instance, TRes Function(Input$InitializeRepositoryInput) then, ) = _CopyWithImpl$Input$InitializeRepositoryInput; factory CopyWith$Input$InitializeRepositoryInput.stub(TRes res) = _CopyWithStubImpl$Input$InitializeRepositoryInput; TRes call({ Enum$BackupProvider? provider, String? locationId, String? locationName, String? login, String? password, }); } class _CopyWithImpl$Input$InitializeRepositoryInput implements CopyWith$Input$InitializeRepositoryInput { _CopyWithImpl$Input$InitializeRepositoryInput( this._instance, this._then, ); final Input$InitializeRepositoryInput _instance; final TRes Function(Input$InitializeRepositoryInput) _then; static const _undefined = {}; TRes call({ Object? provider = _undefined, Object? locationId = _undefined, Object? locationName = _undefined, Object? login = _undefined, Object? password = _undefined, }) => _then(Input$InitializeRepositoryInput._({ ..._instance._$data, if (provider != _undefined && provider != null) 'provider': (provider as Enum$BackupProvider), if (locationId != _undefined && locationId != null) 'locationId': (locationId as String), if (locationName != _undefined && locationName != null) 'locationName': (locationName as String), if (login != _undefined && login != null) 'login': (login as String), if (password != _undefined && password != null) 'password': (password as String), })); } class _CopyWithStubImpl$Input$InitializeRepositoryInput implements CopyWith$Input$InitializeRepositoryInput { _CopyWithStubImpl$Input$InitializeRepositoryInput(this._res); TRes _res; call({ Enum$BackupProvider? provider, String? locationId, String? locationName, String? login, String? password, }) => _res; } class Input$MigrateToBindsInput { factory Input$MigrateToBindsInput({ required String emailBlockDevice, required String bitwardenBlockDevice, required String giteaBlockDevice, required String nextcloudBlockDevice, required String pleromaBlockDevice, }) => Input$MigrateToBindsInput._({ r'emailBlockDevice': emailBlockDevice, r'bitwardenBlockDevice': bitwardenBlockDevice, r'giteaBlockDevice': giteaBlockDevice, r'nextcloudBlockDevice': nextcloudBlockDevice, r'pleromaBlockDevice': pleromaBlockDevice, }); Input$MigrateToBindsInput._(this._$data); factory Input$MigrateToBindsInput.fromJson(Map data) { final result$data = {}; final l$emailBlockDevice = data['emailBlockDevice']; result$data['emailBlockDevice'] = (l$emailBlockDevice as String); final l$bitwardenBlockDevice = data['bitwardenBlockDevice']; result$data['bitwardenBlockDevice'] = (l$bitwardenBlockDevice as String); final l$giteaBlockDevice = data['giteaBlockDevice']; result$data['giteaBlockDevice'] = (l$giteaBlockDevice as String); final l$nextcloudBlockDevice = data['nextcloudBlockDevice']; result$data['nextcloudBlockDevice'] = (l$nextcloudBlockDevice as String); final l$pleromaBlockDevice = data['pleromaBlockDevice']; result$data['pleromaBlockDevice'] = (l$pleromaBlockDevice as String); return Input$MigrateToBindsInput._(result$data); } Map _$data; String get emailBlockDevice => (_$data['emailBlockDevice'] as String); String get bitwardenBlockDevice => (_$data['bitwardenBlockDevice'] as String); String get giteaBlockDevice => (_$data['giteaBlockDevice'] as String); String get nextcloudBlockDevice => (_$data['nextcloudBlockDevice'] as String); String get pleromaBlockDevice => (_$data['pleromaBlockDevice'] as String); Map toJson() { final result$data = {}; final l$emailBlockDevice = emailBlockDevice; result$data['emailBlockDevice'] = l$emailBlockDevice; final l$bitwardenBlockDevice = bitwardenBlockDevice; result$data['bitwardenBlockDevice'] = l$bitwardenBlockDevice; final l$giteaBlockDevice = giteaBlockDevice; result$data['giteaBlockDevice'] = l$giteaBlockDevice; final l$nextcloudBlockDevice = nextcloudBlockDevice; result$data['nextcloudBlockDevice'] = l$nextcloudBlockDevice; final l$pleromaBlockDevice = pleromaBlockDevice; result$data['pleromaBlockDevice'] = l$pleromaBlockDevice; return result$data; } CopyWith$Input$MigrateToBindsInput get copyWith => CopyWith$Input$MigrateToBindsInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$MigrateToBindsInput) || runtimeType != other.runtimeType) { return false; } final l$emailBlockDevice = emailBlockDevice; final lOther$emailBlockDevice = other.emailBlockDevice; if (l$emailBlockDevice != lOther$emailBlockDevice) { return false; } final l$bitwardenBlockDevice = bitwardenBlockDevice; final lOther$bitwardenBlockDevice = other.bitwardenBlockDevice; if (l$bitwardenBlockDevice != lOther$bitwardenBlockDevice) { return false; } final l$giteaBlockDevice = giteaBlockDevice; final lOther$giteaBlockDevice = other.giteaBlockDevice; if (l$giteaBlockDevice != lOther$giteaBlockDevice) { return false; } final l$nextcloudBlockDevice = nextcloudBlockDevice; final lOther$nextcloudBlockDevice = other.nextcloudBlockDevice; if (l$nextcloudBlockDevice != lOther$nextcloudBlockDevice) { return false; } final l$pleromaBlockDevice = pleromaBlockDevice; final lOther$pleromaBlockDevice = other.pleromaBlockDevice; if (l$pleromaBlockDevice != lOther$pleromaBlockDevice) { return false; } return true; } @override int get hashCode { final l$emailBlockDevice = emailBlockDevice; final l$bitwardenBlockDevice = bitwardenBlockDevice; final l$giteaBlockDevice = giteaBlockDevice; final l$nextcloudBlockDevice = nextcloudBlockDevice; final l$pleromaBlockDevice = pleromaBlockDevice; return Object.hashAll([ l$emailBlockDevice, l$bitwardenBlockDevice, l$giteaBlockDevice, l$nextcloudBlockDevice, l$pleromaBlockDevice, ]); } } abstract class CopyWith$Input$MigrateToBindsInput { factory CopyWith$Input$MigrateToBindsInput( Input$MigrateToBindsInput instance, TRes Function(Input$MigrateToBindsInput) then, ) = _CopyWithImpl$Input$MigrateToBindsInput; factory CopyWith$Input$MigrateToBindsInput.stub(TRes res) = _CopyWithStubImpl$Input$MigrateToBindsInput; TRes call({ String? emailBlockDevice, String? bitwardenBlockDevice, String? giteaBlockDevice, String? nextcloudBlockDevice, String? pleromaBlockDevice, }); } class _CopyWithImpl$Input$MigrateToBindsInput implements CopyWith$Input$MigrateToBindsInput { _CopyWithImpl$Input$MigrateToBindsInput( this._instance, this._then, ); final Input$MigrateToBindsInput _instance; final TRes Function(Input$MigrateToBindsInput) _then; static const _undefined = {}; TRes call({ Object? emailBlockDevice = _undefined, Object? bitwardenBlockDevice = _undefined, Object? giteaBlockDevice = _undefined, Object? nextcloudBlockDevice = _undefined, Object? pleromaBlockDevice = _undefined, }) => _then(Input$MigrateToBindsInput._({ ..._instance._$data, if (emailBlockDevice != _undefined && emailBlockDevice != null) 'emailBlockDevice': (emailBlockDevice as String), if (bitwardenBlockDevice != _undefined && bitwardenBlockDevice != null) 'bitwardenBlockDevice': (bitwardenBlockDevice as String), if (giteaBlockDevice != _undefined && giteaBlockDevice != null) 'giteaBlockDevice': (giteaBlockDevice as String), if (nextcloudBlockDevice != _undefined && nextcloudBlockDevice != null) 'nextcloudBlockDevice': (nextcloudBlockDevice as String), if (pleromaBlockDevice != _undefined && pleromaBlockDevice != null) 'pleromaBlockDevice': (pleromaBlockDevice as String), })); } class _CopyWithStubImpl$Input$MigrateToBindsInput implements CopyWith$Input$MigrateToBindsInput { _CopyWithStubImpl$Input$MigrateToBindsInput(this._res); TRes _res; call({ String? emailBlockDevice, String? bitwardenBlockDevice, String? giteaBlockDevice, String? nextcloudBlockDevice, String? pleromaBlockDevice, }) => _res; } class