// Auto-generated to Go types using avdl-compiler v1.4.6 (https://github.com/keybase/node-avdl-compiler) // Input file: ../../../../../../client/protocol/avdl/keybase1/common.avdl package keybase1 import ( "errors" "fmt" ) type Time int64 func (o Time) DeepCopy() Time { return o } type UnixTime int64 func (o UnixTime) DeepCopy() UnixTime { return o } type DurationSec float64 func (o DurationSec) DeepCopy() DurationSec { return o } type DurationMsec float64 func (o DurationMsec) DeepCopy() DurationMsec { return o } type StringKVPair struct { Key string `codec:"key" json:"key"` Value string `codec:"value" json:"value"` } func (o StringKVPair) DeepCopy() StringKVPair { return StringKVPair{ Key: o.Key, Value: o.Value, } } type Status struct { Code int `codec:"code" json:"code"` Name string `codec:"name" json:"name"` Desc string `codec:"desc" json:"desc"` Fields []StringKVPair `codec:"fields" json:"fields"` } func (o Status) DeepCopy() Status { return Status{ Code: o.Code, Name: o.Name, Desc: o.Desc, Fields: (func(x []StringKVPair) []StringKVPair { if x == nil { return nil } ret := make([]StringKVPair, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.Fields), } } type UID string func (o UID) DeepCopy() UID { return o } type VID string func (o VID) DeepCopy() VID { return o } type DeviceID string func (o DeviceID) DeepCopy() DeviceID { return o } type SigID string func (o SigID) DeepCopy() SigID { return o } type LeaseID string func (o LeaseID) DeepCopy() LeaseID { return o } type KID string func (o KID) DeepCopy() KID { return o } type PhoneNumber string func (o PhoneNumber) DeepCopy() PhoneNumber { return o } type RawPhoneNumber string func (o RawPhoneNumber) DeepCopy() RawPhoneNumber { return o } type LinkID string func (o LinkID) DeepCopy() LinkID { return o } type BinaryLinkID []byte func (o BinaryLinkID) DeepCopy() BinaryLinkID { return (func(x []byte) []byte { if x == nil { return nil } return append([]byte{}, x...) })(o) } type BinaryKID []byte func (o BinaryKID) DeepCopy() BinaryKID { return (func(x []byte) []byte { if x == nil { return nil } return append([]byte{}, x...) })(o) } type TLFID string func (o TLFID) DeepCopy() TLFID { return o } type TeamID string func (o TeamID) DeepCopy() TeamID { return o } type UserOrTeamID string func (o UserOrTeamID) DeepCopy() UserOrTeamID { return o } type GitRepoName string func (o GitRepoName) DeepCopy() GitRepoName { return o } type HashMeta []byte func (o HashMeta) DeepCopy() HashMeta { return (func(x []byte) []byte { if x == nil { return nil } return append([]byte{}, x...) })(o) } type UserVersion struct { Uid UID `codec:"uid" json:"uid"` EldestSeqno Seqno `codec:"eldestSeqno" json:"eldestSeqno"` } func (o UserVersion) DeepCopy() UserVersion { return UserVersion{ Uid: o.Uid.DeepCopy(), EldestSeqno: o.EldestSeqno.DeepCopy(), } } type TeamType int const ( TeamType_NONE TeamType = 0 TeamType_LEGACY TeamType = 1 TeamType_MODERN TeamType = 2 ) func (o TeamType) DeepCopy() TeamType { return o } var TeamTypeMap = map[string]TeamType{ "NONE": 0, "LEGACY": 1, "MODERN": 2, } var TeamTypeRevMap = map[TeamType]string{ 0: "NONE", 1: "LEGACY", 2: "MODERN", } func (e TeamType) String() string { if v, ok := TeamTypeRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type CompatibilityTeamID struct { Typ__ TeamType `codec:"typ" json:"typ"` Legacy__ *TLFID `codec:"legacy,omitempty" json:"legacy,omitempty"` Modern__ *TeamID `codec:"modern,omitempty" json:"modern,omitempty"` } func (o *CompatibilityTeamID) Typ() (ret TeamType, err error) { switch o.Typ__ { case TeamType_LEGACY: if o.Legacy__ == nil { err = errors.New("unexpected nil value for Legacy__") return ret, err } case TeamType_MODERN: if o.Modern__ == nil { err = errors.New("unexpected nil value for Modern__") return ret, err } } return o.Typ__, nil } func (o CompatibilityTeamID) Legacy() (res TLFID) { if o.Typ__ != TeamType_LEGACY { panic("wrong case accessed") } if o.Legacy__ == nil { return } return *o.Legacy__ } func (o CompatibilityTeamID) Modern() (res TeamID) { if o.Typ__ != TeamType_MODERN { panic("wrong case accessed") } if o.Modern__ == nil { return } return *o.Modern__ } func NewCompatibilityTeamIDWithLegacy(v TLFID) CompatibilityTeamID { return CompatibilityTeamID{ Typ__: TeamType_LEGACY, Legacy__: &v, } } func NewCompatibilityTeamIDWithModern(v TeamID) CompatibilityTeamID { return CompatibilityTeamID{ Typ__: TeamType_MODERN, Modern__: &v, } } func (o CompatibilityTeamID) DeepCopy() CompatibilityTeamID { return CompatibilityTeamID{ Typ__: o.Typ__.DeepCopy(), Legacy__: (func(x *TLFID) *TLFID { if x == nil { return nil } tmp := (*x).DeepCopy() return &tmp })(o.Legacy__), Modern__: (func(x *TeamID) *TeamID { if x == nil { return nil } tmp := (*x).DeepCopy() return &tmp })(o.Modern__), } } type TLFVisibility int const ( TLFVisibility_ANY TLFVisibility = 0 TLFVisibility_PUBLIC TLFVisibility = 1 TLFVisibility_PRIVATE TLFVisibility = 2 ) func (o TLFVisibility) DeepCopy() TLFVisibility { return o } var TLFVisibilityMap = map[string]TLFVisibility{ "ANY": 0, "PUBLIC": 1, "PRIVATE": 2, } var TLFVisibilityRevMap = map[TLFVisibility]string{ 0: "ANY", 1: "PUBLIC", 2: "PRIVATE", } func (e TLFVisibility) String() string { if v, ok := TLFVisibilityRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type TeamIDWithVisibility struct { TeamID TeamID `codec:"teamID" json:"teamID"` Visibility TLFVisibility `codec:"visibility" json:"visibility"` } func (o TeamIDWithVisibility) DeepCopy() TeamIDWithVisibility { return TeamIDWithVisibility{ TeamID: o.TeamID.DeepCopy(), Visibility: o.Visibility.DeepCopy(), } } type TeamIDAndName struct { Id TeamID `codec:"id" json:"id"` Name TeamName `codec:"name" json:"name"` } func (o TeamIDAndName) DeepCopy() TeamIDAndName { return TeamIDAndName{ Id: o.Id.DeepCopy(), Name: o.Name.DeepCopy(), } } type Seqno int64 func (o Seqno) DeepCopy() Seqno { return o } type SeqType int const ( SeqType_NONE SeqType = 0 SeqType_PUBLIC SeqType = 1 SeqType_PRIVATE SeqType = 2 SeqType_SEMIPRIVATE SeqType = 3 SeqType_USER_PRIVATE_HIDDEN SeqType = 16 SeqType_TEAM_PRIVATE_HIDDEN SeqType = 17 ) func (o SeqType) DeepCopy() SeqType { return o } var SeqTypeMap = map[string]SeqType{ "NONE": 0, "PUBLIC": 1, "PRIVATE": 2, "SEMIPRIVATE": 3, "USER_PRIVATE_HIDDEN": 16, "TEAM_PRIVATE_HIDDEN": 17, } var SeqTypeRevMap = map[SeqType]string{ 0: "NONE", 1: "PUBLIC", 2: "PRIVATE", 3: "SEMIPRIVATE", 16: "USER_PRIVATE_HIDDEN", 17: "TEAM_PRIVATE_HIDDEN", } func (e SeqType) String() string { if v, ok := SeqTypeRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type Bytes32 [32]byte func (o Bytes32) DeepCopy() Bytes32 { var ret Bytes32 copy(ret[:], o[:]) return ret } type Text struct { Data string `codec:"data" json:"data"` Markup bool `codec:"markup" json:"markup"` } func (o Text) DeepCopy() Text { return Text{ Data: o.Data, Markup: o.Markup, } } type PGPIdentity struct { Username string `codec:"username" json:"username"` Comment string `codec:"comment" json:"comment"` Email string `codec:"email" json:"email"` } func (o PGPIdentity) DeepCopy() PGPIdentity { return PGPIdentity{ Username: o.Username, Comment: o.Comment, Email: o.Email, } } type PublicKey struct { KID KID `codec:"KID" json:"KID"` PGPFingerprint string `codec:"PGPFingerprint" json:"PGPFingerprint"` PGPIdentities []PGPIdentity `codec:"PGPIdentities" json:"PGPIdentities"` IsSibkey bool `codec:"isSibkey" json:"isSibkey"` IsEldest bool `codec:"isEldest" json:"isEldest"` ParentID string `codec:"parentID" json:"parentID"` DeviceID DeviceID `codec:"deviceID" json:"deviceID"` DeviceDescription string `codec:"deviceDescription" json:"deviceDescription"` DeviceType DeviceTypeV2 `codec:"deviceType" json:"deviceType"` CTime Time `codec:"cTime" json:"cTime"` ETime Time `codec:"eTime" json:"eTime"` IsRevoked bool `codec:"isRevoked" json:"isRevoked"` } func (o PublicKey) DeepCopy() PublicKey { return PublicKey{ KID: o.KID.DeepCopy(), PGPFingerprint: o.PGPFingerprint, PGPIdentities: (func(x []PGPIdentity) []PGPIdentity { if x == nil { return nil } ret := make([]PGPIdentity, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.PGPIdentities), IsSibkey: o.IsSibkey, IsEldest: o.IsEldest, ParentID: o.ParentID, DeviceID: o.DeviceID.DeepCopy(), DeviceDescription: o.DeviceDescription, DeviceType: o.DeviceType.DeepCopy(), CTime: o.CTime.DeepCopy(), ETime: o.ETime.DeepCopy(), IsRevoked: o.IsRevoked, } } type KeybaseTime struct { Unix Time `codec:"unix" json:"unix"` Chain Seqno `codec:"chain" json:"chain"` } func (o KeybaseTime) DeepCopy() KeybaseTime { return KeybaseTime{ Unix: o.Unix.DeepCopy(), Chain: o.Chain.DeepCopy(), } } type RevokedKey struct { Key PublicKey `codec:"key" json:"key"` Time KeybaseTime `codec:"time" json:"time"` By KID `codec:"by" json:"by"` } func (o RevokedKey) DeepCopy() RevokedKey { return RevokedKey{ Key: o.Key.DeepCopy(), Time: o.Time.DeepCopy(), By: o.By.DeepCopy(), } } type User struct { Uid UID `codec:"uid" json:"uid"` Username string `codec:"username" json:"username"` } func (o User) DeepCopy() User { return User{ Uid: o.Uid.DeepCopy(), Username: o.Username, } } type Device struct { Type DeviceTypeV2 `codec:"type" json:"type"` Name string `codec:"name" json:"name"` DeviceID DeviceID `codec:"deviceID" json:"deviceID"` DeviceNumberOfType int `codec:"deviceNumberOfType" json:"deviceNumberOfType"` CTime Time `codec:"cTime" json:"cTime"` MTime Time `codec:"mTime" json:"mTime"` LastUsedTime Time `codec:"lastUsedTime" json:"lastUsedTime"` EncryptKey KID `codec:"encryptKey" json:"encryptKey"` VerifyKey KID `codec:"verifyKey" json:"verifyKey"` Status int `codec:"status" json:"status"` } func (o Device) DeepCopy() Device { return Device{ Type: o.Type.DeepCopy(), Name: o.Name, DeviceID: o.DeviceID.DeepCopy(), DeviceNumberOfType: o.DeviceNumberOfType, CTime: o.CTime.DeepCopy(), MTime: o.MTime.DeepCopy(), LastUsedTime: o.LastUsedTime.DeepCopy(), EncryptKey: o.EncryptKey.DeepCopy(), VerifyKey: o.VerifyKey.DeepCopy(), Status: o.Status, } } type DeviceType int const ( DeviceType_DESKTOP DeviceType = 0 DeviceType_MOBILE DeviceType = 1 ) func (o