// Code generated by gotdgen, DO NOT EDIT. package tg import ( "context" "errors" "fmt" "sort" "strings" "go.uber.org/multierr" "go.mau.fi/mautrix-telegram/pkg/gotd/bin" "go.mau.fi/mautrix-telegram/pkg/gotd/tdjson" "go.mau.fi/mautrix-telegram/pkg/gotd/tdp" "go.mau.fi/mautrix-telegram/pkg/gotd/tgerr" ) // No-op definition for keeping imports. var ( _ = bin.Buffer{} _ = context.Background() _ = fmt.Stringer(nil) _ = strings.Builder{} _ = errors.Is _ = multierr.AppendInto _ = sort.Ints _ = tdp.Format _ = tgerr.Error{} _ = tdjson.Encoder{} ) // ContactsFound represents TL type `contacts.found#b3134d9d`. // Users found by name substring and auxiliary data. // // See https://core.telegram.org/constructor/contacts.found for reference. type ContactsFound struct { // Personalized results MyResults []PeerClass // List of found user identifiers Results []PeerClass // Found chats Chats []ChatClass // List of users Users []UserClass } // ContactsFoundTypeID is TL type id of ContactsFound. const ContactsFoundTypeID = 0xb3134d9d // Ensuring interfaces in compile-time for ContactsFound. var ( _ bin.Encoder = &ContactsFound{} _ bin.Decoder = &ContactsFound{} _ bin.BareEncoder = &ContactsFound{} _ bin.BareDecoder = &ContactsFound{} ) func (f *ContactsFound) Zero() bool { if f == nil { return true } if !(f.MyResults == nil) { return false } if !(f.Results == nil) { return false } if !(f.Chats == nil) { return false } if !(f.Users == nil) { return false } return true } // String implements fmt.Stringer. func (f *ContactsFound) String() string { if f == nil { return "ContactsFound(nil)" } type Alias ContactsFound return fmt.Sprintf("ContactsFound%+v", Alias(*f)) } // FillFrom fills ContactsFound from given interface. func (f *ContactsFound) FillFrom(from interface { GetMyResults() (value []PeerClass) GetResults() (value []PeerClass) GetChats() (value []ChatClass) GetUsers() (value []UserClass) }) { f.MyResults = from.GetMyResults() f.Results = from.GetResults() f.Chats = from.GetChats() f.Users = from.GetUsers() } // TypeID returns type id in TL schema. // // See https://core.telegram.org/mtproto/TL-tl#remarks. func (*ContactsFound) TypeID() uint32 { return ContactsFoundTypeID } // TypeName returns name of type in TL schema. func (*ContactsFound) TypeName() string { return "contacts.found" } // TypeInfo returns info about TL type. func (f *ContactsFound) TypeInfo() tdp.Type { typ := tdp.Type{ Name: "contacts.found", ID: ContactsFoundTypeID, } if f == nil { typ.Null = true return typ } typ.Fields = []tdp.Field{ { Name: "MyResults", SchemaName: "my_results", }, { Name: "Results", SchemaName: "results", }, { Name: "Chats", SchemaName: "chats", }, { Name: "Users", SchemaName: "users", }, } return typ } // Encode implements bin.Encoder. func (f *ContactsFound) Encode(b *bin.Buffer) error { if f == nil { return fmt.Errorf("can't encode contacts.found#b3134d9d as nil") } b.PutID(ContactsFoundTypeID) return f.EncodeBare(b) } // EncodeBare implements bin.BareEncoder. func (f *ContactsFound) EncodeBare(b *bin.Buffer) error { if f == nil { return fmt.Errorf("can't encode contacts.found#b3134d9d as nil") } b.PutVectorHeader(len(f.MyResults)) for idx, v := range f.MyResults { if v == nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field my_results element with index %d is nil", idx) } if err := v.Encode(b); err != nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field my_results element with index %d: %w", idx, err) } } b.PutVectorHeader(len(f.Results)) for idx, v := range f.Results { if v == nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field results element with index %d is nil", idx) } if err := v.Encode(b); err != nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field results element with index %d: %w", idx, err) } } b.PutVectorHeader(len(f.Chats)) for idx, v := range f.Chats { if v == nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field