Input$MoveServiceInput { factory Input$MoveServiceInput({ required String serviceId, required String location, }) => Input$MoveServiceInput._({ r'serviceId': serviceId, r'location': location, }); Input$MoveServiceInput._(this._$data); factory Input$MoveServiceInput.fromJson(Map data) { final result$data = {}; final l$serviceId = data['serviceId']; result$data['serviceId'] = (l$serviceId as String); final l$location = data['location']; result$data['location'] = (l$location as String); return Input$MoveServiceInput._(result$data); } Map _$data; String get serviceId => (_$data['serviceId'] as String); String get location => (_$data['location'] as String); Map toJson() { final result$data = {}; final l$serviceId = serviceId; result$data['serviceId'] = l$serviceId; final l$location = location; result$data['location'] = l$location; return result$data; } CopyWith$Input$MoveServiceInput get copyWith => CopyWith$Input$MoveServiceInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$MoveServiceInput) || runtimeType != other.runtimeType) { return false; } final l$serviceId = serviceId; final lOther$serviceId = other.serviceId; if (l$serviceId != lOther$serviceId) { return false; } final l$location = location; final lOther$location = other.location; if (l$location != lOther$location) { return false; } return true; } @override int get hashCode { final l$serviceId = serviceId; final l$location = location; return Object.hashAll([ l$serviceId, l$location, ]); } } abstract class CopyWith$Input$MoveServiceInput { factory CopyWith$Input$MoveServiceInput( Input$MoveServiceInput instance, TRes Function(Input$MoveServiceInput) then, ) = _CopyWithImpl$Input$MoveServiceInput; factory CopyWith$Input$MoveServiceInput.stub(TRes res) = _CopyWithStubImpl$Input$MoveServiceInput; TRes call({ String? serviceId, String? location, }); } class _CopyWithImpl$Input$MoveServiceInput implements CopyWith$Input$MoveServiceInput { _CopyWithImpl$Input$MoveServiceInput( this._instance, this._then, ); final Input$MoveServiceInput _instance; final TRes Function(Input$MoveServiceInput) _then; static const _undefined = {}; TRes call({ Object? serviceId = _undefined, Object? location = _undefined, }) => _then(Input$MoveServiceInput._({ ..._instance._$data, if (serviceId != _undefined && serviceId != null) 'serviceId': (serviceId as String), if (location != _undefined && location != null) 'location': (location as String), })); } class _CopyWithStubImpl$Input$MoveServiceInput implements CopyWith$Input$MoveServiceInput { _CopyWithStubImpl$Input$MoveServiceInput(this._res); TRes _res; call({ String? serviceId, String? location, }) => _res; } class Input$RecoveryKeyLimitsInput { factory Input$RecoveryKeyLimitsInput({ DateTime? expirationDate, int? uses, }) => Input$RecoveryKeyLimitsInput._({ if (expirationDate != null) r'expirationDate': expirationDate, if (uses != null) r'uses': uses, }); Input$RecoveryKeyLimitsInput._(this._$data); factory Input$RecoveryKeyLimitsInput.fromJson(Map data) { final result$data = {}; if (data.containsKey('expirationDate')) { final l$expirationDate = data['expirationDate']; result$data['expirationDate'] = l$expirationDate == null ? null : dateTimeFromJson(l$expirationDate); } if (data.containsKey('uses')) { final l$uses = data['uses']; result$data['uses'] = (l$uses as int?); } return Input$RecoveryKeyLimitsInput._(result$data); } Map _$data; DateTime? get expirationDate => (_$data['expirationDate'] as DateTime?); int? get uses => (_$data['uses'] as int?); Map toJson() { final result$data = {}; if (_$data.containsKey('expirationDate')) { final l$expirationDate = expirationDate; result$data['expirationDate'] = l$expirationDate == null ? null : dateTimeToJson(l$expirationDate); } if (_$data.containsKey('uses')) { final