//go:build !no_gotd_slices // +build !no_gotd_slices // 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{} ) // MessageClassArray is adapter for slice of MessageClass. type MessageClassArray []MessageClass // Sort sorts slice of MessageClass. func (s MessageClassArray) Sort(less func(a, b MessageClass) bool) MessageClassArray { sort.Slice(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // SortStable sorts slice of MessageClass. func (s MessageClassArray) SortStable(less func(a, b MessageClass) bool) MessageClassArray { sort.SliceStable(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // Retain filters in-place slice of MessageClass. func (s MessageClassArray) Retain(keep func(x MessageClass) bool) MessageClassArray { n := 0 for _, x := range s { if keep(x) { s[n] = x n++ } } s = s[:n] return s } // First returns first element of slice (if exists). func (s MessageClassArray) First() (v MessageClass, ok bool) { if len(s) < 1 { return } return s[0], true } // Last returns last element of slice (if exists). func (s MessageClassArray) Last() (v MessageClass, ok bool) { if len(s) < 1 { return } return s[len(s)-1], true } // PopFirst returns first element of slice (if exists) and deletes it. func (s *MessageClassArray) PopFirst() (v MessageClass, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[0] // Delete by index from SliceTricks. copy(a[0:], a[1:]) var zero MessageClass a[len(a)-1] = zero a = a[:len(a)-1] *s = a return v, true } // Pop returns last element of slice (if exists) and deletes it. func (s *MessageClassArray) Pop() (v MessageClass, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[len(a)-1] a = a[:len(a)-1] *s = a return v, true } // SortByID sorts slice of MessageClass by ID. func (s MessageClassArray) SortByID() MessageClassArray { return s.Sort(func(a, b MessageClass) bool { return a.GetID() < b.GetID() }) } // SortStableByID sorts slice of MessageClass by ID. func (s MessageClassArray) SortStableByID() MessageClassArray { return s.SortStable(func(a, b MessageClass) bool { return a.GetID() < b.GetID() }) } // FillMessageEmptyMap fills only MessageEmpty constructors to given map. func (s MessageClassArray) FillMessageEmptyMap(to map[int]*MessageEmpty) { for _, elem := range s { value, ok := elem.(*MessageEmpty) if !ok { continue } to[value.GetID()] = value } } // MessageEmptyToMap collects only MessageEmpty constructors to map. func (s MessageClassArray) MessageEmptyToMap() map[int]*MessageEmpty { r := make(map[int]*MessageEmpty, len(s)) s.FillMessageEmptyMap(r) return r } // AsMessageEmpty returns copy with only MessageEmpty constructors. func (s MessageClassArray) AsMessageEmpty() (to MessageEmptyArray) { for _, elem := range s { value, ok := elem.(*MessageEmpty) if !ok { continue } to = append(to, *value) } return to } // FillMessageMap fills only Message constructors to given map. func (s MessageClassArray) FillMessageMap(to map[int]*Message) { for _, elem := range s { value, ok := elem.(*Message) if !ok { continue } to[value.GetID()] = value } } // MessageToMap collects only Message constructors to map. func (s MessageClassArray) MessageToMap() map[int]*Message { r := make(map[int]*Message, len(s)) s.FillMessageMap(r) return r } // AsMessage returns copy with only Message constructors. func (s MessageClassArray) AsMessage() (to MessageArray) { for _, elem := range s { value, ok := elem.(*Message) if !ok { continue } to = append(to, *value) } return to } // FillMessageServiceMap fills only MessageService constructors to given map. func (s MessageClassArray) FillMessageServiceMap(to map[int]*MessageService) { for _, elem := range s { value, ok := elem.(*MessageService) if !ok { continue } to[value.GetID()] = value } } // MessageServiceToMap collects only MessageService constructors to map. func (s MessageClassArray) MessageServiceToMap() map[int]*MessageService { r := make(map[int]*MessageService, len(s)) s.FillMessageServiceMap(r) return r } // AsMessageService returns copy with only MessageService constructors. func (s MessageClassArray) AsMessageService() (to MessageServiceArray) { for _, elem := range s { value, ok := elem.