DeviceType) DeepCopy() DeviceType { return o } var DeviceTypeMap = map[string]DeviceType{ "DESKTOP": 0, "MOBILE": 1, } var DeviceTypeRevMap = map[DeviceType]string{ 0: "DESKTOP", 1: "MOBILE", } func (e DeviceType) String() string { if v, ok := DeviceTypeRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type DeviceTypeV2 string func (o DeviceTypeV2) DeepCopy() DeviceTypeV2 { return o } type Stream struct { Fd int `codec:"fd" json:"fd"` } func (o Stream) DeepCopy() Stream { return Stream{ Fd: o.Fd, } } type LogLevel int const ( LogLevel_NONE LogLevel = 0 LogLevel_DEBUG LogLevel = 1 LogLevel_INFO LogLevel = 2 LogLevel_NOTICE LogLevel = 3 LogLevel_WARN LogLevel = 4 LogLevel_ERROR LogLevel = 5 LogLevel_CRITICAL LogLevel = 6 LogLevel_FATAL LogLevel = 7 ) func (o LogLevel) DeepCopy() LogLevel { return o } var LogLevelMap = map[string]LogLevel{ "NONE": 0, "DEBUG": 1, "INFO": 2, "NOTICE": 3, "WARN": 4, "ERROR": 5, "CRITICAL": 6, "FATAL": 7, } var LogLevelRevMap = map[LogLevel]string{ 0: "NONE", 1: "DEBUG", 2: "INFO", 3: "NOTICE", 4: "WARN", 5: "ERROR", 6: "CRITICAL", 7: "FATAL", } func (e LogLevel) String() string { if v, ok := LogLevelRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type ClientType int const ( ClientType_NONE ClientType = 0 ClientType_CLI ClientType = 1 ClientType_GUI_MAIN ClientType = 2 ClientType_KBFS ClientType = 3 ClientType_GUI_HELPER ClientType = 4 ) func (o ClientType) DeepCopy() ClientType { return o } var ClientTypeMap = map[string]ClientType{ "NONE": 0, "CLI": 1, "GUI_MAIN": 2, "KBFS": 3, "GUI_HELPER": 4, } var ClientTypeRevMap = map[ClientType]string{ 0: "NONE", 1: "CLI", 2: "GUI_MAIN", 3: "KBFS", 4: "GUI_HELPER", } type KBFSPathInfo struct { StandardPath string `codec:"standardPath" json:"standardPath"` DeeplinkPath string `codec:"deeplinkPath" json:"deeplinkPath"` PlatformAfterMountPath string `codec:"platformAfterMountPath" json:"platformAfterMountPath"` } func (o KBFSPathInfo) DeepCopy() KBFSPathInfo { return KBFSPathInfo{ StandardPath: o.StandardPath, DeeplinkPath: o.DeeplinkPath, PlatformAfterMountPath: o.PlatformAfterMountPath, } } type UserVersionVector struct { Id int64 `codec:"id" json:"id"` SigHints int `codec:"sigHints" json:"sigHints"` SigChain int64 `codec:"sigChain" json:"sigChain"` CachedAt Time `codec:"cachedAt" json:"cachedAt"` } func (o UserVersionVector) DeepCopy() UserVersionVector { return UserVersionVector{ Id: o.Id, SigHints: o.SigHints, SigChain: o.SigChain, CachedAt: o.CachedAt.DeepCopy(), } } type PerUserKeyGeneration int func (o PerUserKeyGeneration) DeepCopy() PerUserKeyGeneration { return o } type PerUserKey struct { Gen int `codec:"gen" json:"gen"` Seqno Seqno `codec:"seqno" json:"seqno"` SigKID KID `codec:"sigKID" json:"sigKID"` EncKID KID `codec:"encKID" json:"encKID"` SignedByKID KID `codec:"signedByKID" json:"signedByKID"` } func (o PerUserKey) DeepCopy() PerUserKey { return PerUserKey{ Gen: o.Gen, Seqno: o.Seqno.DeepCopy(), SigKID: o.SigKID.DeepCopy(), EncKID: o.EncKID.DeepCopy(), SignedByKID: o.SignedByKID.DeepCopy(), } } type UserPlusKeys struct { Uid UID `codec:"uid" json:"uid"` Username string `codec:"username" json:"username"` EldestSeqno Seqno `codec:"eldestSeqno" json:"eldestSeqno"` Status StatusCode `codec:"status" json:"status"` DeviceKeys []PublicKey `codec:"deviceKeys" json:"deviceKeys"` RevokedDeviceKeys []RevokedKey `codec:"revokedDeviceKeys" json:"revokedDeviceKeys"` PGPKeyCount int `codec:"pgpKeyCount" json:"pgpKeyCount"` Uvv UserVersionVector `codec:"uvv" json:"uvv"` DeletedDeviceKeys []PublicKey `codec:"deletedDeviceKeys" json:"deletedDeviceKeys"` PerUserKeys []PerUserKey `codec:"perUserKeys" json:"perUserKeys"` Resets []ResetSummary `codec:"resets" json:"resets"` } func (o UserPlusKeys) DeepCopy() UserPlusKeys { return UserPlusKeys{ Uid: o.Uid.DeepCopy(), Username: o.Username, EldestSeqno: o.EldestSeqno.DeepCopy(), Status: o.Status.DeepCopy(), DeviceKeys: (func(x []PublicKey) []PublicKey { if x == nil { return nil } ret := make([]PublicKey, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.DeviceKeys), RevokedDeviceKeys: (func(x []RevokedKey) []RevokedKey { if x == nil { return nil } ret := make([]RevokedKey, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.RevokedDeviceKeys), PGPKeyCount: o.PGPKeyCount, Uvv: o.Uvv.DeepCopy(), DeletedDeviceKeys: (func(x []PublicKey) []PublicKey { if x == nil { return nil } ret := make([]PublicKey, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.DeletedDeviceKeys), PerUserKeys: (func(x []PerUserKey) []PerUserKey { if x == nil { return nil } ret := make([]PerUserKey, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.PerUserKeys), Resets: (func(x []ResetSummary) []ResetSummary { if x == nil { return nil } ret := make([]ResetSummary, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.Resets), } } type UserOrTeamLite struct { Id UserOrTeamID `codec:"id" json:"id"` Name string `codec:"name" json:"name"` } func (o UserOrTeamLite) DeepCopy() UserOrTeamLite { return UserOrTeamLite{ Id: o.Id.DeepCopy(), Name: o.Name, } } type UserOrTeamResult int const ( UserOrTeamResult_USER UserOrTeamResult = 1 UserOrTeamResult_TEAM UserOrTeamResult = 2 ) func (o UserOrTeamResult) DeepCopy() UserOrTeamResult { return o } var UserOrTeamResultMap = map[string]UserOrTeamResult{ "USER": 1, "TEAM": 2, } var UserOrTeamResultRevMap = map[UserOrTeamResult]string{ 1: "USER", 2: "TEAM", } func (e UserOrTeamResult) String() string { if v, ok := UserOrTeamResultRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type RemoteTrack struct { Username string `codec:"username" json:"username"` Uid UID `codec:"uid" json:"uid"` LinkID LinkID `codec:"linkID" json:"linkID"` } func (o RemoteTrack) DeepCopy() RemoteTrack { return RemoteTrack{ Username: o.Username, Uid: o.Uid.DeepCopy(), LinkID: o.LinkID.DeepCopy(), } } type UserPlusAllKeys struct { Base UserPlusKeys `codec:"base" json:"base"` PGPKeys []PublicKey `codec:"pgpKeys" json:"pgpKeys"` RemoteTracks []RemoteTrack `codec:"remoteTracks" json:"remoteTracks"` } func (o UserPlusAllKeys) DeepCopy() UserPlusAllKeys { return UserPlusAllKeys{ Base: o.Base.DeepCopy(), PGPKeys: (func(x []PublicKey) []PublicKey { if x == nil { return nil } ret := make([]PublicKey, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.PGPKeys), RemoteTracks: (func(x []RemoteTrack) []RemoteTrack { if x == nil { return nil } ret := make([]RemoteTrack, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.RemoteTracks), } } type MerkleTreeID int const ( MerkleTreeID_MASTER MerkleTreeID = 0 MerkleTreeID_KBFS_PUBLIC MerkleTreeID = 1 MerkleTreeID_KBFS_PRIVATE MerkleTreeID = 2 MerkleTreeID_KBFS_PRIVATETEAM MerkleTreeID = 3 ) func (o MerkleTreeID) DeepCopy() MerkleTreeID { return o } var MerkleTreeIDMap = map[string]MerkleTreeID{ "MASTER": 0, "KBFS_PUBLIC": 1, "KBFS_PRIVATE": 2, "KBFS_PRIVATETEAM": 3, } var MerkleTreeIDRevMap = map[MerkleTreeID]string{ 0: "MASTER", 1: "KBFS_PUBLIC", 2: "KBFS_PRIVATE", 3: "KBFS_PRIVATETEAM", } // SocialAssertionService is a service that can be used to assert proofs for a // user. type SocialAssertionService string func (o SocialAssertionService) DeepCopy() SocialAssertionService { return o } // SocialAssertion contains a service and username for that service, that // together form an assertion about a user. It can either be a social // assertion (like "facebook" or "twitter") or a server trust assertion (like // "phone" or "email"). // // If the assertion is for social network, resolving an assertion requires // that the user posts a Keybase proof on the asserted service as the asserted // user. // // For server trust assertion, we have to trust the server. type SocialAssertion struct { User string `codec:"user" json:"user"` Service SocialAssertionService `codec:"service" json:"service"` } func (o SocialAssertion) DeepCopy() SocialAssertion { return SocialAssertion{ User: o.User, Service: o.Service.DeepCopy(), } } type FullName string func (o FullName) DeepCopy() FullName { return o } type FullNamePackageVersion int const ( FullNamePackageVersion_V0 FullNamePackageVersion = 0 FullNamePackageVersion_V1 FullNamePackageVersion = 1 FullNamePackageVersion_V2 FullNamePackageVersion = 2 ) func (o FullNamePackageVersion) DeepCopy() FullNamePackageVersion { return o } var FullNamePackageVersionMap = map[string]FullNamePackageVersion{ "V0": 0, "V1": 1, "V2": 2, } var FullNamePackageVersionRevMap = map[FullNamePackageVersion]string{ 0: "V0", 1: "V1", 2: "V2", } func (e FullNamePackageVersion) String() string { if v, ok := FullNamePackageVersionRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type FullNamePackage struct { Version FullNamePackageVersion `codec:"version" json:"version"` FullName FullName `codec:"fullName" json:"fullName"` EldestSeqno Seqno `codec:"eldestSeqno" json:"eldestSeqno"` Status StatusCode `codec:"status" json:"status"` CachedAt Time `codec:"cachedAt" json:"cachedAt"` } func (o FullNamePackage) DeepCopy() FullNamePackage { return FullNamePackage{ Version: o.Version.DeepCopy(), FullName: o.FullName.DeepCopy(), EldestSeqno: o.EldestSeqno.DeepCopy(), Status: o.Status.DeepCopy(), CachedAt: o.CachedAt.DeepCopy(), } } type ImageCropRect struct { X0 int `codec:"x0" json:"x0"` Y0 int `codec:"y0" json:"y0"` X1 int `codec:"x1" json:"x1"` Y1 int `codec:"y1" json:"y1"` } func (o ImageCropRect) DeepCopy() ImageCropRect { return ImageCropRect{ X0: o.X0, Y0: o.Y0, X1: o.X1, Y1: o.Y1, } } type PhoneLookupResult struct { Uid UID `codec:"uid" json:"uid"` Username string `codec:"username" json:"username"` Ctime UnixTime `codec:"ctime" json:"ctime"` } func (o PhoneLookupResult) DeepCopy() PhoneLookupResult { return PhoneLookupResult{ Uid: o.Uid.DeepCopy(), Username: o.Username, Ctime: o.Ctime.DeepCopy(), } } type IdentityVisibility int const ( IdentityVisibility_PRIVATE IdentityVisibility = 0 IdentityVisibility_PUBLIC IdentityVisibility = 1 ) func (o IdentityVisibility) DeepCopy() IdentityVisibility { return o } var IdentityVisibilityMap = map[string]IdentityVisibility{ "PRIVATE": 0, "PUBLIC": 1, } var IdentityVisibilityRevMap = map[IdentityVisibility]string{ 0: "PRIVATE", 1: "PUBLIC", } func (e IdentityVisibility) String() string { if v, ok := IdentityVisibilityRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type SizedImage struct { Path string `codec:"path" json:"path"` Width int `codec:"width" json:"width"` } func (o SizedImage) DeepCopy() SizedImage { return SizedImage{ Path: o.Path, Width: o.Width, } } type OfflineAvailability int const ( OfflineAvailability_NONE OfflineAvailability = 0 OfflineAvailability_BEST_EFFORT OfflineAvailability = 1 ) func (o OfflineAvailability) DeepCopy() OfflineAvailability { return o } var OfflineAvailabilityMap = map[string]OfflineAvailability{ "NONE": 0, "BEST_EFFORT": 1, } var OfflineAvailabilityRevMap = map[OfflineAvailability]string{ 0: "NONE", 1: "BEST_EFFORT", } func (e OfflineAvailability) String() string { if v, ok := OfflineAvailabilityRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type UserReacji struct { Name string `codec:"name" json:"name"` CustomAddr *string `codec:"customAddr,omitempty" json:"customAddr,omitempty"` CustomAddrNoAnim *string `codec:"customAddrNoAnim,omitempty" json:"customAddrNoAnim,omitempty"` } func (o UserReacji) DeepCopy() UserReacji { return UserReacji{ Name: o.Name, CustomAddr: (func(x *string) *string { if x == nil { return nil } tmp := (*x) return &tmp })(o.CustomAddr), CustomAddrNoAnim: (func(x *string) *string { if x == nil { return nil } tmp := (*x) return &tmp })(o.CustomAddrNoAnim), } } type ReacjiSkinTone int const ( ReacjiSkinTone_NONE ReacjiSkinTone = 0 ReacjiSkinTone_SKINTONE1 ReacjiSkinTone = 1 ReacjiSkinTone_SKINTONE2 ReacjiSkinTone = 2 ReacjiSkinTone_SKINTONE3 ReacjiSkinTone = 3 ReacjiSkinTone_SKINTONE4 ReacjiSkinTone = 4 ReacjiSkinTone_SKINTONE5 ReacjiSkinTone = 5 ) func (o ReacjiSkinTone) DeepCopy() ReacjiSkinTone { return o } var ReacjiSkinToneMap = map[string]ReacjiSkinTone{ "NONE": 0, "SKINTONE1": 1, "SKINTONE2": 2, "SKINTONE3": 3, "SKINTONE4": 4, "SKINTONE5": 5, } var ReacjiSkinToneRevMap = map[ReacjiSkinTone]string{ 0: "NONE", 1: "SKINTONE1", 2: "SKINTONE2", 3: "SKINTONE3", 4: "SKINTONE4", 5: "SKINTONE5", } func (e ReacjiSkinTone) String() string { if v, ok := ReacjiSkinToneRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) } type UserReacjis struct { TopReacjis []UserReacji `codec:"topReacjis" json:"topReacjis"` SkinTone ReacjiSkinTone `codec:"skinTone" json:"skinTone"` } func (o UserReacjis) DeepCopy() UserReacjis { return UserReacjis{ TopReacjis: (func(x []UserReacji) []UserReacji { if x == nil { return nil } ret := make([]UserReacji, len(x)) for i, v := range x { vCopy := v.DeepCopy() ret[i] = vCopy } return ret })(o.TopReacjis), SkinTone: o.SkinTone.DeepCopy(), } } type WotStatusType int const ( WotStatusType_NONE WotStatusType = 0 WotStatusType_PROPOSED WotStatusType = 1 WotStatusType_ACCEPTED WotStatusType = 2 WotStatusType_REJECTED WotStatusType = 3 WotStatusType_REVOKED WotStatusType = 4 ) func (o WotStatusType) DeepCopy() WotStatusType { return o } var WotStatusTypeMap = map[string]WotStatusType{ "NONE": 0, "PROPOSED": 1, "ACCEPTED": 2, "REJECTED": 3, "REVOKED": 4, } var WotStatusTypeRevMap = map[WotStatusType]string{ 0: "NONE", 1: "PROPOSED", 2: "ACCEPTED", 3: "REJECTED", 4: "REVOKED", } func (e WotStatusType) String() string { if v, ok := WotStatusTypeRevMap[e]; ok { return v } return fmt.Sprintf("%v", int(e)) }