l$uses = uses; result$data['uses'] = l$uses; } return result$data; } CopyWith$Input$RecoveryKeyLimitsInput get copyWith => CopyWith$Input$RecoveryKeyLimitsInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$RecoveryKeyLimitsInput) || runtimeType != other.runtimeType) { return false; } final l$expirationDate = expirationDate; final lOther$expirationDate = other.expirationDate; if (_$data.containsKey('expirationDate') != other._$data.containsKey('expirationDate')) { return false; } if (l$expirationDate != lOther$expirationDate) { return false; } final l$uses = uses; final lOther$uses = other.uses; if (_$data.containsKey('uses') != other._$data.containsKey('uses')) { return false; } if (l$uses != lOther$uses) { return false; } return true; } @override int get hashCode { final l$expirationDate = expirationDate; final l$uses = uses; return Object.hashAll([ _$data.containsKey('expirationDate') ? l$expirationDate : const {}, _$data.containsKey('uses') ? l$uses : const {}, ]); } } abstract class CopyWith$Input$RecoveryKeyLimitsInput { factory CopyWith$Input$RecoveryKeyLimitsInput( Input$RecoveryKeyLimitsInput instance, TRes Function(Input$RecoveryKeyLimitsInput) then, ) = _CopyWithImpl$Input$RecoveryKeyLimitsInput; factory CopyWith$Input$RecoveryKeyLimitsInput.stub(TRes res) = _CopyWithStubImpl$Input$RecoveryKeyLimitsInput; TRes call({ DateTime? expirationDate, int? uses, }); } class _CopyWithImpl$Input$RecoveryKeyLimitsInput implements CopyWith$Input$RecoveryKeyLimitsInput { _CopyWithImpl$Input$RecoveryKeyLimitsInput( this._instance, this._then, ); final Input$RecoveryKeyLimitsInput _instance; final TRes Function(Input$RecoveryKeyLimitsInput) _then; static const _undefined = {}; TRes call({ Object? expirationDate = _undefined, Object? uses = _undefined, }) => _then(Input$RecoveryKeyLimitsInput._({ ..._instance._$data, if (expirationDate != _undefined) 'expirationDate': (expirationDate as DateTime?), if (uses != _undefined) 'uses': (uses as int?), })); } class _CopyWithStubImpl$Input$RecoveryKeyLimitsInput implements CopyWith$Input$RecoveryKeyLimitsInput { _CopyWithStubImpl$Input$RecoveryKeyLimitsInput(this._res); TRes _res; call({ DateTime? expirationDate, int? uses, }) => _res; } class Input$SshMutationInput { factory Input$SshMutationInput({ required String username, required String sshKey, }) => Input$SshMutationInput._({ r'username': username, r'sshKey': sshKey, }); Input$SshMutationInput._(this._$data); factory Input$SshMutationInput.fromJson(Map data) { final result$data = {}; final l$username = data['username']; result$data['username'] = (l$username as String); final l$sshKey = data['sshKey']; result$data['sshKey'] = (l$sshKey as String); return Input$SshMutationInput._(result$data); } Map _$data; String get username => (_$data['username'] as String); String get sshKey => (_$data['sshKey'] as String); Map toJson() { final result$data = {}; final l$username = username; result$data['username'] = l$username; final l$sshKey = sshKey; result$data['sshKey'] = l$sshKey; return result$data; } CopyWith$Input$SshMutationInput get copyWith => CopyWith$Input$SshMutationInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$SshMutationInput) || runtimeType != other.runtimeType) { return false; } final l$username = username; final lOther$username = other.username; if (l$username != lOther$username) { return false; } final l$sshKey = sshKey; final lOther$sshKey = other.sshKey; if (l$sshKey != lOther$sshKey) { return false; } return true; } @override int get hashCode { final l$username = username; final l$sshKey = sshKey; return Object.hashAll([ l$username, l$sshKey, ]); } } abstract class CopyWith$Input$SshMutationInput { factory CopyWith$Input$SshMutationInput( Input$SshMutationInput instance, TRes