chats element with index %d is nil", idx) } if err := v.Encode(b); err != nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field chats element with index %d: %w", idx, err) } } b.PutVectorHeader(len(f.Users)) for idx, v := range f.Users { if v == nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field users element with index %d is nil", idx) } if err := v.Encode(b); err != nil { return fmt.Errorf("unable to encode contacts.found#b3134d9d: field users element with index %d: %w", idx, err) } } return nil } // Decode implements bin.Decoder. func (f *ContactsFound) Decode(b *bin.Buffer) error { if f == nil { return fmt.Errorf("can't decode contacts.found#b3134d9d to nil") } if err := b.ConsumeID(ContactsFoundTypeID); err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: %w", err) } return f.DecodeBare(b) } // DecodeBare implements bin.BareDecoder. func (f *ContactsFound) DecodeBare(b *bin.Buffer) error { if f == nil { return fmt.Errorf("can't decode contacts.found#b3134d9d to nil") } { headerLen, err := b.VectorHeader() if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field my_results: %w", err) } if headerLen > 0 { f.MyResults = make([]PeerClass, 0, headerLen%bin.PreallocateLimit) } for idx := 0; idx < headerLen; idx++ { value, err := DecodePeer(b) if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field my_results: %w", err) } f.MyResults = append(f.MyResults, value) } } { headerLen, err := b.VectorHeader() if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field results: %w", err) } if headerLen > 0 { f.Results = make([]PeerClass, 0, headerLen%bin.PreallocateLimit) } for idx := 0; idx < headerLen; idx++ { value, err := DecodePeer(b) if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field results: %w", err) } f.Results = append(f.Results, value) } } { headerLen, err := b.VectorHeader() if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field chats: %w", err) } if headerLen > 0 { f.Chats = make([]ChatClass, 0, headerLen%bin.PreallocateLimit) } for idx := 0; idx < headerLen; idx++ { value, err := DecodeChat(b) if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field chats: %w", err) } f.Chats = append(f.Chats, value) } } { headerLen, err := b.VectorHeader() if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field users: %w", err) } if headerLen > 0 { f.Users = make([]UserClass, 0, headerLen%bin.PreallocateLimit) } for idx := 0; idx < headerLen; idx++ { value, err := DecodeUser(b) if err != nil { return fmt.Errorf("unable to decode contacts.found#b3134d9d: field users: %w", err) } f.Users = append(f.Users, value) } } return nil } // GetMyResults returns value of MyResults field. func (f *ContactsFound) GetMyResults() (value []PeerClass) { if f == nil { return } return f.MyResults } // GetResults returns value of Results field. func (f *ContactsFound) GetResults() (value []PeerClass) { if f == nil { return } return f.Results } // GetChats returns value of Chats field. func (f *ContactsFound) GetChats() (value []ChatClass) { if f == nil { return } return f.Chats } // GetUsers returns value of Users field. func (f *ContactsFound) GetUsers() (value []UserClass) { if f == nil { return } return f.Users } // MapMyResults returns field MyResults wrapped in PeerClassArray helper. func (f *ContactsFound) MapMyResults() (value PeerClassArray) { return PeerClassArray(f.MyResults) } // MapResults returns field Results wrapped in PeerClassArray helper. func (f *ContactsFound) MapResults() (value PeerClassArray) { return PeerClassArray(f.Results) } // MapChats returns field Chats wrapped in ChatClassArray helper. func (f *ContactsFound) MapChats() (value ChatClassArray) { return ChatClassArray(f.Chats) } // MapUsers returns field Users wrapped in UserClassArray helper. func (f *ContactsFound) MapUsers() (value UserClassArray) { return UserClassArray(f.Users) }