forked from mirrors/gotosocial
262 lines
6.9 KiB
Go
262 lines
6.9 KiB
Go
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package bytes
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import (
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"bytes"
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"reflect"
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"unsafe"
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)
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var (
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_ Bytes = &Buffer{}
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_ Bytes = bytesType{}
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)
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// Bytes defines a standard way of retrieving the content of a
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// byte buffer of some-kind.
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type Bytes interface {
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// Bytes returns the byte slice content
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Bytes() []byte
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// String returns byte slice cast directly to string, this
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// will cause an allocation but comes with the safety of
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// being an immutable Go string
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String() string
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// StringPtr returns byte slice cast to string via the unsafe
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// package. This comes with the same caveats of accessing via
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// .Bytes() in that the content is liable change and is NOT
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// immutable, despite being a string type
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StringPtr() string
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}
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type bytesType []byte
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func (b bytesType) Bytes() []byte {
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return b
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}
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func (b bytesType) String() string {
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return string(b)
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}
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func (b bytesType) StringPtr() string {
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return BytesToString(b)
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}
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// ToBytes casts the provided byte slice as the simplest possible
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// Bytes interface implementation
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func ToBytes(b []byte) Bytes {
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return bytesType(b)
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}
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// Copy returns a new copy of slice b, does NOT maintain nil values
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func Copy(b []byte) []byte {
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p := make([]byte, len(b))
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copy(p, b)
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return p
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}
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// BytesToString returns byte slice cast to string via the "unsafe" package
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func BytesToString(b []byte) string {
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return *(*string)(unsafe.Pointer(&b))
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}
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// StringToBytes returns the string cast to string via the "unsafe" and "reflect" packages
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func StringToBytes(s string) []byte {
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// thank you to https://github.com/valyala/fasthttp/blob/master/bytesconv.go
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var b []byte
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// Get byte + string headers
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bh := (*reflect.SliceHeader)(unsafe.Pointer(&b))
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sh := (*reflect.StringHeader)(unsafe.Pointer(&s))
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// Manually set bytes to string
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bh.Data = sh.Data
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bh.Len = sh.Len
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bh.Cap = sh.Len
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return b
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}
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// // InsertByte inserts the supplied byte into the slice at provided position
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// func InsertByte(b []byte, at int, c byte) []byte {
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// return append(append(b[:at], c), b[at:]...)
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// }
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// // Insert inserts the supplied byte slice into the slice at provided position
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// func Insert(b []byte, at int, s []byte) []byte {
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// return append(append(b[:at], s...), b[at:]...)
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// }
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// ToUpper offers a faster ToUpper implementation using a lookup table
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func ToUpper(b []byte) {
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for i := 0; i < len(b); i++ {
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c := &b[i]
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*c = toUpperTable[*c]
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}
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}
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// ToLower offers a faster ToLower implementation using a lookup table
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func ToLower(b []byte) {
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for i := 0; i < len(b); i++ {
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c := &b[i]
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*c = toLowerTable[*c]
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}
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}
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// HasBytePrefix returns whether b has the provided byte prefix
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func HasBytePrefix(b []byte, c byte) bool {
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return (len(b) > 0) && (b[0] == c)
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}
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// HasByteSuffix returns whether b has the provided byte suffix
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func HasByteSuffix(b []byte, c byte) bool {
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return (len(b) > 0) && (b[len(b)-1] == c)
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}
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// HasBytePrefix returns b without the provided leading byte
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func TrimBytePrefix(b []byte, c byte) []byte {
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if HasBytePrefix(b, c) {
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return b[1:]
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}
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return b
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}
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// TrimByteSuffix returns b without the provided trailing byte
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func TrimByteSuffix(b []byte, c byte) []byte {
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if HasByteSuffix(b, c) {
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return b[:len(b)-1]
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}
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return b
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}
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// Compare is a direct call-through to standard library bytes.Compare()
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func Compare(b, s []byte) int {
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return bytes.Compare(b, s)