Function(Input$SshMutationInput) then, ) = _CopyWithImpl$Input$SshMutationInput; factory CopyWith$Input$SshMutationInput.stub(TRes res) = _CopyWithStubImpl$Input$SshMutationInput; TRes call({ String? username, String? sshKey, }); } class _CopyWithImpl$Input$SshMutationInput implements CopyWith$Input$SshMutationInput { _CopyWithImpl$Input$SshMutationInput( this._instance, this._then, ); final Input$SshMutationInput _instance; final TRes Function(Input$SshMutationInput) _then; static const _undefined = {}; TRes call({ Object? username = _undefined, Object? sshKey = _undefined, }) => _then(Input$SshMutationInput._({ ..._instance._$data, if (username != _undefined && username != null) 'username': (username as String), if (sshKey != _undefined && sshKey != null) 'sshKey': (sshKey as String), })); } class _CopyWithStubImpl$Input$SshMutationInput implements CopyWith$Input$SshMutationInput { _CopyWithStubImpl$Input$SshMutationInput(this._res); TRes _res; call({ String? username, String? sshKey, }) => _res; } class Input$UseNewDeviceKeyInput { factory Input$UseNewDeviceKeyInput({ required String key, required String deviceName, }) => Input$UseNewDeviceKeyInput._({ r'key': key, r'deviceName': deviceName, }); Input$UseNewDeviceKeyInput._(this._$data); factory Input$UseNewDeviceKeyInput.fromJson(Map data) { final result$data = {}; final l$key = data['key']; result$data['key'] = (l$key as String); final l$deviceName = data['deviceName']; result$data['deviceName'] = (l$deviceName as String); return Input$UseNewDeviceKeyInput._(result$data); } Map _$data; String get key => (_$data['key'] as String); String get deviceName => (_$data['deviceName'] as String); Map toJson() { final result$data = {}; final l$key = key; result$data['key'] = l$key; final l$deviceName = deviceName; result$data['deviceName'] = l$deviceName; return result$data; } CopyWith$Input$UseNewDeviceKeyInput get copyWith => CopyWith$Input$UseNewDeviceKeyInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$UseNewDeviceKeyInput) || runtimeType != other.runtimeType) { return false; } final l$key = key; final lOther$key = other.key; if (l$key != lOther$key) { return false; } final l$deviceName = deviceName; final lOther$deviceName = other.deviceName; if (l$deviceName != lOther$deviceName) { return false; } return true; } @override int get hashCode { final l$key = key; final l$deviceName = deviceName; return Object.hashAll([ l$key, l$deviceName, ]); } } abstract class CopyWith$Input$UseNewDeviceKeyInput { factory CopyWith$Input$UseNewDeviceKeyInput( Input$UseNewDeviceKeyInput instance, TRes Function(Input$UseNewDeviceKeyInput) then, ) = _CopyWithImpl$Input$UseNewDeviceKeyInput; factory CopyWith$Input$UseNewDeviceKeyInput.stub(TRes res) = _CopyWithStubImpl$Input$UseNewDeviceKeyInput; TRes call({ String? key, String? deviceName, }); } class _CopyWithImpl$Input$UseNewDeviceKeyInput implements CopyWith$Input$UseNewDeviceKeyInput { _CopyWithImpl$Input$UseNewDeviceKeyInput( this._instance, this._then, ); final Input$UseNewDeviceKeyInput _instance; final TRes Function(Input$UseNewDeviceKeyInput) _then; static const _undefined = {}; TRes call({ Object? key = _undefined, Object? deviceName = _undefined, }) => _then(Input$UseNewDeviceKeyInput._({ ..._instance._$data, if (key != _undefined && key != null) 'key': (key as String), if (deviceName != _undefined && deviceName != null) 'deviceName': (deviceName as String), })); } class _CopyWithStubImpl$Input$UseNewDeviceKeyInput implements CopyWith$Input$UseNewDeviceKeyInput { _CopyWithStubImpl$Input$UseNewDeviceKeyInput(this._res); TRes _res; call({ String? key, String? deviceName, }) => _res; } class Input$UseRecoveryKeyInput { factory Input$UseRecoveryKeyInput({ required String key, required String