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tl_input_photo_slices_gen.go
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tl_input_photo_slices_gen.go
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//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"
"github.com/gotd/td/bin"
"github.com/gotd/td/tdjson"
"github.com/gotd/td/tdp"
"github.com/gotd/td/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{}
)
// InputPhotoClassArray is adapter for slice of InputPhotoClass.
type InputPhotoClassArray []InputPhotoClass
// Sort sorts slice of InputPhotoClass.
func (s InputPhotoClassArray) Sort(less func(a, b InputPhotoClass) bool) InputPhotoClassArray {
sort.Slice(s, func(i, j int) bool {
return less(s[i], s[j])
})
return s
}
// SortStable sorts slice of InputPhotoClass.
func (s InputPhotoClassArray) SortStable(less func(a, b InputPhotoClass) bool) InputPhotoClassArray {
sort.SliceStable(s, func(i, j int) bool {
return less(s[i], s[j])
})
return s
}
// Retain filters in-place slice of InputPhotoClass.
func (s InputPhotoClassArray) Retain(keep func(x InputPhotoClass) bool) InputPhotoClassArray {
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 InputPhotoClassArray) First() (v InputPhotoClass, ok bool) {
if len(s) < 1 {
return
}
return s[0], true
}
// Last returns last element of slice (if exists).
func (s InputPhotoClassArray) Last() (v InputPhotoClass, 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 *InputPhotoClassArray) PopFirst() (v InputPhotoClass, 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 InputPhotoClass
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 *InputPhotoClassArray) Pop() (v InputPhotoClass, 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
}
// AsInputPhoto returns copy with only InputPhoto constructors.
func (s InputPhotoClassArray) AsInputPhoto() (to InputPhotoArray) {
for _, elem := range s {
value, ok := elem.(*InputPhoto)
if !ok {
continue
}
to = append(to, *value)
}
return to
}
// FillNotEmptyMap fills only NotEmpty constructors to given map.
func (s InputPhotoClassArray) FillNotEmptyMap(to map[int64]*InputPhoto) {
for _, elem := range s {
value, ok := elem.AsNotEmpty()
if !ok {
continue
}
to[value.GetID()] = value
}
}
// NotEmptyToMap collects only NotEmpty constructors to map.
func (s InputPhotoClassArray) NotEmptyToMap() map[int64]*InputPhoto {
r := make(map[int64]*InputPhoto, len(s))
s.FillNotEmptyMap(r)
return r
}
// AppendOnlyNotEmpty appends only NotEmpty constructors to
// given slice.
func (s InputPhotoClassArray) AppendOnlyNotEmpty(to []*InputPhoto) []*InputPhoto {
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 InputPhotoClassArray) AsNotEmpty() (to []*InputPhoto) {
return s.AppendOnlyNotEmpty(to)
}
// FirstAsNotEmpty returns first element of slice (if exists).
func (s InputPhotoClassArray) FirstAsNotEmpty() (v *InputPhoto, ok bool) {
value, ok := s.First()
if !ok {
return
}
return value.AsNotEmpty()
}
// LastAsNotEmpty returns last element of slice (if exists).
func (s InputPhotoClassArray) LastAsNotEmpty() (v *InputPhoto, ok bool) {
value, ok := s.Last()
if !ok {
return
}
return value.AsNotEmpty()
}
// PopFirstAsNotEmpty returns element of slice (if exists).
func (s *InputPhotoClassArray) PopFirstAsNotEmpty() (v *InputPhoto, ok bool) {
value, ok := s.PopFirst()
if !ok {
return
}
return value.AsNotEmpty()
}
// PopAsNotEmpty returns element of slice (if exists).
func (s *InputPhotoClassArray) PopAsNotEmpty() (v *InputPhoto, ok bool) {
value, ok := s.Pop()
if !ok {
return
}
return value.AsNotEmpty()
}
// InputPhotoArray is adapter for slice of InputPhoto.
type InputPhotoArray []InputPhoto
// Sort sorts slice of InputPhoto.
func (s InputPhotoArray) Sort(less func(a, b InputPhoto) bool) InputPhotoArray {
sort.Slice(s, func(i, j int) bool {
return less(s[i], s[j])
})
return s
}
// SortStable sorts slice of InputPhoto.
func (s InputPhotoArray) SortStable(less func(a, b InputPhoto) bool) InputPhotoArray {
sort.SliceStable(s, func(i, j int) bool {
return less(s[i], s[j])
})
return s
}
// Retain filters in-place slice of InputPhoto.
func (s InputPhotoArray) Retain(keep func(x InputPhoto) bool) InputPhotoArray {
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 InputPhotoArray) First() (v InputPhoto, ok bool) {
if len(s) < 1 {
return
}
return s[0], true
}
// Last returns last element of slice (if exists).
func (s InputPhotoArray) Last() (v InputPhoto, 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 *InputPhotoArray) PopFirst() (v InputPhoto, 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 InputPhoto
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 *InputPhotoArray) Pop() (v InputPhoto, 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 InputPhoto by ID.
func (s InputPhotoArray) SortByID() InputPhotoArray {
return s.Sort(func(a, b InputPhoto) bool {
return a.GetID() < b.GetID()
})
}
// SortStableByID sorts slice of InputPhoto by ID.
func (s InputPhotoArray) SortStableByID() InputPhotoArray {
return s.SortStable(func(a, b InputPhoto) bool {
return a.GetID() < b.GetID()
})
}
// FillMap fills constructors to given map.
func (s InputPhotoArray) FillMap(to map[int64]InputPhoto) {
for _, value := range s {
to[value.GetID()] = value
}
}
// ToMap collects constructors to map.
func (s InputPhotoArray) ToMap() map[int64]InputPhoto {
r := make(map[int64]InputPhoto, len(s))
s.FillMap(r)
return r
}