(*MessageService) if !ok { continue } to = append(to, *value) } return to } // FillNotEmptyMap fills only NotEmpty constructors to given map. func (s MessageClassArray) FillNotEmptyMap(to map[int]NotEmptyMessage) { for _, elem := range s { value, ok := elem.AsNotEmpty() if !ok { continue } to[value.GetID()] = value } } // NotEmptyToMap collects only NotEmpty constructors to map. func (s MessageClassArray) NotEmptyToMap() map[int]NotEmptyMessage { r := make(map[int]NotEmptyMessage, len(s)) s.FillNotEmptyMap(r) return r } // AppendOnlyNotEmpty appends only NotEmpty constructors to // given slice. func (s MessageClassArray) AppendOnlyNotEmpty(to []NotEmptyMessage) []NotEmptyMessage { for _, elem := range s { value, ok := elem.AsNotEmpty() if !ok { continue } to = append(to, value) } return to } // AsNotEmpty returns copy with only NotEmpty constructors. func (s MessageClassArray) AsNotEmpty() (to []NotEmptyMessage) { return s.AppendOnlyNotEmpty(to) } // FirstAsNotEmpty returns first element of slice (if exists). func (s MessageClassArray) FirstAsNotEmpty() (v NotEmptyMessage, ok bool) { value, ok := s.First() if !ok { return } return value.AsNotEmpty() } // LastAsNotEmpty returns last element of slice (if exists). func (s MessageClassArray) LastAsNotEmpty() (v NotEmptyMessage, ok bool) { value, ok := s.Last() if !ok { return } return value.AsNotEmpty() } // PopFirstAsNotEmpty returns element of slice (if exists). func (s *MessageClassArray) PopFirstAsNotEmpty() (v NotEmptyMessage, ok bool) { value, ok := s.PopFirst() if !ok { return } return value.AsNotEmpty() } // PopAsNotEmpty returns element of slice (if exists). func (s *MessageClassArray) PopAsNotEmpty() (v NotEmptyMessage, ok bool) { value, ok := s.Pop() if !ok { return } return value.AsNotEmpty() } // MessageEmptyArray is adapter for slice of MessageEmpty. type MessageEmptyArray []MessageEmpty // Sort sorts slice of MessageEmpty. func (s MessageEmptyArray) Sort(less func(a, b MessageEmpty) bool) MessageEmptyArray { sort.Slice(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // SortStable sorts slice of MessageEmpty. func (s MessageEmptyArray) SortStable(less func(a, b MessageEmpty) bool) MessageEmptyArray { sort.SliceStable(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // Retain filters in-place slice of MessageEmpty. func (s MessageEmptyArray) Retain(keep func(x MessageEmpty) bool) MessageEmptyArray { n := 0 for _, x := range s { if keep(x) { s[n] = x n++ } } s = s[:n] return s } // First returns first element of slice (if exists). func (s MessageEmptyArray) First() (v MessageEmpty, ok bool) { if len(s) < 1 { return } return s[0], true } // Last returns last element of slice (if exists). func (s MessageEmptyArray) Last() (v MessageEmpty, ok bool) { if len(s) < 1 { return } return s[len(s)-1], true } // PopFirst returns first element of slice (if exists) and deletes it. func (s *MessageEmptyArray) PopFirst() (v MessageEmpty, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[0] // Delete by index from SliceTricks. copy(a[0:], a[1:]) var zero MessageEmpty a[len(a)-1] = zero a = a[:len(a)-1] *s = a return v, true } // Pop returns last element of slice (if exists) and deletes it. func (s *MessageEmptyArray) Pop() (v MessageEmpty, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[len(a)-1] a = a[:len(a)-1] *s = a return v, true } // SortByID sorts slice of MessageEmpty by ID. func (s MessageEmptyArray) SortByID() MessageEmptyArray { return s.Sort(func(a, b MessageEmpty) bool { return a.GetID() < b.GetID() }) } // SortStableByID sorts slice of MessageEmpty by ID. func (s MessageEmptyArray) SortStableByID() MessageEmptyArray { return s.SortStable(func(a, b MessageEmpty) bool { return a.GetID() < b.GetID() }) } // FillMap fills constructors to given map. func (s MessageEmptyArray) FillMap(to map[int]MessageEmpty) { for _, value := range s { to[value.GetID()] = value } } // ToMap collects constructors to map. func (s MessageEmptyArray) ToMap() map[int]MessageEmpty { r := make(map[int]MessageEmpty, len(s)) s.FillMap(r) return r } // MessageArray is adapter for slice of Message. type MessageArray []Message // Sort sorts slice of Message. func (s MessageArray) Sort(less func(a, b Message) bool) MessageArray { sort.Slice(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // SortStable sorts slice of Message. func (s MessageArray) SortStable(less func(a, b Message) bool) MessageArray { sort.SliceStable(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // Retain filters in-place slice of Message. func (s MessageArray) Retain(keep func(x Message) bool) MessageArray { n := 0 for _, x := range s { if keep(x) { s[n] = x n++ } } s = s[:n] return s } // First returns first element of slice (if exists). func (s MessageArray) First() (v Message, ok bool) { if len(s) < 1 { return } return s[0], true } // Last returns last element of slice (if exists). func (s MessageArray) Last() (v Message, ok bool) { if len(s) < 1 { return } return s[len(s)-1], true } // PopFirst returns first element of slice (if exists) and deletes it. func (s *MessageArray) PopFirst() (v Message, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[0] // Delete by index from SliceTricks. copy(a[0:], a[1:]) var zero Message a[len(a)-1] = zero a = a[:len(a)-1] *s = a return v, true } // Pop returns last element of slice (if exists) and deletes it. func (s *MessageArray) Pop() (v Message, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[len(a)-1] a = a[:len(a)-1] *s = a return v, true } // SortByID sorts slice of Message by ID. func (s MessageArray) SortByID() MessageArray { return s.Sort(func(a, b Message) bool { return a.GetID() < b.GetID() }) } // SortStableByID sorts slice of Message by ID. func (s MessageArray) SortStableByID() MessageArray { return s.SortStable(func(a, b Message) bool { return a.GetID() < b.GetID() }) } // SortByDate sorts slice of Message by Date. func (s MessageArray) SortByDate() MessageArray { return s.Sort(func(a, b Message) bool { return a.GetDate() < b.GetDate() }) } // SortStableByDate sorts slice of Message by Date. func (s MessageArray) SortStableByDate() MessageArray { return s.SortStable(func(a, b Message) bool { return a.GetDate() < b.GetDate() }) } // FillMap fills constructors to given map. func (s MessageArray) FillMap(to map[int]Message) { for _, value := range s { to[value.GetID()] = value } } // ToMap collects constructors to map. func (s MessageArray) ToMap() map[int]Message { r := make(map[int]Message, len(s)) s.FillMap(r) return r } // MessageServiceArray is adapter for slice of MessageService. type MessageServiceArray []MessageService // Sort sorts slice of MessageService. func (s MessageServiceArray) Sort(less func(a, b MessageService) bool) MessageServiceArray { sort.Slice(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // SortStable sorts slice of MessageService. func (s MessageServiceArray) SortStable(less func(a, b MessageService) bool) MessageServiceArray { sort.SliceStable(s, func(i, j int) bool { return less(s[i], s[j]) }) return s } // Retain filters in-place slice of MessageService. func (s MessageServiceArray) Retain(keep func(x MessageService) bool) MessageServiceArray { n := 0 for _, x := range s { if keep(x) { s[n] = x n++ } } s = s[:n] return s } // First returns first element of slice (if exists). func (s MessageServiceArray) First() (v MessageService, ok bool) { if len(s) < 1 { return } return s[0], true } // Last returns last element of slice (if exists). func (s MessageServiceArray) Last() (v MessageService, ok bool) { if len(s) < 1 { return } return s[len(s)-1], true } // PopFirst returns first element of slice (if exists) and deletes it. func (s *MessageServiceArray) PopFirst() (v MessageService, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[0] // Delete by index from SliceTricks. copy(a[0:], a[1:]) var zero MessageService a[len(a)-1] = zero a = a[:len(a)-1] *s = a return v, true } // Pop returns last element of slice (if exists) and deletes it. func (s *MessageServiceArray) Pop() (v MessageService, ok bool) { if s == nil || len(*s) < 1 { return } a := *s v = a[len(a)-1] a = a[:len(a)-1] *s = a return v, true } // SortByID sorts slice of MessageService by ID. func (s MessageServiceArray) SortByID() MessageServiceArray { return s.Sort(func(a, b MessageService) bool { return a.GetID() < b.GetID() }) } // SortStableByID sorts slice of MessageService by ID. func (s MessageServiceArray) SortStableByID() MessageServiceArray { return s.SortStable(func(a, b MessageService) bool { return a.GetID() < b.GetID() }) } // SortByDate sorts slice of MessageService by Date. func (s MessageServiceArray) SortByDate() MessageServiceArray { return s.Sort(func(a, b MessageService) bool { return a.GetDate() < b.GetDate() }) } // SortStableByDate sorts slice of MessageService by Date. func (s MessageServiceArray) SortStableByDate() MessageServiceArray { return s.SortStable(func(a, b MessageService) bool { return a.GetDate() < b.GetDate() }) } // FillMap fills constructors to given map. func (s MessageServiceArray) FillMap(to map[int]MessageService) { for _, value := range s { to[value.GetID()] = value } } // ToMap collects constructors to map. func (s MessageServiceArray) ToMap() map[int]MessageService { r := make(map[int]MessageService, len(s)) s.FillMap(r) return r }