deviceName, }) => Input$UseRecoveryKeyInput._({ r'key': key, r'deviceName': deviceName, }); Input$UseRecoveryKeyInput._(this._$data); factory Input$UseRecoveryKeyInput.fromJson(Map data) { final result$data = {}; final l$key = data['key']; result$data['key'] = (l$key as String); final l$deviceName = data['deviceName']; result$data['deviceName'] = (l$deviceName as String); return Input$UseRecoveryKeyInput._(result$data); } Map _$data; String get key => (_$data['key'] as String); String get deviceName => (_$data['deviceName'] as String); Map toJson() { final result$data = {}; final l$key = key; result$data['key'] = l$key; final l$deviceName = deviceName; result$data['deviceName'] = l$deviceName; return result$data; } CopyWith$Input$UseRecoveryKeyInput get copyWith => CopyWith$Input$UseRecoveryKeyInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$UseRecoveryKeyInput) || runtimeType != other.runtimeType) { return false; } final l$key = key; final lOther$key = other.key; if (l$key != lOther$key) { return false; } final l$deviceName = deviceName; final lOther$deviceName = other.deviceName; if (l$deviceName != lOther$deviceName) { return false; } return true; } @override int get hashCode { final l$key = key; final l$deviceName = deviceName; return Object.hashAll([ l$key, l$deviceName, ]); } } abstract class CopyWith$Input$UseRecoveryKeyInput { factory CopyWith$Input$UseRecoveryKeyInput( Input$UseRecoveryKeyInput instance, TRes Function(Input$UseRecoveryKeyInput) then, ) = _CopyWithImpl$Input$UseRecoveryKeyInput; factory CopyWith$Input$UseRecoveryKeyInput.stub(TRes res) = _CopyWithStubImpl$Input$UseRecoveryKeyInput; TRes call({ String? key, String? deviceName, }); } class _CopyWithImpl$Input$UseRecoveryKeyInput implements CopyWith$Input$UseRecoveryKeyInput { _CopyWithImpl$Input$UseRecoveryKeyInput( this._instance, this._then, ); final Input$UseRecoveryKeyInput _instance; final TRes Function(Input$UseRecoveryKeyInput) _then; static const _undefined = {}; TRes call({ Object? key = _undefined, Object? deviceName = _undefined, }) => _then(Input$UseRecoveryKeyInput._({ ..._instance._$data, if (key != _undefined && key != null) 'key': (key as String), if (deviceName != _undefined && deviceName != null) 'deviceName': (deviceName as String), })); } class _CopyWithStubImpl$Input$UseRecoveryKeyInput implements CopyWith$Input$UseRecoveryKeyInput { _CopyWithStubImpl$Input$UseRecoveryKeyInput(this._res); TRes _res; call({ String? key, String? deviceName, }) => _res; } class Input$UserMutationInput { factory Input$UserMutationInput({ required String username, required String password, }) => Input$UserMutationInput._({ r'username': username, r'password': password, }); Input$UserMutationInput._(this._$data); factory Input$UserMutationInput.fromJson(Map data) { final result$data = {}; final l$username = data['username']; result$data['username'] = (l$username as String); final l$password = data['password']; result$data['password'] = (l$password as String); return Input$UserMutationInput._(result$data); } Map _$data; String get username => (_$data['username'] as String); String get password => (_$data['password'] as String); Map toJson() { final result$data = {}; final l$username = username; result$data['username'] = l$username; final l$password = password; result$data['password'] = l$password; return result$data; } CopyWith$Input$UserMutationInput get copyWith => CopyWith$Input$UserMutationInput( this, (i) => i, ); @override bool operator ==(Object other) { if (identical(this, other)) { return true; } if (!