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}
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// Contains is a direct call-through to standard library bytes.Contains()
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func Contains(b, s []byte) bool {
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return bytes.Contains(b, s)
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}
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// TrimPrefix is a direct call-through to standard library bytes.TrimPrefix()
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func TrimPrefix(b, s []byte) []byte {
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return bytes.TrimPrefix(b, s)
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}
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// TrimSuffix is a direct call-through to standard library bytes.TrimSuffix()
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func TrimSuffix(b, s []byte) []byte {
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return bytes.TrimSuffix(b, s)
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}
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// Equal is a direct call-through to standard library bytes.Equal()
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func Equal(b, s []byte) bool {
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return bytes.Equal(b, s)
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}
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// EqualFold is a direct call-through to standard library bytes.EqualFold()
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func EqualFold(b, s []byte) bool {
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return bytes.EqualFold(b, s)
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}
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// Fields is a direct call-through to standard library bytes.Fields()
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func Fields(b []byte) [][]byte {
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return bytes.Fields(b)
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}
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// FieldsFunc is a direct call-through to standard library bytes.FieldsFunc()
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func FieldsFunc(b []byte, fn func(rune) bool) [][]byte {
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return bytes.FieldsFunc(b, fn)
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}
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// HasPrefix is a direct call-through to standard library bytes.HasPrefix()
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func HasPrefix(b, s []byte) bool {
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return bytes.HasPrefix(b, s)
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}
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// HasSuffix is a direct call-through to standard library bytes.HasSuffix()
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func HasSuffix(b, s []byte) bool {
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return bytes.HasSuffix(b, s)
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}
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// Index is a direct call-through to standard library bytes.Index()
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func Index(b, s []byte) int {
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return bytes.Index(b, s)
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}
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// IndexByte is a direct call-through to standard library bytes.IndexByte()
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func IndexByte(b []byte, c byte) int {
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return bytes.IndexByte(b, c)
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}
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// IndexAny is a direct call-through to standard library bytes.IndexAny()
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func IndexAny(b []byte, s string) int {
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return bytes.IndexAny(b, s)
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}
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// IndexRune is a direct call-through to standard library bytes.IndexRune()
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func IndexRune(b []byte, r rune) int {
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return bytes.IndexRune(b, r)
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}
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// IndexFunc is a direct call-through to standard library bytes.IndexFunc()
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func IndexFunc(b []byte, fn func(rune) bool) int {
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return bytes.IndexFunc(b, fn)
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}
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// LastIndex is a direct call-through to standard library bytes.LastIndex()
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func LastIndex(b, s []byte) int {
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return bytes.LastIndex(b, s)
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}
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// LastIndexByte is a direct call-through to standard library bytes.LastIndexByte()
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func LastIndexByte(b []byte, c byte) int {
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return bytes.LastIndexByte(b, c)
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}
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// LastIndexAny is a direct call-through to standard library bytes.LastIndexAny()
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func LastIndexAny(b []byte, s string) int {
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return bytes.LastIndexAny(b, s)
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}
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// LastIndexFunc is a direct call-through to standard library bytes.LastIndexFunc()
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func LastIndexFunc(b []byte, fn func(rune) bool) int {
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return bytes.LastIndexFunc(b, fn)
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}
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// Replace is a direct call-through to standard library bytes.Replace()
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func Replace(b, s, r []byte, c int) []byte {
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return bytes.Replace(b, s, r, c)
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}
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// ReplaceAll is a direct call-through to standard library bytes.ReplaceAll()
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func ReplaceAll(b, s, r []byte) []byte {
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return bytes.ReplaceAll(b, s, r)
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}
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// Split is a direct call-through to standard library bytes.Split()
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func Split(b, s []byte) [][]byte {
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return bytes.Split(b, s)
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}
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// SplitAfter is a direct call-through to standard library bytes.SplitAfter()
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func SplitAfter(b, s []byte) [][]byte {
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return bytes.SplitAfter(b, s)
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}
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// SplitN is a direct call-through to standard library bytes.SplitN()
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func SplitN(b, s []byte, c int) [][]byte {
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return bytes.SplitN(b, s, c)
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}
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// SplitAfterN is a direct call-through to standard library bytes.SplitAfterN()
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func SplitAfterN(b, s []byte, c int) [][]byte {
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return bytes.SplitAfterN(b, s, c)
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}
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// NewReader is a direct call-through to standard library bytes.NewReader()
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func NewReader(b []byte) *bytes.Reader {
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return bytes.NewReader(b)
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}
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