(other is Input$UserMutationInput) || runtimeType != other.runtimeType) { return false; } final l$username = username; final lOther$username = other.username; if (l$username != lOther$username) { return false; } final l$password = password; final lOther$password = other.password; if (l$password != lOther$password) { return false; } return true; } @override int get hashCode { final l$username = username; final l$password = password; return Object.hashAll([ l$username, l$password, ]); } } abstract class CopyWith$Input$UserMutationInput { factory CopyWith$Input$UserMutationInput( Input$UserMutationInput instance, TRes Function(Input$UserMutationInput) then, ) = _CopyWithImpl$Input$UserMutationInput; factory CopyWith$Input$UserMutationInput.stub(TRes res) = _CopyWithStubImpl$Input$UserMutationInput; TRes call({ String? username, String? password, }); } class _CopyWithImpl$Input$UserMutationInput implements CopyWith$Input$UserMutationInput { _CopyWithImpl$Input$UserMutationInput( this._instance, this._then, ); final Input$UserMutationInput _instance; final TRes Function(Input$UserMutationInput) _then; static const _undefined = {}; TRes call({ Object? username = _undefined, Object? password = _undefined, }) => _then(Input$UserMutationInput._({ ..._instance._$data, if (username != _undefined && username != null) 'username': (username as String), if (password != _undefined && password != null) 'password': (password as String), })); } class _CopyWithStubImpl$Input$UserMutationInput implements CopyWith$Input$UserMutationInput { _CopyWithStubImpl$Input$UserMutationInput(this._res); TRes _res; call({ String? username, String? password, }) => _res; } enum Enum$BackupProvider { BACKBLAZE, NONE, MEMORY, FILE, $unknown } String toJson$Enum$BackupProvider(Enum$BackupProvider e) { switch (e) { case Enum$BackupProvider.BACKBLAZE: return r'BACKBLAZE'; case Enum$BackupProvider.NONE: return r'NONE'; case Enum$BackupProvider.MEMORY: return r'MEMORY'; case Enum$BackupProvider.FILE: return r'FILE'; case Enum$BackupProvider.$unknown: return r'$unknown'; } } Enum$BackupProvider fromJson$Enum$BackupProvider(String value) { switch (value) { case r'BACKBLAZE': return Enum$BackupProvider.BACKBLAZE; case r'NONE': return Enum$BackupProvider.NONE; case r'MEMORY': return Enum$BackupProvider.MEMORY; case r'FILE': return Enum$BackupProvider.FILE; default: return Enum$BackupProvider.$unknown; } } enum Enum$BackupReason { EXPLICIT, AUTO, PRE_RESTORE, $unknown } String toJson$Enum$BackupReason(Enum$BackupReason e) { switch (e) { case Enum$BackupReason.EXPLICIT: return r'EXPLICIT'; case Enum$BackupReason.AUTO: return r'AUTO'; case Enum$BackupReason.PRE_RESTORE: return r'PRE_RESTORE'; case Enum$BackupReason.$unknown: return r'$unknown'; } } Enum$BackupReason fromJson$Enum$BackupReason(String value) { switch (value) { case r'EXPLICIT': return Enum$BackupReason.EXPLICIT; case r'AUTO': return Enum$BackupReason.AUTO; case r'PRE_RESTORE': return Enum$BackupReason.PRE_RESTORE; default: return Enum$BackupReason.$unknown; } } enum Enum$DnsProvider { CLOUDFLARE, DIGITALOCEAN, DESEC, $unknown } String toJson$Enum$DnsProvider(Enum$DnsProvider e) { switch (e) { case Enum$DnsProvider.CLOUDFLARE: return r'CLOUDFLARE'; case Enum$DnsProvider.DIGITALOCEAN: return r'DIGITALOCEAN'; case Enum$DnsProvider.DESEC: return r'DESEC'; case Enum$DnsProvider.$unknown: return r'$unknown'; } } Enum$DnsProvider fromJson$Enum$DnsProvider(String value) { switch (value) { case r'CLOUDFLARE': return Enum$DnsProvider.CLOUDFLARE; case r'DIGITALOCEAN': return Enum$DnsProvider.DIGITALOCEAN; case r'DESEC': return Enum$DnsProvider.DESEC; default: return Enum$DnsProvider.$unknown; } } enum Enum$RestoreStrategy { INPLACE, DOWNLOAD_VERIFY_OVERWRITE, $unknown } String toJson$Enum$RestoreStrategy(Enum$RestoreStrategy e) { switch (e) { case Enum$RestoreStrategy.INPLACE: return r'INPLACE'; case Enum$RestoreStrategy.DOWNLOAD_VERIFY_OVERWRITE: return r'DOWNLOAD_VERIFY_OVERWRITE'; case Enum$RestoreStrategy.$unknown: return r'$unknown'; } } Enum$RestoreStrategy fromJson$Enum$RestoreStrategy(String value) { switch (value) { case r'INPLACE': return Enum$RestoreStrategy.INPLACE; case r'DOWNLOAD_VERIFY_OVERWRITE': return Enum$RestoreStrategy.DOWNLOAD_VERIFY_OVERWRITE; default: return Enum$RestoreStrategy.$unknown; } } enum Enum$ServerProvider { HETZNER, DIGITALOCEAN, $unknown } String toJson$Enum$ServerProvider(Enum$ServerProvider e) { switch (e) { case Enum$ServerProvider.HETZNER: return r'HETZNER'; case Enum$ServerProvider.DIGITALOCEAN: return r'DIGITALOCEAN'; case Enum$ServerProvider.$unknown: return r'$unknown'; } } Enum$ServerProvider fromJson$Enum$ServerProvider(String value) { switch (value) { case r'HETZNER': return Enum$ServerProvider.HETZNER; case r'DIGITALOCEAN': return Enum$ServerProvider.DIGITALOCEAN; default: return Enum$ServerProvider.$unknown; } } enum Enum$ServiceStatusEnum { ACTIVE, RELOADING, INACTIVE, FAILED, ACTIVATING, DEACTIVATING, OFF, $unknown } String toJson$Enum$ServiceStatusEnum(Enum$ServiceStatusEnum e) { switch (e) { case Enum$ServiceStatusEnum.ACTIVE: return r'ACTIVE'; case Enum$ServiceStatusEnum.RELOADING: return r'RELOADING'; case Enum$ServiceStatusEnum.INACTIVE: return r'INACTIVE'; case Enum$ServiceStatusEnum.FAILED: return r'FAILED'; case Enum$ServiceStatusEnum.ACTIVATING: return r'ACTIVATING'; case Enum$ServiceStatusEnum.DEACTIVATING: return r'DEACTIVATING'; case Enum$ServiceStatusEnum.OFF: return r'OFF'; case Enum$ServiceStatusEnum.$unknown: return r'$unknown'; } } Enum$ServiceStatusEnum fromJson$Enum$ServiceStatusEnum(String value) { switch (value) { case r'ACTIVE': return Enum$ServiceStatusEnum.ACTIVE; case r'RELOADING': return Enum$ServiceStatusEnum.RELOADING; case r'INACTIVE': return Enum$ServiceStatusEnum.INACTIVE; case r'FAILED': return Enum$ServiceStatusEnum.FAILED; case r'ACTIVATING': return Enum$ServiceStatusEnum.ACTIVATING; case r'DEACTIVATING': return Enum$ServiceStatusEnum.DEACTIVATING; case r'OFF': return Enum$ServiceStatusEnum.OFF; default: return Enum$ServiceStatusEnum.$unknown; } } enum Enum$Severity { INFO, WARNING, ERROR, CRITICAL, SUCCESS, $unknown } String toJson$Enum$Severity(Enum$Severity e) { switch (e) { case Enum$Severity.INFO: return r'INFO'; case Enum$Severity.WARNING: return r'WARNING'; case Enum$Severity.ERROR: return r'ERROR'; case Enum$Severity.CRITICAL: return r'CRITICAL'; case Enum$Severity.SUCCESS: return r'SUCCESS'; case Enum$Severity.$unknown: return r'$unknown'; } } Enum$Severity fromJson$Enum$Severity(String value) { switch (value) { case r'INFO': return Enum$Severity.INFO; case r'WARNING': return Enum$Severity.WARNING; case r'ERROR': return Enum$Severity.ERROR; case r'CRITICAL': return Enum$Severity.CRITICAL; case r'SUCCESS': return Enum$Severity.SUCCESS; default: return Enum$Severity.$unknown; } } enum Enum$UserType { NORMAL, PRIMARY, ROOT, $unknown } String toJson$Enum$UserType(Enum$UserType e) { switch (e) { case Enum$UserType.NORMAL: return r'NORMAL'; case Enum$UserType.PRIMARY: return r'PRIMARY'; case Enum$UserType.ROOT: return r'ROOT'; case Enum$UserType.$unknown: return r'$unknown'; } } Enum$UserType fromJson$Enum$UserType(String value) { switch (value) { case r'NORMAL': return Enum$UserType.NORMAL; case r'PRIMARY': return Enum$UserType.PRIMARY; case r'ROOT': return Enum$UserType.ROOT; default: return Enum$UserType.$unknown; } } const possibleTypesMap = >{ 'MutationReturnInterface': { 'ApiKeyMutationReturn', 'AutoUpgradeSettingsMutationReturn', 'DeviceApiTokenMutationReturn', 'GenericBackupConfigReturn', 'GenericJobMutationReturn', 'GenericMutationReturn', 'ServiceJobMutationReturn', 'ServiceMutationReturn', 'TimezoneMutationReturn', 'UserMutationReturn', }, 'StorageUsageInterface': {'ServiceStorageUsage'}, };